T.C.

ADANA BİLİM VE TEKNOLOJİ ÜNİVERSİTESİ

Fen Bilimleri Enstitüsü

Nanoteknoloji ve Mühendislik Bilimleri Anabilim Dalı

2017 - 2018 Eğitim-Öğretim Yılı (İngilizce)

Yüksek Lisans Programı Seçmeli Ders Adları,Kredileri ve Dönemleri

Tezli yüksek lisans programı, 120 AKTS krediden az olmamak koşuluyla, enstitü anabilim dalı başkanlığının öngördüğü en az yedi adet ve en çok on ders (zorunlu ve seçmeli dersler), uzmanlık alan dersi ile seminer çalışması ve tez çalışmasından oluşur. Yüksek lisans programında Adana Bilim ve Teknoloji Üniversitesi lisansüstü yönetmeliğine göre mezun olabilmek için gereken seçmeli derslerin adı, kodu ve kredisi ile mezun olunabilecek dönemleri Tablo 1’de sunulmuştur.

Tablo 1. Yüksek Lisans Programı Seçmeli Ders Adları,Kredileri ve Dönemleri

Semester Course Code Course Title

CreditsT P C ECTS

Autumn

MNES 201 Special Studies 5 0 5 6

NES 503 Introduction to Nanoscience and Nanotechnology 3 0 3 6

NES 631 Research Methodology and Scientific Ethic 3 0 3 6Elective I 3 0 3 6Elective II 3 0 3 6

SNES 101 Seminar 0 0 0 6

Spring

MNES 202 Special Studies 5 0 5 6NES 500 Academic Writing Skills 3 0 3 6

Elective III 3 0 3 6Elective IV 3 0 3 6

SNES 102 Seminar 0 0 0 6

AutumnMNES 201 Special Studies 5 0 5 6TNES 301 MSc Thesis 0 0 0 24

SpringMNES 202 Special Studies 5 0 5 6TNES 302 MSc Thesis 0 0 0 24

Not: Seminer Dersini Öğrenci bir defa alacaktır.

T.C.

ADANA BİLİM VE TEKNOLOJİ ÜNİVERSİTESİ

Fen Bilimleri Enstitüsü

Nanoteknoloji ve Mühendislik Bilimleri Anabilim Dalı

2017 - 2018 Eğitim-Öğretim Yılı (İngilizce) Ders Listesi

Semester

Course Code

E Course Title Course LecturerCREDITS

C T L C ECTS

Autumn NES 503C

Introduction to Nanoscience and Nanotechnology

Assoc.Prof.Dr. Mustafa GÜNEŞ

3 0 3 6

Autumn NES 631C

Research Methodology and Scientific Ethic

Assoc. Prof. Osman SİVRİKAYA

3 0 3 6

Autumn TNES 301 C MSc Thesis Department of Nano Technology and Science of

0 0 0 24

Autumn SNES 101C Seminar Department of Nano

Technology and Science of0 0 0 6

AutumnMNES

201 CSpecial Studies Department of Nano

Technology and Science of5 0 5 6

Autumn NES 505E Statistics Assist.Prof.Dr. Mustafa

GÖÇKEN3 0 3 6

Autumn NES 507E Applied Experimental Design Assist.Prof.Dr. Tolunay

GÖÇKEN3 0 3 6

Autumn NES 509E Nanobiomaterials Assoc.Prof.Dr. Dilek

GÖKTÜRK3 0 3 6

Autumn NES 511 E Electromagnetic Waves Assist.Prof. Dr. Şule ÇOLAK 3 0 3 6

Autumn NES 513E

Advanced Techniques In Genetic Engineering

Assist.Prof.Dr. Dilek GÖKTÜRK

3 0 3 6

Autumn NES 519E

Introduction to Artificial Neural Networks

Assist.Prof. Dr.Lütfü SARIBULUT

3 0 3 6

Autumn NES 521 E Basic Principles of Mechanics Assist.Prof. Dr.Baran AYDIN 3 0 3 6

Autumn NES 523E Introduction to Fuzzy Logic Assist.Prof. Dr.Tolunay

GÖÇKEN3 0 3 6

Autumn NES 525 E Introduction to Nanomaterials Prof. Dr. Adem ERSOY 3 0 3 6

Autumn NES 527E Modeling and Optimization Assoc.Prof.Dr. Tolunay

GÖÇKEN3 0 3 6

Autumn NES 529E Nano Biology Assist.Prof. Dr.Özgür Cem

ERKİN3 0 3 6

Autumn NES 531E Nanomaterials Assoc.Prof.Dr. Mustafa

GÜNEŞ3 0 3 6

Autumn NES 535E

Nanotechnology Based Methods for Food and Bioproducts

Assist. Prof. Dr. Ali Emrah ÇETİN

3 0 3 6

Autumn NES 541E Omics Technologies Assist.Prof. Dr.Özgür Cem

ERKİN3 0 3 6

Autumn NES 543E Polymer Nano Composites Assist.Prof.Dr. Ali Sinan

DİKE3 0 3 6

Autumn NES 547E Solid State Devices Assist.Prof.Dr. Mahmud

Yusuf TANRIKULU3 0 3 6

Autumn NES 549E Statistical Data Analysis Assist.Prof.Dr. Mustafa

GÖÇKEN3 0 3 6

Autumn NES 553E

Time Series Analysis and Forecasting Techniques

Assist.Prof.Dr. Mustafa GÖÇKEN

3 0 3 6

Autumn NES 555E Communication Networks Assist.Prof.Dr. Alper K.

DEMIR3 0 3 6

Autumn NES 557E

Exergy and Exergoeconomy in Analyzing the Energy Systems Assist.Prof.Dr. Zafer ERBAY 3 0 3 6

Autumn NES 559E

Dairy Products and Advanced Processing Techniques Assist.Prof.Dr. Zafer ERBAY 3 0 3 6

Autumn NES 561E Balling Mechanisms In Pelletizing Assoc.Prof.Dr. Osman

SİVRİKAYA3 0 3 6

Autumn NES 563E Heat Conduction Assist.Prof.Dr. Mustafa

KILIÇ3 0 3 6

Autumn NES 565E Heat Convection Assist.Prof.Dr. Mustafa

KILIÇ3 0 3 6

Autumn NES 569E

Advanced Control Methods and Applications

Assist.Prof.Dr. Önder TUTSOY

3 0 3 6

Autumn NES 571E Advanced Food Chemistry Assist. Prof. Dr. Levent

Yurdaer AYDEMİR2 1 2.5 6

Autumn NES 573E Edible films Assist. Prof. Dr. Levent

Yurdaer AYDEMİR2 1 2.5 6

Autumn NES 575E Engineering Fracture Mechanics Assist. Prof. Dr. Nazife

ERARSLAN3 0 3 6

Autumn NES 577E

X-Ray Based Qualitative and quantitative mineral analyses

Assoc. Prof. Tayfun Yusuf YÜNSEL

3 0 3 6

Autumn NES 579E Advanced Food Microbiology Assist. Prof. Dr. Pınar

KADİROĞLU3 0 3 6

Autumn NES 581E

Molecular Methods for Food Safety Applications

Assist. Prof. Dr. Pınar KADİROĞLU

3 0 3 6

Autumn NES 583E Advanced Thermodynamics 1 Assist.Prof.Dr. N. Filiz

ÖZDİL3 0 3 6

Autumn NES 585E

Instrumental Analysis Techniques in Mineral Processing

Assoc. Prof. Dr. Osman SİVRİKAYA

3 0 3 6

Autumn NES 587E Condensed Matter Physics Assist. Prof. Dr. Salih

YILMAZ3 0 3 6

Autumn NES 589E Magnetism in Solids Assist. Prof. Dr. Salih

YILMAZ3 0 3 6

Autumn NES 593E Image Processing with Matlab Assist. Prof. Dr. İ. Cem

BAYKAL3 0 3 6

Autumn NES 595E Introduction to Turbulent Flow Assist. Prof. Dr. Tural

TUNAY3 0 3 6

Autumn NES 597E

Inorganic Membranes in Food and Biotechnology Applications

Assist. Prof. Dr. Ali Emrah ÇETİN

3 0 3 6

Autumn NES 599E Data Knowledge and Mining Assist. Prof. Dr. Mümine

KAYA3 0 3 6

Autumn NES 601 E Information Retrieval Systems Assist. Prof. Dr. Mümine 3 0 3 6

KAYA

Autumn NES 609E Advanced Operating Systems Assist. Prof. Dr. Alper K.

DEMİR3 0 3 6

Autumn NES 611E Biofuel Technology Assist. Prof. Dr. Gökhan

TÜCCAR3 0 3 6

Autumn NES 613E

Traffic Engineering and Management

Assist. Prof. Dr. Gökhan TÜCCAR

3 0 3 6

Autumn NES 615E Advanced Molecular Biology Assist. Prof. Dr. Özgür Cem

ERKİN3 0 3 6

Autumn NES 617E Advances in Cell Signalling Assist. Prof. Dr. Özgür Cem

ERKİN3 0 3 6

Autumn NES 619E

New Bioprocesses for Waste Treatment Assist. Prof. Dr. Sema ŞİRİN 3 0 3 6

Autumn NES 621E

Treatment and Reuse of Waste Water Assist. Prof. Dr. Sema ŞİRİN 3 0 3 6

Autumn NES 623E Energy Resources Assoc. Prof. Dr. Osman

SİVRİKAYA3 0 3 6

Autumn NES 625E

Advanced Techniques In Cell Culture

Assist. Prof. Dr. Dilek GÖKTÜRK

3 0 3 6

Autumn NES 622 E Security and Cyrptography Assist. Prof. Dr. Ali İNAN 3 0 3 6

Autumn NES 643E Nature Inspired Computing Assist. Prof. Dr. Esra SARAÇ

EŞSİZ3 0 3 6

Autumn NES 633E Web Science Assist. Prof. Dr. Esra SARAÇ

EŞSİZ3 0 3 6

Autumn NES 635E Porous Materials and Powders Assist. Prof. Dr. Hüsnü Arda

YURTSEVER3 0 3 6

Autumn NES 637E Fundamentals of Photocatalysis Assist. Prof. Dr. Hüsnü Arda

YURTSEVER3 0 3 6

Autumn NES 639E

Synthesis Characterization and Application Areas of Nanoparticles

Assist. Prof. Dr. Güneş KİBAR

3 0 3 6

Autumn NES 641E

Cell Culture in Regenerative Medicine

Assist. Prof. Dr. Merve ÇAPKIN YURTSEVER

3 0 3 6

Autumn NES 660E Advanced Biomacromolecules Assist. Prof. Dr. Sibel

ÖZDAŞ3 0 3 6

Autumn NES 645E

New Approaches to Molecular Techniques

Assist. Prof. Dr. Sibel ÖZDAŞ

3 0 3 6

Autumn NES 654E Antimicrobial Materials Assist. Prof. Dr. Zeynep

İYİGÜNDOĞDU3 0 3 6

Autumn NES 649E

Advanced Measurement Techniques

Assist. Prof. Dr. Fırat EKİNCİ 3 0 3 6

Autumn NES 651 E Renewable Energy Technologies Assist. Prof. Dr. Fırat EKİNCİ 3 0 3 6

