Continuing Education Program (CEP) on

NANOSCALE SCIENCE AND ENGINEERING: MATERIALS, ELECTRONICS, PHOTONICS,

BIOSENSORS AND BEYOND

June 23-25, 2014

Organized by Hybrid Nanodevice Research Group (HNRG) Low Power Nanoelectronics Research Group

Indian Institute of Technology Indore

Gate  oxide  

n+   n+   n+  

Silicon  film  (n-­‐type)  Gate  

Junctionless  MOSFET  

n+   n+  p-­‐  

Silicon  film  (p-­‐type)  

Inversion  mode  MOSFET  

pn junction

1.E-9

1.E-8

1.E-7

1.E-6

1.E-5

1.E-4

1.5 2.0 2.5

Drain Voltage (V)

Drai

n Cu

rrent

(A) Series1

Series2Series3Series4

Tsi = 7 nmLg = 50 nmTox = 1 nm

10-5

Lg = 50 nm, Tox = 1 nm

10-8

10-4

10-7

(d)

Tsi = 7.5 nm

A

10-6

Ioff = 10-4 µA/µm

Tsi = 7 nmTox = 2 nmLg = 50 nm

ΔV

ΔV

Aʹ′ B Bʹ′

Vds = 1.75 VΔI

10-9 Read '0'Write '0'

Write '1'Read '1'

1.E-9

1.E-8

1.E-7

1.E-6

1.E-5

1.E-4

1.5 2.0 2.5

Drain Voltage (V)

Drai

n Cu

rrent

(A) Series1

Series2Series3Series4

Tsi = 7 nmLg = 50 nmTox = 1 nm

10-5

Lg = 50 nm, Tox = 1 nm

10-8

10-4

10-7

(d)

Tsi = 7.5 nm

A

10-6

Ioff = 10-4 µA/µm

Tsi = 7 nmTox = 2 nmLg = 50 nm

ΔV

ΔV

Aʹ′ B Bʹ′

Vds = 1.75 VΔI

10-9 Read '0'Write '0'

Write '1'Read '1'

2

Introduction: Continuing with the tradition of the established IITs, IIT Indore aims to play an active role in the task of

propelling India on its growth-trajectory by focusing on education and research in the fields of

nanoscale science and engineering.

From working on energy requirements of the future to advanced nano-level device engineering,

research at IIT Indore is enhanced through extensive collaborative work with leading research and

academic organizations.

Nanoscience and nanoengineering refer broadly to a field of applied science and technology whose

coalescing theme is the control of matter on the atomic and molecular scale, generally 100 nanometers

or smaller, and the fabrication of devices with critical dimensions that lie within that range.

Organizing Committee: Ø Dr. Shaibal Mukherjee, Discipline of Electrical Engineering (CEP Coordinator)

Ø Dr. Abhinav Kranti, Discipline of Electrical Engineering

Ø Dr. Apurba K. Das, Discipline of Chemistry

Ø Dr. Tushar K. Mukherjee, Discipline of Chemistry

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S.N. Speakers Expertise 1 Dr. Shaibal Mukherjee

URL: http://www.iiti.ac.in/people/~shaibal/index.htm Nano-scale Multiple Quantum Well Lasers, hybrid LEDs, Solar Cells, Nanophotonics, Nano-scale sensors

2 Dr. Abhinav Kranti URL: www.abhinavkranti.yolasite.com

Solid-State Devices, Circuit Design, Ultra Low Power Nanoelectronics and Nanotechnology

3 Dr. Apurba K. Das URL: http://iiti.ac.in/people/~apurba/daslab.htm

Peptide and DNA based nanostructured materials, Systems chemistry, Biosensors, Supramolecular electronics

4 Dr. Tushar K. Mukherjee URL: http://iiti.ac.in/people/~tusharm/

Single molecule fluorescence imaging using TIRFM, Single molecule spectroscopy in heterogeneous media, Developing high resolution optical microscope, Ultrafast fluorescence spectroscopy

Course Objectives: Practical implementations of nanoscale science and engineering have great importance as it critically

depends on manpower training. Thus, modern education needs to address the rapidly evolving aspects

of nanoscience and nanoengineering by training a new generation of scientists, researchers,

technologists and engineers in this emerging discipline.

The aim of this course is to apprise academicians, researchers, and scientists in various institutions,

research laboratories, industries on the basic and applied technological advancements in the field.

Initiate an interest within the participants for including fundamental and applied aspects of nanosciences

and nanoengineering in the teaching and research modules in their respective organizations.

This three-day course will be highly interdisciplinary in nature and is specially tailored to provide the

participants necessary inputs in diverse areas of nanoscale science and engineering, starting from basic

fundamentals to applications.

Profile of the Speakers:

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Course Contents: S.N. Speaker Topic

1. Dr. Shaibal Mukherjee What, Why, and How Nano? Abstract: Fundamentals of nano-scale science and technology covering various aspects of nanotechnology in past, present, and future.

2. Dr. Abhinav Kranti Junctionless Nanowire MOSFETs Abstract: MOSFET scaling into the nanometer regime is being hindered due to the requirement of forming idealized ‘steep’ junctions that impose severe limitations on thermal budget and necessitate the development of costly millisecond annealing techniques. In this context, it is imperative to examine the feasibility of MOS transistors without junctions. The talk would analyze the advantages and challenges of nanoscale Junctionless MOSFETs and establish an early understanding of their potential impact on device and circuit design of next generation MOS devices.