Autumn NES 656E Stem Cells Assist. Prof. Dr. Merve

ÇAPKIN YURTSEVER3 0 3 6

Autumn NES 647 E Power transmission systems Yrd.Doç.Dr. Erinç ULUDMAR

3 0 3 6

Semester

Course Code

E Course Title Course LecturerCREDITS

C T L C ECTS

Spring TNES 302 C MSc Thesis Department of Nano Technology and Science of

0 0 0 24

Spring SNES 102 C Seminar Department of Nano Technology and Science of

0 0 0 6

SpringMNES

202 C Special Studies Department of Nano Technology and Science of

5 0 5 6

Spring NES 500 C Academic Writing Skills Assist.Prof.Dr. Eser ÖRDEM 3 0 3 6

Spring NES 506E

Applied Optimization (with MATLAB Programming Language)

Assoc.Prof. Dr.Tolunay GÖÇKEN

3 0 3 6

Spring NES 510E

Biocatalysor and Antibody Engineering

Assist.Prof.Dr. Dilek GÖKTÜRK

3 0 3 6

Spring NES 512 E Biomarkers Assist.Prof. Dr. Özgür Cem ERKİN

3 0 3 6

Spring NES 514E

Biomimetic Nano Ceramics in Clinical Applications

Assist.Prof.Dr. Ali Emrah ÇETİN

3 0 3 6

Spring NES 516E

Characterization at the Micro- and Nano-Scale

Assoc.Prof. Dr. Mustafa GÜNEŞ

3 0 3 6

Spring NES 518E

Fundamentals of Semiconductor Thin Film Materials

Assist.Prof. Dr. Salih YILMAZ

3 0 3 6

Spring NES 520E

Introduction to Analog Integrated Circuits

Assist.Prof. Dr. Mahmud Yusuf TANRIKULU

3 0 3 6

Spring NES 522E

Introduction to Micro and Nano Electromechanical Systems

Assist.Prof.Dr. Mahmud Yusuf TANRIKULU

3 0 3 6

Spring NES 524E

Kriging and Stochastic Simulation Techniques Prof. Dr. Adem ERSOY 3 0 3 6

Spring NES 526E Laboratory Biosafety Assist.Prof. Dr. Dilek

GÖKTÜRK3 0 3 6

Spring NES 528E Managerial Decision Modeling Assist.Prof.Dr. Mustafa

GÖÇKEN3 0 3 6

Spring NES 530E

Mathematical Transform Techniques for Engineers

Assist.Prof.Dr. Lütfü SARIBULUT

3 0 3 6

Spring NES 534 E Microwave Theory Assist.Prof.Dr. Şule ÇOLAK 3 0 3 6

Spring NES 536E

Multiple Objective Decision Making

Assist.Prof. Dr.Tolunay GÖÇKEN

3 0 3 6

Spring NES 538 E Nano Photonics Assist.Prof. Dr. Mustafa 3 0 3 6

GÜNEŞ

Spring NES 540E

Nanotechnologies in Food Science and Technology

Assist.Prof.Dr. Ali Emrah ÇETİN

3 0 3 6

Spring NES 542E

Nanotechnology, Health, Safety and Environment

Assist.Prof. Dr. Mustafa GÜNEŞ

3 0 3 6

Spring NES 544E

Numerical Solution of Differential Equations Assist.Prof.Dr. Baran AYDIN 3 0 3 6

Spring NES 548E Pharmaceutical Biotechnology Assist.Prof. Dr. Özgür Cem

ERKİN3 0 3 6

Spring NES 552E Simulation Modeling and Analysis Assist.Prof.Dr. Mustafa

GÖÇKEN3 0 3 6

Spring NES 554E

Introduction to Occupational Health & Safety

Assoc.Prof.Dr. İ. Halil GEREK

3 0 3 6

Spring NES 556E Nano Networks Assist.Prof.Dr. Alper K.

DEMİR3 0 3 6

Spring NES 558E

Advances in Distributed Embedded Systems

Assist.Prof.Dr. Alper K. DEMIR

3 0 3 6

Spring NES 560E Advanced Fluid Mechanics Assist.Prof.Dr. N. Filiz

ÖZDİL3 0 3 6

Spring NES 562E

Engineering Applications in Milk Science Assist.Prof.Dr. Zafer ERBAY 3 0 3 6

Spring NES 564 E Drying Technology Assist.Prof.Dr. Zafer ERBAY 3 0 3 6

Spring NES 566E

Size Enlargement Principles and Equipment In Mineral Processing

Assoc.Prof.Dr. Osman SİVRİKAYA

3 0 3 6

Spring NES 568E Advanced Thermodynamics Assist.Prof.Dr. Mustafa

KILIÇ3 0 3 6

Spring NES 570E Computational Fluid Dynamics Assist.Prof.Dr. Mustafa

KILIÇ3 0 3 6

Spring NES 574E Fundamentals of Biostatistics Assist.Prof.Dr. Pınar

KADİROĞLU3 0 3 6

Spring NES 576E

Applications of Nanobiotechnology

Assist.Prof.Dr. Pınar KADİROĞLU

3 0 3 6

Spring NES 578E

Modeling, Control and Learning in Industrial – Humanoid Robotics

Assist.Prof.Dr. Önder TUTSOY

3 0 3 6

Spring NES 580E Food Packaging Assist. Prof. Dr. Levent

Yurdaer AYDEMİR2 1 2.5 6

Spring NES 582E Functional Properties of Proteins Assist. Prof. Dr. Levent

Yurdaer AYDEMİR2 1 2.5 6

Spring NES 584E Advanced Thermodynamics 2 Assist. Prof. Dr. N. Filiz

ÖZDİL3 0 3 6

Spring NES 586E Coal Preparation Assoc. Prof. Dr. Osman

SİVRİKAYA3 0 3 6

Spring NES 588E Geographic Information Systems Assoc. Prof. Tayfun Yusuf

YÜNSEL3 0 3 6

Spring NES 590E Advanced Rock Mechanics Assist. Prof. Dr. Nazife

ERARSLAN3 0 3 6

Spring NES 592E

Blasting Technology and Explosives

Assoc. Prof. Tayfun Yusuf YÜNSEL

3 0 3 6

Spring NES 594E Aerodynamics Assist. Prof. Dr. Tural

TUNAY3 0 3 6

Spring NES 596E Introduction to Semiconductors Assist. Prof.Dr. Salih

YILMAZ3 0 3 6

Spring NES 600E

Advanced Engineering Mathematics

Assist. Prof. Dr. Baran Aydın

3 0 3 6

Spring NES 602E

Advanced Data Mining Assist. Prof. Dr. Mümine KAYA

3 0

3 6

Spring NES 610E E-commerce and Applications Assist. Prof. Dr. Mümine

KAYA3 0 3 6

Spring NES 612E

Software Applications in Engineering

Assist. Prof. Dr. Kerimcan ÇELEBİ

3 0 3 6

Spring NES 614E Advanced Strength of Materials Assist. Prof. Dr. Kerimcan

ÇELEBİ3 0 3 6

Spring NES 616E

Advanced Internal Combustion Engines

Assist. Prof. Dr. Gökhan TÜCCAR

3 0 3 6

Spring NES 618E

Advances in Automotive Engineering

Assist. Prof. Dr. Gökhan TÜCCAR

3 0 3 6

Spring NES 620 E Distributed Systems Assist. Prof. Dr. Ali INAN 3 0 3 6Spring NES 622 E Security and Cryptography Assist. Prof. Dr. Ali INAN 3 0 3 6Spring NES 624 E Biorefinery technologies Assist. Prof. Dr. Sema ŞİRİN 3 0 3 6

Spring NES 626E

Microalgae: Biotechnology and Microbiology Assist. Prof. Dr. Sema ŞİRİN 3 0 3 6

Spring NES 628E Semiconductor Optoelectronics Assist. Prof. Dr. Amira T.

GÜRSEL3 0 3 6

Spring NES 630E Medical Electronics Assist. Prof. Dr. Amira T.

GÜRSEL3 0 3 6

Spring NES 632E

Advanced Topics in Computer Networks and Distributed Systems

Assist. Prof. Dr. Alper K. DEMİR

3 0 3 6

Spring NES 634E Internet of Things Assist. Prof. Dr. Alper K.

DEMİR3 0 3 6

Spring NES 636E Pattern Recognition Assist. Prof. Dr. İ. Cem

BAYKAL3 0 3 6

Spring NES 638E Current Topics in Cancer Biology Assist. Prof. Dr. Özgür Cem

ERKİN3 0 3 6

Spring NES 640E Techniques in Molecular Biology Assist. Prof. Dr. Özgür Cem

ERKİN3 0 3 6

Spring NES 642E

Production of Raw Materials for Different Industries

Assoc. Prof. Dr. Osman SİVRİKAYA

3 0 3 6

Spring NES 644E Molecular Genetics Assist. Prof. Dr. Dilek

GÖKTÜRK3 0 3 6

Spring NES 646E

Numerical Solution of Ordinary Differential Equations

Assist. Prof. Dr. Baran AYDIN

3 0 3 6

Spring NES 648E

Advanced Light Microscopy and Material Analysis

Assoc. Prof. Dr. Tayfun Yusuf YÜNSEL

3 0 3 6

Spring NES 650E

Solar Fuels and Functional Materials

Assist. Prof. Dr. Hüsnü Arda YURTSEVER

3 0 3 6

Spring NES 652E Advanced Materials Assist. Prof. Dr. Zeynep

İYİGÜNDOĞDU3 0 3 6

Spring NES 662E

Introduction to Polymer Science and Technology

Assist. Prof. Dr. Ali Sinan DİKE

3 0 3 6

Spring NES 550E Risk Management Assoc. Prof. Dr. Halil

İbrahim GEREK3 0 3 6

Spring NES 664E Social Network Analysis Assist. Prof. Dr. Esra SARAÇ

EŞSİZ3 0 3 6

Spring NES 666E Designing Interactive Systems Assist. Prof. Dr. Esra SARAÇ

EŞSİZ3 0 3 6

Spring NES 668E

Advanced Cell-Material Interactions

Assist. Prof. Dr. Merve ÇAPKIN YURTSEVER

3 0 3 6

Spring NES 670E Tissue Engineering Assist. Prof. Dr. Merve

ÇAPKIN YURTSEVER3 0 3 6

Spring NES 672E Electric and Hybrit Vehicle Assist. Prof. Dr. Erinç

ULUDAMAR3 0 3 6

,

T.C.

ADANA BİLİM VE TEKNOLOJİ ÜNİVERSİTESİ

Fen Bilimleri Enstitüsü

Nanoteknoloji ve Mühendislik Bilimleri Anabilim Dalı

2016 - 2017 Eğitim-Öğretim Yılı (İngilizce )Ders Kataloğu

COMPULSORY COURSES AND CONTENTS Autumn Semester

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 503 Introduction to Nanoscience and

Nanotechnology 6 Theorical 3 Applied 0

Content: Introduction and classification, description of Nanotechnology and classification of nanostructure, The electronic properties of solids and atoms, Atomic bonds, Free Electron Model, Electronic conductivity, The change in total energy of system, The growing methods of nanomaterials, Science in Nano level, Quantum Mechanism, Molecular transport and Thermodynamic, Momentum and energy transfer in Nano level, Nano materials; design, synthesis and characterization, Nano production, devices and systems.

COURSE CODE COURSE NAME ECTS COURSE CREDITNES 631 Research Methodology and Scientific

Ethic6 Theorical 3 Applied 0

Content: Basic qualities of researcher, Responsibilities of researcher, Scientific methods, Fundamentals of a research, Scientific research and types, Basic research, Applied research, Literature survey, Reference search, Selection of research problem, Selection of topic, Evaluation of research results, Writing of scientific findings, Citation techniques, Main chapters in scientific papers, Thesis preparation, Chapters of a thesis, Writing steps of a thesis, Presentation preparation, Ethic in scientific research, Unethical situations.

COURSE CODE COURSE NAME ECTS COURSE CREDIT TNES 301 MSc Thesis 24 Theorical 0 Applied 0Content: Discussion and interpretation of the results of the research and studies conducted by graduate students under the supervision of a faculty member

COURSE CODE COURSE NAME ECTS COURSE CREDIT SNES 101 Seminar 6 Theorical 0 Applied 0Content: Presentation of the thesis results to the supervisor and faculty members.

COURSE CODE COURSE NAME ECTS COURSE CREDIT MNES 201 Special Studies 6 Theorical 5 Applied 0Content: It is a theoretical course where advisor guides his student(s) through their MSc./Ph.D. thesis research. The precise content of this course is determined by advisor himself/herself according to his/her area of specialization.

ELECTIVE COURSES AND CONTENTS Autumn Semester

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 505 Statistics 6 Theorical 3 Applied 0Content: Introduction to the field of statistics and how engineers use statistical methodology as part of the engineering problem-solving process. Treatment of statistical methods with random sampling; data summary and description techniques. Sampling distributions, the central limit theorem, and point estimation of parameters. Important properties of estimators, the method of maximum likelihood, the method of moments, and Bayesian estimation. Intervals for means, variances or standard deviations, proportions, prediction intervals, tolerance intervals. Hypothesis tests for a single sample, tests and confidence intervals for two samples. Simple and multiple linear regression including model adequacy checking and regression model diagnostics and an introduction to logistic regression. Single- and multifactor experiments. The notions of randomization, blocking, factorial designs, interactions, graphical data analysis, and fractional factorials are emphasized. Statistical quality control chart and fundamentals of statistical process control.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 507 Applied Experimental Design 6 Theorical 3 Applied 0Content: An overview of efficient methods of data collection and analysis in various fields of engineering and technology applications; exposition of experimental design concepts and statistical modeling tools of data analysis; role of experimental design in engineering studies; fundamental statistical concepts; ANOVA analysis; factorial designs; regression analysis; Nelder-Mead Simplex methodology; response surface methodology; Taguchi’s contribution to experimental design.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 509 Nanobiomaterials 6 Theorical 3 Applied 0Content: Nanobiomaterials are the promising area of biological materials science and engineering. The technological significance of this area is immense for applications as biosensors, tissue engineering, controlled release systems, drug delivery biosystems, nanocomposites used in implant design and optical devices. Course cover the following subjects: nanobiomaterials and scaffolds, stem cells and nanobiomaterials, controlled release—DNA, RNA, and protein delivery, lipid nanotechnology, clinical aplications, biocompatibility of biomaterials, molecular and cellular engineering principles, and tissue engineering concepts.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 511 Electromagnetic Waves 6 Theorical 3 Applied 0Content: Time-varying fields and Maxwell’s equations, wave equations and their solutions, transmission lines, wave polarization, reflection, refraction, and diffraction, waveguides and resonators, wave propagation in non-isotropic media, wave functions.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 513 Advanced Techniques in Genetic

Engineering 6 Theorical 3 Applied 0

Content: Introduction to genetic engineering, genetically engineered nano technology products, applications of gene manipulation. Cloning studies in E. coli, vectors; prokaryotic plasmids, bacteriophages, cosmids, design and construction of expression vectors. Cloning in other organisms, eukaryotic plasmids, PCR and RT-PCR techniques. Site directed mutagenesis, transformation, unstable and stable transfection methods. What is transgenic technology? What are the application areas? Transgene and animal cloning, biotechnology, transgene applications in the agriculture and drug industry, basic gene therapy techniques, viral vectors and viroterapy, gene therapy examples in the neurological illnesses, immune system disorders and cancer. Human cloning and ethical problems.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 515 Heuristics 6 Theorical 3 Applied 0Content: The topics include basic heuristic constructs (greedy, improvement, construction); meta heuristics such as simulated annealing, taboo search, genetic algorithms, ant algorithms and their hybrids.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 519 Introduction to Artificial Neural

Networks 6 Theorical 3 Applied 0

Content: This course explores the organization of synaptic connectivity as the basis of neural computation and learning. Perceptron and dynamical theories of recurrent networks including amplifiers, attractors, and hybrid computation are covered. Additional topics include back propagation and Hebbian learning, as well as models of perception, motor control, memory, and neural development.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 521 Basic Principles of Mechanics 6 Theorical 3 Applied 0Content: Tensor analysis and integral theorems. Kinematics of deformation, strain tensor. Total derivative, deformation rate, spin and vorticity. Euler-Cauchy stress principle and stress tensor. Balance laws of momenta and energy, entropy principle. Theory of constitutive equations.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 523 Introduction to Fuzzy Logic 6 Theorical 3 Applied 0Content: Classical Sets and Fuzzy Sets Concepts, Classical Relations and Fuzzy Relations, Membership Functions and Properties of Membership Functions, Determination Methods of Membership Functions, Fuzzy Arithmetic, Fuzzy Control Systems, Fuzzy Clustering, Fuzzy Linear Regression, Fuzzy Decision Making Techniques.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 525 Introduction to Nanomaterials 6 Theorical 3 Applied 0Content: The purpose of this course is to provide students with introductory information about nanotechnology and nanomaterials. The learning objectives of this course are as follows: Contrasting objects at the nanoscale with larger and smaller forms of matter, definition of key terms in nanotechnology, explanation of the ways how nanomaterial properties differ from molecules and microscale particles, description of the physical and chemical characteristics that can change at the nanoscale, definition of the major classes of nanomaterials produced today, their properties and potential benefits.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 527 Modeling and Optimization 6 Theorical 3 Applied 0Content: Modeling of Mathematical Programming Problems, Graphical Solution Methods, Simplex Method, Sensitivity Analysis, Goal Programming, Integer Programming, Network Models, Minimum spanning tree problems, Maximum flow problem, Transportation Model, Assignment Model, Introduction to Nonlinear Programming.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 529 Nano Biology 6 Theorical 3 Applied 0Content: Biological nano-objects: structural and functional regulation of DNA, protein-lipid assembly and biomimetic nanostructures, supramolecular complexes of DNA; functionalized inorganic nanoparticles for biomedical applications, living nanomachines; methods in nanobiotechnology: optical tools, nanoforce and imaging, surface methods, mass spectrometry, electrical characterization and dynamics of transport; applications of nanobiotechnology: real time PCR, biosensors, DNA microarrays, protein microarrays, cell biochips, lab on a chip, biointegrating materials, viral vectors for in vivo gene transfer; the medical, social and economic reflections of nanobiotechnology.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 531 Nanomaterials 6 Theorical 3 Applied 0

Content: Specific Nanostructure growth techniques, epitaxial growth, electron beam lithography, scanning tip lithography, mechanics, thermal, chemical, optical, electronic and magnetic properties of Quantum dot, quantum wire, quantum well, superlattice structures. Mechanic properties of thin films, development of thin film structures and applications.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 535 Nanotechnology Based Methods for

Food and Bioproducts 6 Theorical 3 Applied 0

Content: The goal of this course is to provide students with an understanding of nanostructures in food and bioproducts. Material components for nanostructures, self-assembled nanostructures and nano composites will be introduced. Nanotechnology based delivery systems for food functionalization will also be covered in this course. Students will acquire knowledge on the instrumental techniques such as scanning electron microscopy (SEM), transmission electron microscopy (TEM), dynamic light scattering (DLS) and X-ray diffraction (XRD) etc. which are used to characterize nanostructures.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 541 Omics Technologies 6 Theorical 3 Applied 0Content: Genome analysis, structural genomics, functional genomics, procaryotic and eucaryotic genome analysis, use of genomic databases, genomic mining. Transcriptome and analysis of gene expression in different organisms, gene expression databases. Proteome, proteome databases and data mining. Analysis of metabolomes.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 543 Polymer Nano Composites 6 Theorical 3 Applied 0Content: Composite materials have made miracles since last four decades in aerospace and aircraft industry. Nano modified composites are newer materials and are under investigation in many fields including electronics, bio-medical, aerospace, sports, auto, and construction. Today’s manufacturing engineer should be aware of these new materials and it is going to open new market for future employment. This interactive course with little lab component will give students an insight of manufacturing challenges.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 545 Project Management 6   Theorical 3 Applied 0Content: The topics include the concept of project and project management, the classification of project, time scheduling (Gantt charts, definitions PERT and CPM, difference PERT and CPM), networks (the rules of drawing network, activity on arc and activity on node), critical path (finding a critical path and critical activity), PERT (difficulties of PERT and PERTs calculations), project resource planning (definition and

methods).