3. Dr. Apurba K. Das Nanomedicine and Biosensor Abstract: Nanomedicine envisages the medical applications of nanotechnology, which may be used to monitor, repair and control of human biological systems at the molecular level using engineered nanodevices and nanostructures. Current problem for nanomedicine is involved with the issues related to toxicity and environmental impact of nanoscale materials. However, precisely controlled or programmable nanomachines and nanorobots are developed with a full promise of nanomedicine.

4. Dr. Tushar K. Mukherjee Theory to Application of Semiconductor Quantum Dots: From Spectroscopy to Microscopy Abstract: It is very important to understand the inherent fundamental properties of nanomaterials before applying them in various applications starting from technology to nanotherapeutic. Here, we will provide a broad overview of semiconductor quantum dots, their properties and how they can be used in bio-imaging.

5. Dr. Shaibal Mukherjee Application of Nanotechnology in Solid-State Lighting and Photovoltaics Abstract: Application of nano-scale science and engineering to realize high-performance, low-cost solid-state lighting, especially white LED and solar photovoltaics.

6. Dr. Abhinav Kranti Perspectives of Ultra Low Power Analog/RF MOSFETs Abstract: In the nanoscale regime, upcoming CMOS technologies face many technological challenges, the most crucial being the short chnnel effects (SCEs) that tend to degrade the analog/RF figures of merit (FOM). To overcome the degradation in analog/RF FOM, certain techniques such as HALO implants, laterally asymmetric channel (LAC) or graded-channel (GC) design, gate-source/drain underlap designs have been proposed. The talk will provide an overview of various technological options available along with their advantages and limitations for enhancing ultra low power analog/RF metrics advanced scalable CMOS devices.

7. Dr. Apurba K. Das Bioinspired Nanoscience Abstract: Biologically inspired bionanoscience achieved through structural and mechanistic analyses of biological processes at nanoscale. Material properties and applications studied in bionanoscience include nanoscience of disease, optical, thermal and mechanical properties of nanoscale biomolecules.

8. Dr. Tushar K. Mukherjee Advanced Microscopic Techniques for Molecular Sensing at Single molecule Level Abstract: Here we will cover basic configuration of advanced microscope, their optical components, various alignment of the light sources for optical detection as well as two sophisticated techniques namely Surface Enhanced Raman Scattering and Total Internal Reflection Fluorescence Microscopy.

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Applications in the prescribed format along with fees (in case of online payment, please enclose the online transfer receipt) and sponsorship certificate should reach the course coordinator by June 15, 2014. Selected participants will be informed through web release by June 18, 2014. The fees should be paid by a crossed demand draft drawn in favor of: The Registrar, IIT Indore, payable at Indore. FOR ONLINE PAYMENT / BANK TRANSFER: Bank Name : State Bank of India Branch : Khandwa Road, Indore Account Number : 317 02 1515 77 IFS Code : SBIN0011779 COURSE FEE:

Participants from Amount in INR per participant

Remarks

Industry 22,900 NA Academic and Govt.

Research Organization 8,000 Only on production of

affiliation certificate Students 5,710 Only on production of valid

student ID proof The course fee includes registration fee, lecture materials, breakfast, lunch, and tea/coffee for the entire course duration. If the number of registered participants is not sufficient, the course may be withdrawn/postponed. Refund Policy: The last date of receiving any request for the refund of registration fee is June 17, 2014. Any refund request received after this date will not be considered. The refund, if applicable, would be processed after the end of CEP course. Post/Fax/Email registration form and/or all correspondences to: Dr. Shaibal Mukherjee (CEP Coordinator) Discipline of Electrical Engineering, Indian Institute of Technology Indore PACL Campus, Survey No. 113/2-B, Opposite Veterinary College, Mhow Road, Village Harnia Khedi, Tehsil-Mhow, District-Indore, Madhya Pradesh – 453441, India Email: nanoiiti@gmail.com Fax: +91-731-2364182 Phone: +91-731-2438715

Important Notes:

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Academicians, researchers, scientists and technical staff members working

in various academic institutions, research and development organizations

and laboratories, and industries.

Limited accommodation may be available on campus on payment basis.

Working lunch, tea / snacks will be provided during the course.

Continuing Education Program designed for:

Boarding and Lodging:

Room PF-07, PACL Campus

Indian Institute of Technology Indore

PACL Campus, Survey No. 113/2-B,

Opposite Veterinary College,

Mhow Road, Village Harnia Khedi,

Tehsil-Mhow, District-Indore, Madhya Pradesh – 453441, India

Venue:

7

Registration Form

Continuing  Education  Program  

on  

 NANOSCALE  SCIENCE  AND  ENGINEERING:  MATERIALS,  ELECTRONICS,  PHOTONICS,  BIOSENSORS  AND  BEYOND  

June  23-­‐25,  2014  

Filled-­‐in  registration  from  should  reach  the  Organizing  Committee  on  or  before  June  15,  2014.  

 

Name:  

Designation:  

Institution  /  Organization:  

Address:  ________________________________________________________________________________________________________________________________  

___________________________________________________________________________________________________________________________________________  

___________________________________________________________________________________________________________________________________________  

E-­‐mail:  

Phone/Mobile  No.:  

Fax  No.:  

Educational  Qualification:  _____________________________________________________________________________________________________________  

Date:  ___________________________  Signature:  ____________________________________  

 

PAYMENT  DETAILS  

Demand  Draft  No.:  _______________________________________  Dated:  _________________________________________________  

Amount  in  RS:  _____________________________________________Drawn  at:  ______________________________________________  

 

Name  and  address  of  the  sponsoring  organization:  ________________________________________________________________________________  

___________________________________________________________________________________________________________________________________________  

 

Signature  of  applicant  with  date  

_____________________________________