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 547 Solid State Devices 6 Theorical 3 Applied 0Content: Semiconductor fundamentals, junctions, BJTs and MOSFETs, heterojunctions, optical properties of semiconductors, optical devices, photo detectors, solar cells, LEDs and lasers.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 549 Statistical Data Analysis 6 Theorical 3 Applied 0Content: Basic statistical definitions and parameters, random sampling, probability distributions, basic sampling distributions, Confidence interval-interval estimation, hypothesis thesis, chi-square test, goodness-of-fit tests, independence tests, least squares method, linear regression, multiple linear regression, nonlinear regression, Analysis of variance-ANOVA, nonparametric statistics.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 553 Time Series Analysis and Forecasting

Techniques 6 Theorical 3 Applied 0

Content: Introduction to forecasting, examining statistical concepts, examining data structures and selection of specific forecasting technique, moving average and smoothing techniques, time series and components, simple linear regression, multiple regression analysis, time series data and regression analysis, box-Jenkins (ARIMA) methodology, management of forecasting process.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 555 Communication Networks 6 Theorical 3 Applied 0Content: Introduction to computer networks, Architecture and design principles, Unicast routing, Multicast routing, Transport layer protocols, Queue management, Quality of Service (QoS), Link layer protocols, Wireless communications, Future Internet architectures, Other topics in computer networks.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 557 Exergy and Exergoeconomy in

Analyzing the Energy Systems 6 Theorical 3 Applied 0

Content: 1st and 2nd Laws in Thermodynamics, Entropy, Exergy Concept, Physical Exergy, Chemical Exergy, Exergetic Evaluation of Industrial Processes, Exergetic Performance Assessment of Industrial Systems, Thermoeconomy Concept, Methods for Exergoeconomic Analysis, SPECO Method, Introduction to Advanced Techniques in Exergy Analysis.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 559 Dairy Products and Advanced

Processing Techniques 6 Theorical 3 Applied 0

Content: Milk composition, technological importance of milk constituents, unit operations in dairy technology, fluid milk production technology, cheese and raw materials used in cheese manufacturing (additives, processing aids), pretreatment of raw milk, coagulation and treatment of coagulum, technologies of widely consumed local and foreign cheese varieties, novel techniques used in cheese technology, processed cheeses, utilization of whey, dairy powders and production technology and evaluation of dairy by-products.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 561 Balling Mechanisms in Pelletizing 6 Theorical 3 Applied 0Content: Introduction, Agglomeration Fundamentals, Particle size of the particulate solid, Agglomeration theories, Theory of balling of fines, Balling, Structure of binding, Binding mechanisms, Wet binding, Dry binding, Thermal binding, Binders and additives, Balling equipment, Balling drums, Balling discs, Properties of agglomerates, Physical properties (Size, Strength, Tumbling and Abrasion index, Porosity, Strength under load), Chemical properties (Chemical composition, Impurities, Basicity ratio, Reducibility), Metallurgical properties (Reducibility, Metallization, Swelling index)

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 563 Heat Conduction 6 Theorical 3 Applied 0Content: Mechanisms of heat transfer. Steady and transient heat conduction in solids, critical radius of ınsulation, heat conduction in multidimensional systems and solution methods.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 565 Heat Convection 6 Theorical 3 Applied 0Content: Physical mechanism of convection, thermal boundary layer, pipe flow, laminar and turbulent forced convection, natural convection. Phase change heat transfer. Heat exchangers.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 569 Advanced Control Methods and

Applications 6 Theorical 3 Applied 0

Content: The overall objective of this course is to add value to gained previous experience in the field of control theory and its applications. This course initially introduces classical control approaches, but mainly focuses on a range of inevitable control topics having significant technological importance today; such as optimal control, industrial control, intelligent control and robotic control. Introduced control approaches will be applied to the ABB IRB 120 type industrial robot manipulator, unstable linear inverted pendulum and hexapod.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 571 Advanced Food Chemistry 6 Theorical 2 Applied 1Content: The chemical structures, reactions and effects of changes which occur during the food production of macro (water, carbohydrates, proteins, lipids) and micro constituents (vitamins, minerals, etc.) in foods. Metabolisms of carbohydrates, lipids and proteins.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 573 Edible films 6 Theorical 2 Applied 1Content: The chemical structures, reactions and effects of changes which occur during the food production of macro (water, carbohydrates, proteins, lipids) and micro constituents (vitamins, minerals, etc.) in foods. Metabolisms of carbohydrates, lipids and proteins.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 575 Engineering Fracture Mechanics 6 Theorical 3 Applied 0Content: The course covers the basic aspects of Engineering Fracture Mechanics fort he engineering materials especially fort he brittle materials such as concrete, rock and ceramics etc. Some of the topics included into this course are: Spectacular failures that triggered the birth of fracture mechanics, Modes of loading, Classification as LEFM and EPFM, Crack growth and fracture mechanisms, Energy release rate, Resistance, Griffith Theory of fracture, Extension of Griffith Theory by Irwin and Orowan, Crack branching. Necessary and sufficient conditions for fracturing, Stress and Displacement fields in the very near and near-tip fields, Stress Intensity Factors, Modeling plastic zone at the crack-tip, Irwin and Dugdale models, Fracture toughness testing and Mixed-mode fracturing.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 577 X-Ray Based Qualitative and

quantitative mineral analyses 6 Theorical 3 Applied 0

Content: Fast Qualitative and quantitative mineral analysis methods for the minerals using X-Ray techniques, Crystal structure of the minerals, X-Ray theory and fundamentals, X-Ray based testing methods, their relations with each others.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 579 Advanced Food Microbiology 6 Theorical 3 Applied 0Content: Characteristics of Predominant Microorganisms in Foods. Sources of Microorganisms in Foods. Microbial Growth Characteristics. Factors Influencing Microbial Growth in Food. Microorganisms Used in Food Fermentation. Microbiology of Fermented Food Production. İmportant Factors in Microbial Food Spoilage. Microbial Foodborne Diseases.Control of Microorganisms in Foods. Food Presevation Methods.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 581 Molecular Methods for Food Safety

Applications 6 Theorical 3 Applied 0

Content: Nucleic acid based techniques for the detection, identification/characterization and subtyping of bacterial agents. Various genotyping techniques for subtyping of bacterial species that will help to track and identify source(s) of an infectious disease or outbreak(s) and to determine their genetic relationships between bacterial strains and application of these techniques for some bacterial species.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 583 Advanced Thermodynamics 1 6 Theorical 3 Applied 0Content: Basic relations and the first law. The second law of thermodynamics. Availability analysis of closed system and control volume. Availability analysis of cycles. Equations of state. Thermodynamic property relations. The third law of thermodynamics.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 585 Instrumental Analysis Techniques in

Mineral Processing 6 Theorical 3 Applied 0

Content: Electrokinetic potential measurement (Electrophoresis, Electro-osmosis, Streaming potential, Sedimentation potential), Contact angle measurement (Ganiometer), Surface tension measurement, Fine particle size distribution measurement (Laser particle size analyzer) Fine particle specific surface area measurement (Permaran, BET, Blaine Apparatus), Thermo-gravimetric analysis measurement, XRF (X-Ray Fluorescence), XRD (X Ray Diffraction), ICP-MS (Inductively Coupled Plasma Mass Spectrometer), AAS (Atomic Absorption Spectrometer), FTIR (Fourier Transform Infrared Spectroscopy)

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 587 Condensed Matter Physics 6 Theorical 3 Applied 0Content: The free electron model, transport properties of the conduction electrons, Hall effect, nearly free electron model, Bloch functions, Kronig-Penney model, wave equation of an electron in a periodic potential, sound waves, lattice vibrations of one-dimensional crystals, phonons, heat capacity from lattice vibrations, thermal conductivity by phonons.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 589 Magnetism in Solids 6 Theorical 3 Applied 0Content: Introduction to the magnetism, magnetic susceptibility, classification of materials, Langevin diamagnetism, paramagnetism, magnetism in metals, ferromagnetism in insulators, antiferromagnetism and ferrimagnetism, ferromagnetism in metals, ferromagnetic domains, paramagnetic resonance, nuclear magnetic resonance, ferromagnetic resonance.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 593 Image Processing with Matlab 6 Theorical 3 Applied 0Content: Covers basic theory and algorithms widely used digital in image processing such as filtering, morphological processing, enhancement. Develop hands-on experience in processing images. Familiarize with MATLAB Image Processing Toolbox. Medium and advanced level image processing techniques and their applications in real life. Develop critical thinking about the state of the art.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 595 Introduction to Turbulent Flow 6 Theorical 3 Applied 0Content: An introduction to turbulence, Statistical tools, Space and time scales of turbulence, Basic theory and illustrative examples, Classical models of jets, wakes and boundary layers, Spectral analysis of homogeneous turbulence, Kolmogorov's and other theories based on spectral analysis, Numerical simulation of turbulent flows.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 597 Inorganic Membranes in Food and

Biotechnology Applications6 Theorical 3 Applied 0

Content: Introduction to membrane processes, membranes, historical perspective on the developing use of inorganic membranes, inorganic membranes and membrane processes, important characteristics of inorganic membranes, preparation of support systems and inorganic membranes, characterization of inorganic membranes, adsorption phenomena in membrane systems, transport and separation of gases in inorganic membranes, liquid phase applications and separations using inorganic membranes, microfiltration, ultrafiltration, applications of inorganic membranes in dairy industry, the use of inorganic membranes in the clarification of fruit juices, protein concentration by inorganic membranes, clarification of fermented beverages by using inorganic membranes, inorganic membranes in biotechnology applications, inorganic membranes in water and wastewater filtration

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 599 Data Knowledge and Mining 6 Theorical 3 Applied 0

Content: Overview of data mining classification, regression, time series. Measuring predictive performance. Data preparation, data reduction. Mathematical solutions, statistical methods, distance solutions, decisions trees, decision rules. Case studies.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 601 Information Retrieval Systems 6 Theorical 3 Applied 0Content: Introduction to information storage and retrieval (IR), Search models, IR Models, Standard Boolean Model, Extended Boolean Model, Vector Space Model, Cosine Similarity, Similarity Measure, TF-IDF, IR Techniques.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 609 Advanced Operating Systems 6 Theorical 3 Applied 0Content: Introduction, Communication Models (Message Passing, Shared Memory, Remote Procedure Call, Web Services), Distributed Concurrency, Transactions, Deadlocks, Naming, Binding, Location Services, Ubiquitous Computing, Mobile Devices, Security, File Systems, Virtualization, Kernels, Scheduling, Fault-tolerance, Grid Computing, Cloud Computing, Other Selected Topics

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 611 Biofuel Technology 6 Theorical 3 Applied 0Content: Types and properties of biofuels. Production technologies of biofuels. Process design of biofuel plants. Effects of biofuel addition to the gasoline and diesel fuels. Advantages and disadvantages of biofuels usage as a fuel or fuel additive for vehicles. Quality control and testing of biofuels.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 613 Traffic Engineering and Management 6 Theorical 3 Applied 0Content: Driver behaviour and interactions between vehicle. Design and management of traffic systems. Planning, design, regulation and operation of road traffic equipment. Traffic flow analysis, capacity analysis, traffic count methods, signalized intersection analysis. Application of computer aided programs related with traffic engineering.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 615 Advanced Molecular Biology 6 Theorical 3 Applied 0Content: Advanced topics in prokaryotic and eukaryotic gene structure and control. Recombinant DNA techniques, cloning vectors, preparation of cDNA and genomic DNA banks, selection and characterization of clones, promoter and enhancer functional tests

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 617 Advances in Cell Signalling 6 Theorical 3 Applied 0Content: In this course, recent advances in important mechanisms of cellular signalling will be considered. New avenues of important cell signal pathways resulting from protein-protein interactions and protein modifications from current research articles will be discussed. An introduction to System’s Biology will also be provided.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 619 New Bioprocess for Waste

Treatment6 Theorical 3 Applied 0

Content: Introduction to bio-conversion; Recycling of agricultural waste; Bioethanol production from waste; Organic acid production from waste; single-cell protein production from waste; Bio-hydrogen production from waste; Bio-surfactant production from waste; Recycling valuable minerals and materials by biological methods; The biological sulphate removal technology from coal.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 621 Treatment and Reuse of Waste

Water6 Theorical 3 Applied 0

Content: Basic concepts for treatment and reuse of wastewater; Planning of reuse systems; Treatment Technologies for reuse systems; Reuse systems: Municipal; Industrial; Agricultural systems; Usage of Grey water; Disinfection; Membrane systems.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 623 Energy Resources 6 Theorical 3 Applied 0Content: Types of Energy Sources, Nature and Formation of Energy deposits, Production method of Energy bearing materials, Fossil Fuels, Petroleum and processed fuels, Biomass, Geothermal, Nuclear, Solar, Thermal, Wind, Hydro, Waves, Tidal, Photo-voltaics, Conversions and Use, Energy Transfer and Conversion Methods, Examples of Energy Conversion Reactions, Sustainable Energy, Energy Sustainability issues, problems with present energy use, Energy Use by Sectors, Climate Change Concerns.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 625 Advanced Techniques In Cell Culture 6 Theorical 3 Applied 0Content: This course aims to give comprehensive information on the techniques, equipment, principles, and practices of animal cell culture and aims students to gain knowledge and practice related to growth of animal cells in tissue culture, includes subjects like laboratory design, biosafety, bioethics, cell culture media preparation, primary culture, cell lines and molecular techniques.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 627 Computer Aided Analysis 6 Theorical 3 Applied 0Content: Introduction to ANSYS. Direct and Solid modeling. Solution of mechanical engineering problems with ANSYS ( static and buckling solutions of beams and plates, static solution of plane and space frame systems). Thermal stress and non-linear examples. Ansys applications about structural analysis. Ansys applications about thermo-mechanical analysis. Ansys applications about free and forced vibration

analysis.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 629 Mechanics of Composite Materials 6 Theorical 3 Applied 0Content: In general, design of multi-layered and orthotropic composite slabs as engineering materials according to their utilization purposes.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 622 Security and Cyrptography 6 Theorical 3 Applied 0Content: This course introduces various concepts related to computer security. Subjects include cryptographic solutions like symmetric and asymmetric encryption, authentication codes, access control as well as operating system security, malwares, security models, and attack scenarios

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 643 Nature Inspired Computing 6 Theorical 3 Applied 0Content: Introduction to nature-inspired computing; Classical search and optimization heuristics; Simulated annealing; Tabu search; Evolutionary algorithms; Ant colony optimization; Particle Swarm Optimization; Artifıcial immune systems; Other nature inspired computing approaches: harmony search, bee algorithms, firefly algorithm; Hyperheuristics; Hybrid systems.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 633 Web Science 6 Theorical 3 Applied 0Content: Exploring the fundamentals of the World Wide Web's function including the HTTP protocol, key algorithms that make the Web function, future trends, and social issues with respect to Web use and effect.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 635 Porous Materials and Powders 6 Theorical 3 Applied 0Content: Synthesis techniques of porous and powder materials: solid state reactions, precipitation/co-precipitation, sol-gel, gas phase reactions and related chemical processes; characterization methods for the determination of variable chemical and physical properties of the prepared materials due to their preparation techniques; examples of usage of these materials in coating, ceramic, textile, pharmaceutical, storage, catalysis, energy and waste treatment technologies will be discussed in the context of this course.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 637 Fundamentals of Photocatalysis 6 Theorical 3 Applied 0Content: Current knowledge on the theory and practice of photocatalysis, solar energy conversion into renewable fuels such as hydrogen, methanol, wastewater treatment and air pollution control by the use of photocatalytic materials (metal oxides, nitrides, phosphates etc.), sol-gel and precipitation based wet chemical synthesis methods, nano structure characterization techniques (X-ray Diffraction, X-ray Photoelectron Spectroscopy, UV-Vis Diffuse Reflectance Spectroscopy, Transmission Electron Microscope, Surface Area and Porosity Analysis etc.) will be discussed in the context of this course

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 639 Synthesis Characterization and

Application Areas of Nanoparticles6 Theorical 3 Applied 0

Content: Polymerization: Definition and basic concepts, Polymerization techniques for the synthesis of micro and nanoparticles: Suspension polymerization, Emulsion polymerization, Dispersion Polymerization, Multistage microsuspension polymerization, Synthesis methods of inorganic based nanoparticles, Silica particles, Synthesis methods of transition metal oxide based nanoparticles, Au and Ag nanoparticles, Physical and chemical characterization methods of micro and nanoparticles Applications of micro and nanoparticles.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 641 Cell Culture in Regenerative

Medicine6 Theorical 3 Applied 0

Content: In the context of this lecture, the basic knowledge for animal cell culture studies and the parameters which should be important while studying with stem cells will be discussed. Researches including; wound healing, cytotoxicity of drug molecules, biocompatibility tests, ex-vivo culture simulations, designed culture types in 2D and 3D and etc. will be discussed during the course. In addition, the advantages and disadvantages of these culture types from the point of simulation of in-vivo studies will be discussed.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 660 Advanced Biomacromolecules 6 Theorical 3 Applied 0Content: Metabolomics is the logical progression of the study of genes, transcripts and proteins and a complementary tool to genomics and proteomics in systems biology. Learning to comprehensive and simultaneous systematic determination of metabolite levels in the metabolome in biological samples and tissues, and their changes over time as a consequence of stimuli. İntroduction to the use of metabolomics, and theoretical-practical aspects of advanced research techniques, including sample preparation, data acquisition, processing and further analysis will be discussed.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 645 New Approaches to Molecular

Techniques6 Theorical 3 Applied 0

Content: This course includes detailed introduction and applications of recent DNA/RNA/protein thecnologies as experimental-theoretical. The aim of this course is to provide students with the knowledge of new modern molecular biological methods centred on tools and techniques. Also it aims students to learn how to design a suitable molecular-based experiment using modern approaches, to extract relevant information from complex datasets, to analyse and to interpret scientific literature.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 654 Antimicrobial Materials 6 Theorical 3 Applied 0Content: Basic information of antimicrobial agents will be explained. Examination techniques of antimicrobial activity and property of materials after integration of antimicrobial agents will be discussed. Topics will be supported by analyzing case-study and academic research paper.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 649 Advanced Measurement Techniques 6 Theorical 3 Applied 0Content: : Definition of measurement, Basic definitions of measurement, Measurement System Applications, Experimental data processing, Uncertainty analysis, Measurement of flow, Measurement of length, Measurement of pressure, Temperature measurement, Fundamental principles of high-voltage measurement techniques, electrostatic high-voltage measuring instruments, voltmeters based upon the generator principle, peak value measuring instruments, voltage measurement with sphere gaps, measurement with voltage transformers, high-voltage dividers, measurement of impulse currents, capacitance and dielectric loss measurement, measurement of corona losses, measurement of electrostatic fields, experimental determination of the breakdown voltage and the breakdown strength of insulating materials, the evaluation of test results by statistical methods.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 651 Renewable Energy Technologies 6 Theorical 3 Applied 0Content: : Renewable energy sources: Hydro power; Pumped storage; Wave; Wind; Solar; Geothermal; Biomass; Bio-fuel; Ethanol-fuel and recycle wastes; Their nature; Sustainability; Operating principles and cleanliness; Incentives and barriers; Utilization; Efficiency and effectiveness; Management of renewable energy and its sustainability; Energy storage: Flywheel; Batteries and fuel cell; Hybrid system and integration; AC and DC electricity conversion; Electricity quality regeneration; Power conditioning and renewable energy to grid.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 656 Stem Cells 6 Theorical 3 Applied 0Content: : This course includes basic literature to understand stem cells and their importance at the present day. Introducing some terms, which are used for describing stem cells, stem cell niche, characterization of stem cells, senescence properties of stem cells, multipotent mesenchymal stem cells, pluripotent and induced pluripotent stem cells, adult stem cells, establishing primary stem cell cultures, role of stem cells in regenerative medicine.

COMPULSORY COURSES AND CONTENTS Spring Semester

COURSE CODE COURSE NAME ECTS COURSE CREDIT TNES 302 MSc Thesis 24 Theorical 0 Applied 0Content: Discussion and interpretation of the results of the research and studies conducted by graduate students under the supervision of a faculty member

COURSE CODE COURSE NAME ECTS COURSE CREDIT SNES 102 Seminar 6 Theorical 0 Applied 0Content: Presentation of the thesis results to the supervisor and faculty members.

COURSE CODE COURSE NAME ECTS COURSE CREDIT MNES 202 Special Studies 6 Theorical 5 Applied 0Content: It is a theoretical course where advisor guides his student(s) through their MSc./Ph.D. thesis research. The precise content of this course is determined by advisor himself/herself according to his/her area of specialization.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 500 Academic Writing Skills 6 Theorical 3 Applied 0Content: This course develops students’ abilities to compose college-level essays. It walks students through the process of ensuring the information in their essays is logically organized, written in a suitable academic style, and free of plagiarism through structured integration and citation of properly written paraphrases, summaries, and quotes. As students’ progress, fundamental structures are reinforced, new elements are introduced, and more complex writing demands are required. The Academic Writing Skills course is an instructional resource for students wishing to write authentic academic essays.Writers seeking to improve their academic writing skills should focus their efforts on three key areas. Strong writing: Thinking precedes writing. Good writers spend time distilling information from their sources and reviewing major points before creating their work. Writing detailed outlines helps many authors organize their thoughts. Strong academic writing begins with solid planning. Excellent grammar: Learn the major and minor points of grammar. Spend time practicing writing and seek detailed feedback from teachers, professors or writers you respect. English grammar can be detailed and complex, but strong writers command the major points after many years of study and practice. Using a good writing reference, such as YourDictionary, can provide advice on the more troublesome points of grammar. Proper punctuation use and good proofreading skills improve academic writing as well. Consistent stylistic approach: Whether your school or employer requires use of the MLA, APA or Chicago Manual of Style, choose one style and stick to it. Each of these style sheets provide guidance on how to write out numbers, references, citations, and more. All are available at your local bookseller in hard copy or online. The MLA is commonly used in English classes, while APA is for psychology and science. Chicago Manual of Style is often the choice in the workplace. Academic writing skills encompass strong composition,

excellent grammar, and a consistent stylistic approach.

ELECTIVE COURSES AND CONTENTS Spring Semester

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 506 Applied Optimization (with MATLAB

Programming Language) 6 Theorical 3 Applied 0

Content: Fundamentals of Optimization and Introduction to MATLAB Programming, Graphical Optimization, Linear Programming, Nonlinear Programming, Numeric Methods for One Dimensional Problems, Numeric Methods for Unconstrained Optimization, Numeric Methods for Constrained Optimization, Discrete Optimization, Global Optimization.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 510 Biocatalysor and Antibody

Engineering 6 Theorical 3 Applied 0

Content: Biocatalysis is the use of natural catalysts, such as protein enzymes or whole cell systems to perform chemical transformations on organic compounds. This lesson aims to teach the fundamentals of biocatalysor and antibody design. Recombinant enzyme and monoclonal antibody production principles. Basic immunological concepts, hybridoma technology and production of monoclonal antibodies, characterisation of monoclonal antibodies, production in big scales and purification. Recombinant enzymes and monoclonal antibodies’ application areas.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 512 Biomarkers 6 Theorical 3 Applied 0Content: Definitions, classification and types of biomarkers. Technologies for biomarker discovery; genomic, epigenomic, proteomic, metabolomic, lipidomic technologies, flurescent indicators, molecular imaging techniques, NMR, bioinformatics. Biomarkers and molecular diagnostics, drug discovery and development, biomarkers in health care and disease.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 514 Biomimetic Nano Ceramics in Clinical

Applications 6 Theorical 3 Applied 0

Content: The aim of this course is to provide students with the knowledge of biomimetic nano ceramics used in medical applications. Hard tissues (bone and teeth), their inorganic and organic components, structures and properties, bone and teeth formation and bio mineralization of hard tissues will be introduced. Synthetic nanoapatites and synthesis methods and biomimetic nanoapatites and methods used to grow biomimetic apatite will be discussed. Students will also acquire knowledge on the clinical

applications of apatite-derived nano ceramics.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 516 Characterization at the Micro- and

Nano-Scale 6 Theorical 3 Applied 0

Content: The course introduces the student to the most important techniques available for micro- and nano- materials characterization necessary for the development of micro- and nano-manufacturing. The course focuses on four techniques, namely optical microscopy, scanning electron microscopy, transmission electron microscopy and scanning probe microscopy and their use in particular micro- and nano-preparation process.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 518 Fundamentals of Semiconductor

Thin Film Materials 6 Theorical 3 Applied 0

Content: Introduction to semiconductor material science, vacuum science and technology, growth methods of semiconductor thin films, the formation of thin film, characterization of semiconductor thin films, epitaxial growth, inter-diffusion and reaction in thin films, structural, optical and electrical properties of thin films, developing nano-sized semiconductor thin film materials and their applications.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 520 Introduction to Analog Integrated

Circuits 6 Theorical 3 Applied 0

Content: Analysis and design of multi-transistor amplifiers, biasing circuits, differential pairs, CMOS Op-Amp topologies, optimization of Op-Amps, Comparators.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 522 Introduction to Micro and Nano

Electromechanical Systems 6 Theorical 3 Applied 0

Content: Micro and nano electro mechanical systems (MEMS and NEMS), devices, and technologies, machining and fabrication techniques, including planar thin-film processing, silicon etching, wafer bonding, photolithography, deposition, and etching, transduction mechanisms and modeling in different energy domains, analysis of micro machined capacitive, piezoresistive, and thermal sensors/actuators and applications, computer-aided design for MEMS and NEMS layout, fabrication, and analysis.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 524 Kriging and Stochastic Simulation

Techniques 6 Theorical 3 Applied 0

Content: Software used in analyses, data organization, exploratory data analyses (EDA), outlier tests,

declustering techniques, compositing data (regularization), determining appropriate technique, spatial continuity analysis, kriging (estimation) and simulation techniques, post-processing, search strategies, grid design parameters, simulation process, cross-validation tests and validation of simulation results, mean and probability mapping, interpretation of resulted maps, application to mining ore body.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 526 Laboratory Biosafety 6 Theorical 3 Applied 0Content: What is biosafety? Safe use of recombinant DNA technology, the latest regulations for the transport of infectious substances and laboratory biosecurity concepts will be introduced, laboratory biosecurity rules, waste management, recording methods, national and international arrangements will be told.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 528 Managerial Decision Modeling 6 Theorical 3 Applied 0Content: An Introduction to most commonly used OR/MS techniques and shows how these tools can be implemented using Microsoft Excel. In this respect, the course topics cover computer based implementation of deterministic modeling and stochastic modeling techniques.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 530 Mathematical Transform Techniques

for Engineers 6 Theorical 3 Applied 0

Content: Fourier Transform and FFT Theories; Laplace Transform Theory; Z-Transform Theory; Numerical modeling of electrification systems. FFT receiving of the signals. Solving the differential equations by Laplace Transform, Design of numerical filter by using Z-Transform.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 534 Microwave Theory 6 Theorical 3 Applied 0Content: Electromagnetic Wave propagation, transmission line theory, waveguide, coaxial line, strip line, micro strip line, microwave resonators, power dividers and directional couplers, microwave filters, active RF and microwave devices, oscillators and mixers.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 536 Multiple Objective Decision Making 6 Theorical 3 Applied 0Content: Introduction to optimization with multiple criteria, The Weighted Sum Method, Secularization Techniques, Nono secularizing Methods, Multicriteria Linear Programming, Multiobjective Simplex Method, Multiobjective Combinatorial Optimization

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 538 Nano Photonics 6 Theorical 3 Applied 0Content: Light manipulation in Nano scale, Maxwell Equations, Light-matter interactions, Electromagnetic properties of nanostructures. Photonic crystals, Solar Energy Systems, photonic Nano circuits, metal optics, plasmonic structures, plasmonic Nano sensors, metamaterials, negative refractive index and super solubility.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 540 Nanotechnologies in Food Science

and Technology 6 Theorical 3 Applied 0

Content: Nanotechnologies in the food arena: new opportunities, new questions and new concerns. The evolution of food technology, novel foods and attitues towards the acceptance of novel food. Public perceptions of nanotechnologies: lessons from genetically modified foods. Natural food nanostructures. Nanotechnoloy applications for food ingredients, additives and supplements. Nanotechnologies in food packaging. Potential benefits and market drivers for nanotechnology applications in the food sector. Engineered nanoparticles and food: an assessment of exposure and hazard. Potential risks of nanofood to consumers. Regulatory perspectives on nanotechnologies in foods and food contact materials. An outline framework for the governance for risks of nanotechnologies in food. Nanofood: known and unknowns, a nano vision for the future food.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 542 Nanotechnology, Health, Safety and

Environment 6 Theorical 3 Applied 0

Content: With the advent of new technologies, including nanotechnology, one should consider the potential unintended consequences to human health and the environment that might accompany development and use of the technology. This course provides a research framework in the core areas of human exposure, the environment, human health, and measurement tools, and risk assessment and risk management, along with research needs in predictive modeling.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 544 Numerical Solution of Differential

Equations 6 Theorical 3 Applied 0

Content: Review of preliminary calculus: numerical differentiation and integration. Numerical solution of initial value problems: Taylor series and Runge-Kutta methods. Numerical solution of systems of differential equations: first-order and higher-order systems. Numerical solution of boundary value problems: shooting and finite difference methods. Numerical solution of partial differential equations: methods for parabolic, elliptic, and hyperbolic equations.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 546 Operations Management 6 Theorical 3 Applied 0Content: The topics include production systems, operations management functions, production planning, inventory management, design of goods and services, process and product strategies, capacity planning, location analysis, and layout strategies.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 548 Pharmaceutical Biotechnology 6 Theorical 3 Applied 0Content: An introduction to molecular biotechnology, production of recombinant proteins and design of new protein based theurapeutic drugs. Antibody engineering and monoclonal antibodies, recombinant vaccines and gene therapy. Immunogenicity of therapeutic proteins, interferons, interleukins, insulin, growth hormones and other growth factors. Pharmaceutical applications of nanoparticle carriers; activatable nanoparticles for cancer treatment: nanobiotix. Omics technologies and personalized medicine.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 550 Risk Management 6 Theorical 3 Applied 0Content: The topics include definitions of risk (types of risks, risk descriptions, inherent level of risk, risk classification systems), impact of risk on organizations (risk importance, impact of hazard risk), development of risk management (origins of risk management, specialist areas of risk management), principles and aims of risk management, project risk management (introduction to project risk management, development of project risk management).

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 552 Simulation Modeling and Analysis 6 Theorical 3 Applied 0Content: Definition and classification, random events and statistical analysis, simulation modeling techniques, simulation of manufacturing and service systems, determining distributions: hypothesis testing, simulation of inventory systems, number of runs in simulation, truncation algorithms, management games, simulation of maintenance systems, intelligent simulation (artificial intelligence and simulation), simulation packages, applications and exercises with visual simulation (Arena, ProModel, Simio)

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 554 Introduction to Occupational Health

& Safety 6 Theorical 3 Applied 0

Content: Recognition, evaluation and control of work related health hazards (chemical, physical,

psychosocial and ergonomic), principal groups at risk, assessment of occupational health and safety directives, legislations, standards, prevention of diseases, protection of workers’ health, performance, comfort and well-being and early diagnosis of work related disorders and diseases, counter measures, evaluation algorithms of the impact of measures at the workplace, workplace specific human-response models, workplace health promotion activities, rating of industrial noise and vibration affecting residential areas.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 556 Nano Networks 6 Theorical 3 Applied 0Content: Introduction to nano machines, nano robots and nano networks. Brief history of nano networks. Nano network applications. Communication approaches, electromagnetic and molecular communication for nano networks. Nano scale sensor and actuator networks. Nano scale quantum networks. Nano scale internetworking. Nano scale information theory. Other topics in nano networks.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 558 Advances in Distributed Embedded

Systems 6 Theorical 3 Applied 0

Content: Introduction to distributed embedded systems, Distributed embedded system applications, Hardware and software for distributed embedded systems, Physical layer protocols, Link layer protocols, Network layer protocols, Transport layer protocols, Application layer protocols, Synchronization, Localization, Operating systems, Database management and querying, Multimedia communication protocols, Other topics in distributed embedded systems.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 560 Advanced Fluid Mechanics 6 Theorical 3 Applied 0Content: Basic conservation laws, Flow kinematics, Physical properties of fluids, Newtonian fluids and Navier-Stokes equations, Potential flow, Exact solutions of viscous flows, Low-Reynolds-number solutions, Incompressible turbulent flow: Physical and mathematical descriptions of turbulence, Reynolds equation of turbulent motion and turbulence modelling

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 562 Engineering Applications in Milk

Science 6 Theorical 3 Applied 0

Content: Milk composition, technological importance of milk constituents, milk coagulation mechanisms, microbiology of milk, unit operations in milk handling, thermal processes (pasteurization & UHT), homogenization and emulsification techniques, separation processes as centrifugation and membrane processes, drinking milk production technology, milk constituents as food additives.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 564 Drying Technology 6 Theorical 3 Applied 0Content: Fundamentals on Mass Transfer, Drying Process and Mechanisms, Fundamentals on Drying Process, Drying Techniques and Systems, Drying and Energy, Analyses for Dried Products, Future Trends in Drying Technology.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 566 Size Enlargement Principles and

Equipment in Mineral Processing 6 Theorical 3 Applied 0

Content: Size Enlargement (Agglomeration), Definition, Aim, Necessity, Application areas, Advantageous of agglomeration, Agglomeration techniques, Sintering, Nodulizing, Briquetting, Pelletizing, Fundamentals of agglomeration, Principles of agglomeration, Binding mechanisms of agglomeration, Strength theory of agglomeration, Advantageous of agglomerates, Pretreatment of agglomeration, Raw materials preparation, Size distribution, Specific surface area (Blaine number), Moisture content, Chemical content, Blending, Flow chart, Equipments of agglomeration and working principles, Sintering grates, Pelletizing drums, Pelletizing discs, Briquetting (pressure agglomeration) equipment, Other equipment Pelletizing equipment, Shaft furnace, Travelling grate, Travelling grate and rotary kiln, Other equipment, Application in the mining industry (Minerals and ores), Iron ore pelletizing

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 568 Advanced Thermodynamics 6 Theorical 3 Applied 0Content: Energy, heat, work. Conservation of energy. Application on closed systems and control volumes. Heat engine. Second law of thermodynamics. Carnot principles. Clausius inequality. Entropy. Principle of the increase of entropy. Exergy, second law analysis. Gas power cycles. Vapor and combined power cycles. Cogeneration. Refrigeration cycles. Gas mixtures. Gas-vapor mixtures and air-conditioning. Chemical reactions.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 570 Computational Fluid Dynamics 6 Theorical 3 Applied 0Content: General conservation equation, boundary layers. Application of finite volume method to fluid mechanics and heat transfer. Numerical approach and numerical cell structure. Turbulent flow and applications. k-ε turbulent model. Principle of Computational Fluid Dynamics, PHOENICS CFD code, Solving different engineering problems with PHOENICS CFD code.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 574 Fundamentals of Biostatistics 6 Theorical 3 Applied 0

Content: This course is an introduction to statistical methods used in biological and medical research. Elementary probability theory, basic concepts of statistical inference, regression and correlation methods, analysis of variance, and study design are covered.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 576 Applications of Nanobiotechnology 6 Theorical 3 Applied 0Content: Real-time PCR, Biosensors, DNA Microarrays, Protein Microarrays, Cell Biochips, Polyelectrolite Multilayers, Biointegrating Materials, Viral Vectors for In vivo Gene Transfer

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 578 Modeling, Control and Learning in

Industrial – Humanoid Robotics 6 Theorical 3 Applied 0

Content: This course aims at improving the knowledge of the students who seek career in industrial and humanoid robotics. Students attending this course will be able to derive kinematics and dynamical equations of the robots and also model the robots by using various multi-body modeling softwares such as Robotran and MapleSim. A wide range of control, learning and learning based control algorithms will be applied to the ABB IRB 120 type industrial robot and Nao humanoid robot which are both available in the Artificial Intelligence, Control and Robotic laboratory of the university.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 580 Food Packaging 6 Theorical 2 Applied 1Content: The importance of packaging and packaging materials, properties of packaging materials suitable for food contact, packaging materials used in industry, novel packaging materials, evaluation of packaging materials relating to food safety, health and environment

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 582 Functional Properties of Proteins 6 Theorical 2 Applied 1Content: Physicochemical properties of amino acids, structural hierarchy of proteins, solubility of proteins, functional properties of proteins (water and oil holding, emulsification, foaming, gelling), improvement of functional properties of proteins, industrial importance of functional properties of proteins

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 584 Advanced Thermodynamics 2 6 Theorical 3 Applied 3Content: Thermodynamic properties of homogeneous mixtures; mixing of two fluid streams. Multiphase-multicomponent systems. Chemical reactions; energy and second-law analysis, fuel cells. Chemical

availability, air-conditioning processes. Chemical availability of fuels. A statistical viewpoint of entropy

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 586 Coal Preparation 6 Theorical 3 Applied 3Content: Energy resources, Coal and types, Rank and composition of coal, Macroscopic and microscopic components of coal, Coal formation, Classification of coal, Some standard laboratory tests for coal, Standard coal laboratory analysis (Proximate analysis), Screening and classification of coal, Efficiency of coal screening, Coal cleaning, Pre-combustion techniques, Cleaning techniques, Heavy medium techniques, Heavy medium separators, Physico-chemical coal cleaning techniques, Dewatering of coal

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 588 Geographic Information Systems 6 Theorical 3 Applied 0Content: Data management of events and activities as a consequences of human-environment relations, planning and decision, special database creation, mapping systems and coordinate translation, related softwares

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 590 Advanced Rock Mechanics 6 Theorical 3 Applied 0Content: Advanced rock mechanics is a theoretical and applied science of the mechanical behavior of rock and rock masses. This course covers the applications of rock mechanics for the fundamental engineering structures. The included topics are: investigation of rock masses; in situ and laboratory testing of rocks, their applications and limitations, and their interpretation; rock mass classification systems; rock parameter assessment; rock support and excavation lining systems; and analytical and numerical analyses of rock masses, including example applications to rock slopes, underground excavations in rock, and rock support and excavation lining systems.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 592 Blasting Technology and Explosives 6 Theorical 3 Applied 0Content: Blasting process in mining and civil structures, types of explosives, selection of suitable explosive types, blasting and blasting hole design, related legislations, destruction by explosives, measurement and evaluation of explosion magnitude.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 594 Aerodynamics 6 Theorical 3 Applied 0Content: Incompressible flow over aerofoils: irrotational flow over a circular cylinder, Kutta-Joukowski theorem, thin aerofoil theory, cambered and flapped aerofoil, vortex panel method, high-lift devices. Incompressible flow over finite wings: induced drag, lifting-line theory, general lift distribution, lifting-

surface theory, delta wings. Fundamentals of viscous flow: viscosity and stress, fluid acceleration, conservation of mass and momentum. Boundary layers: boundary layer equations, zero pressure gradient, separation, similarity solutions, arbitrary pressure gradient, boundary layer control in laminar flow, other thin shear flows.. Flow instabilities, transition and turbulence: stability theory, instability over a flat plate, factors affecting instability and transition, turbulent transport of momentum, turbulent boundary layer over a flat plate, turbulent drag reduction and separation control, turbulence measurement.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 596 Introduction to Semiconductors 6 Theorical 3 Applied 0Content: Introduction to semiconductors, holes, methods of providing electrons and holes, absorption of electromagnetic radiation, transport properties, non-equilibrium carrier densities, introduction to semiconductor devices, the p-n junction with zero applied bias, the p-n junction with an applied bias, other devices based on the p-n junction (leds, lasers, solar cells, the junction transistor and the junction gate-field-effect transistor), metal-oxide-semiconductor technology and the MOSFET.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 600 Advanced Engineering Mathematics 6 Theorical 3 Applied 0Content: Review of ordinary differential equations. Laplace transform. Series solutions. Fourier series. Sturm-Liouville theory and eigenfunction expansion. Partial differential equations. Separation of variables. Applications to wave, heat, and potential equations. 

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 602 Advanced Data Mining 6 Theorical 3 Applied 0Content: The basic data mining topics (clustering, classification, and association rules), data mining tools (R, RapidMiner, Weka, Keel, etc.), similarity search, mining social networks, web mining, text and document clustering, automated recommender systems, pattern-finding algorithms.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 610 E-commerce and Applications 6 Theorical 3 Applied 0Content: Introduction to Electronic commerce (EC), EC tools; general concepts, tools and elements of EC, advantages of EC, Security and Legal Issues in EC, Marketting and retailing in EC, Technologies supporting EC, Electronic Data Interchange, Electronic payment systems.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 612 Software Applications in Engineering 6 Theorical 3 Applied 0Content: Introduction to MATHCAD and MATHEMATICA package programs which are using symbolic

algebra. Solutions of variety of problems in engineering with the help of these programs (numeric and symbolic operations, vector and matrix calculations, derivatives, integrals, limits and applications, graphics, drawings, equations, area and volume calculations, arrays, procedures, statistical calculations).

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 614 Advanced Strength of Materials 6 Theorical 3 Applied 0Content: Understanding special topics of mechanics of materials that are not covered in the elemantary mechanics of materials course. Learning the application of stress and displacement concepts on the mechanical system design. Gaining the ability to control the dimensions of existing mechanical systems. Gaining the ability to calculate the behavior of the elastoplastic materials.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 616 Advanced Internal Combustion

Engines6 Theorical 3 Applied 0

Content: Evaluation of performance parameters of internal combustion engines with experimental and analytical methods; study of factors affecting engine power, efficiency, and emissions of internal combustion engines such as thermodynamics, combustion, heat transfer; characterization of different types of engines and new developments in engines; analytical solutions of engine related engineering problems; engine performance experiments.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 618 Advances in Automotive Engineering 6 Theorical 3 Applied 0Content: Specific topics include automotive components such as suspension, steering, brakes and driveline; design; manufacturing, and operation of modern vehicles; evaluation of current and future automotive technologies, new developments in hybrid powertrains and alternative fuel vehicles.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 620 Distributed Systems 6 Theorical 3 Applied 0Content: This course focuses on the design, implementation and management of distributed systems. Topics include: communication, processes, naming, synchronization, consistency and replication, fault tolerance, security, resource sharing.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 622 Security and Cryptography 6 Theorical 3 Applied 0Content: This course introduces various concepts related to computer security. Subjects include cryptographic solutions like symmetric and asymmetric encryption, authentication codes, access control as well as operating system security, malwares, security models, and attack scenarios.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 624 Biorefinery technologies 6 Theorical 3 Applied 0Content: An overview and examination of biological and chemical processes which developed to obtain biofuels and valuable products from biomass; Petroleum refining and products; Classification of biorefineries; Biorefinery types based on raw materials; Waste biorefinery; Algae and Algal biorefinery; Biorefinery type according to platform chemical: lignocellulose biorefinery, carbohydrate, fats and pyrolysis based biorefinery; Biorefinery types according to products: fuels, chemicals; Biorefinery types according to the process: physical and thermochemical processes, hydrothermal processes; Economic, political and environmental effects of biorefineries.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 626 Microalgae: Biotechnology and

Microbiology6 Theorical 3 Applied 0

Content: Introduction to biochemistry of microalgae, process steps to produce algae and biological importance; Algae production methods; Culture media; Scale-up; Algal classification; Strain selection; Algal growth kinetics and growth rate; Large-scale production; products obtained from algae; Algae applications

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 628 Semiconductor Optoelectronics 6 Theorical 3 Applied 0Content: Optical Processes in Semiconductors; Light Emitting Diodes; Optical Waveguides; Photodetectors and Solar Cells; Laser Operating Principles; Advanced Laser Structures and Modulation

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 630 Medical Electronics 6 Theorical 3 Applied 0Content: Basic Concepts of Medical Instrumentation; Basic Sensors and Principles; The Origin of Biopotentials, Biopotential Electrodes and Amplifier Circuits; Direct and Indirect recording methods, Amperometric, Potentiometric Sensors; Chemical Biosensors; Optical Sensing Techniques, Microfluidics, Surface Enhanced Raman Spectroscopy and Biosensors Circuit Design and Electrical Safety; Special research topics.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 632 Advanced Topics in Computer

Networks and Distributed Systems II6 Theorical 3 Applied 0

Content: New Applications in Computer Networks and Distributed Systems, Application, Transport, Network, Link Layer Protocols and Topics

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 634 Internet of Things 6 Theorical 3 Applied 0Content: Internet of Things Applications, Application, Transport, Network and Link Layer Protocols and Topics for Internet of Things

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 636 Pattern Recognition 6 Theorical 3 Applied 0Content: Introduction to classifiers and recognition. Mahalonobis Distance, Bayes Classifiers, Maximum Likelihood Estimation, Principal component Analysis, Decision Surfaces, Neural Networks, Clustering, Nearest Neighbor methods, Learning and Adaptation.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 638 Current Topics in Cancer Biology 6 Theorical 3 Applied 0Content: Current developments in Tumor genetics, DNA damage and repair, Oncogenes, Tumor suppressor genes, Cancer pathways, Apoptosis and Replicative Senescence, Cancer Epigenetics as well as different human cancers will be discussed during the the course.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 640 Techniques in Molecular Biology 6 Theorical 3 Applied 0Content: This course aims to help students to learn basic molecular biology laboratory techniques such as DNA isolation, PCR analysis, molecular cloning, protein expression and purification, site-directed mutagenesis and DNA sequencing in a wet lab manner. Besides these, it will also help to gain a theoretical background in more advanced techniques in the field of molecular biology.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 642 Production of Raw Materials for

Different Industries6 Theorical 3 Applied 0

Content: The origin of raw materials used in different industries, Production methods of raw materials from earth crust, Pyrometallurgical and Hyrometallurgical Processes of raw materials, Metallic raw material sources, Iron, Chromium, Copper, Aluminum, Lead, Zinc, Gold, Production techniques, Industrial raw materials sources, Aggregates, Cement, Concrete Raw materials and Production techniques, Brick, Tile, Ceramic, Glass, Production techniques, Fiiler materails and production techniques.

COURSE CODE COURSE NAME ECTS COURSE CREDIT

NES 644 Molecular Genetics 6 Theorical 3 Applied 0Content: The aims of this course, is to • Provide a clear, comprehensive introduction to genetics. • Understand the basic processes of gene transmission, mutation, expression, and regulation• Have some familiarity with the genetic resources and information that are available through the internet.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 646 Numerical Solution of Ordinary

Differential Equations6 Theorical 3 Applied 0

Content: Preliminaries: Taylor series, numerical differentiation and integration. Numerical solution of initial value problems: Taylor series and Runge-Kutta methods. Numerical solution of systems of differential equations: first-order and higher-order systems. Numerical solution of boundary value problems: shooting and finite difference methods.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 648 Advanced Light Microscopy and

Material Analysis6 Theorical 3 Applied 0

Content: Advanced optical theories, optical microscope elements, working principles, auxiliary instruments mounted to microscope in material analysis, sample preparation in accordance with material to be analysed, main recognition specifications of individual materials, transferring images to electronic media and image analysis.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 650 Solar Fuels and Functional Materials 6 Theorical 3 Applied 0Content: Current knowledge on the theory and practice of solar energy conversion into renewable fuels such as hydrogen, methanol, etc. by the use of functional materials (metal oxides, nitrides, phosphates etc.), sol-gel and precipitation based wet chemical synthesis methods, nano structure characterization techniques (X-ray Diffraction, X-ray Photoelectron Spectroscopy, UV-Vis Diffuse Reflectance Spectroscopy, Transmission Electron Microscope, Surface Area and Porosity Analysis etc.) will be discussed in the context of this course.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 652 Advanced Materials 6 Theorical 3 Applied 0Content: Integration of principles of chemistry, biology, and engineering to create new products. Uses case-study and academic research papers to examine recently developed products in chemical, and biotechnological industries. Topics include; nano- and microporous materials, zeolites, polymers, composites, and biomaterials (metalic implants, ceramics, hidrogels etc.).

COURSE CODE COURSE NAME ECTS COURSE CREDIT

NES 662 Introduction to Polymer Science and Technology

6 Theorical 3 Applied 0

Content : This course is an introduction to the field of polymer science and engineering, providing an overview of the synthesis and structure of these materials. Average molecular weight of polymers, the crystalline and glassy states; solution properties and phase behaviour; mechanical and rheological properties will be taught. Characterization methods of polymers will be told.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 662 Introduction to Polymer Science and

Technology6 Theorical 3 Applied 0

Content : This course is an introduction to the field of polymer science and engineering, providing an overview of the synthesis and structure of these materials. Average molecular weight of polymers, the crystalline and glassy states; solution properties and phase behaviour; mechanical and rheological properties will be taught. Characterization methods of polymers will be told.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 550 Risk Management 6 Theorical 3 Applied 0Content : Basic concepts (risk, risk strategy, risk management, etc), levels of risk management, risk assessment (risk maps), risk monitoring and controlling, project risk management.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 664 Social Network Analysis 6 Theorical 3 Applied 0Content : The theory, research and methodological issues connected with social network analysis in organizational contexts. Web search including crawling, link-based algorithms, and Web metadata; text/Web clustering, classification; text and Web mining.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 666 Designing Interactive Systems 6 Theorical 3 Applied 0Content : Introduction to past and current theories, methodologies, and research topics relevant to HCC (Human-Centered Computing).

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 668 Advanced Cell-Material Interactions 6 Theorical 3 Applied 0Content : Attachment and differentiation behavior of the cells on biomaterials will be discussed in terms of molecular pathways and topographical details. Subjects including, cellular attachment and spreading, attachment proteins, molecular pathways, material production techniques affecting surface of materials, cellular response to nano and micro sized surface details, cell differentiation and tensegrity theory etc. will be discussed in the content of this lecture.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 670 Tissue Engineering 6 Theorical 3 Applied 0

Content : General concepts of tissue engineering; cell lines, stem cells and induced pluripotent stem cells; bioscaffold production and characterization techniques; bioreactors; biosignal molecules; gene activated matrixes for gene delivery; controlled release; regenerative medicine.

COURSE CODE COURSE NAME ECTS COURSE CREDIT NES 672 Electric and Hybrit Vehicle 6 Theorical 3 Applied 0Content : Definition of electric and hybrid vehicles, and technologies. Examination of electrical motors and fuel cells. Battery and electrical vehicle performances. Materials and design of electrical and hybrid vehicle. Ecomomic analysis. Modelling of electrical and hybrid vehicle.