![Page 1: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/1.jpg)
CANADA- BRAZILB C C C I N N O V AT I O N , S C I E N C E , AN D
T E C H N O L O G Y ( I S T ) F O R U M
OCTOBER 17 2017,
TORONTO
Alain Francq, Managing Director
Waterloo Institute For Nanotechnology
Nanotechnology Innovation In Canada and Brazil
![Page 2: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/2.jpg)
“The Action Plan will focus on the research, development and commercialization of joint projects in biotechnology & life sciences, ocean technology, information & communication technology, clean energy, green technologies, and nanotechnology.”
“The Committee has further determined that nanotechnology, along with innovation practices and initiatives, should be considered as cross-cutting themes to be included wherever possible in the collaborative pursuit of initiatives.”
BRAZIL-CANADA JOINT STATEMENTAUGUST 8, 2011
![Page 3: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/3.jpg)
“Nanotechnology and Digital Media”
Alain Francq
“Soft-landing programs and student
start-ups in Canada and Brazil”,
Kevin Truer
Nanotechnology Devices for New Digital MediaCanada-Brazil 3.0 Workshop, Joao Pessoa, Brazil, 2014
![Page 4: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/4.jpg)
Nanotechnology HUBS in Canada
VancouverEdmonton
Montreal
WaterlooToronto
Ottawa
![Page 5: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/5.jpg)
Canadian Industry Involvement
500+ Canadian companies involved in nanotechnology
Optics & Coatings Advanced Materials& Energy
Cleantech & Sustainable Materials
ICT & Quantum Computing
Advanced Manufacturing & Printing
1,000+ nano-enabled products in Canadian market place• 2/3 imported (mostly from US/EU) (Industry/Health/Environment Canada databases)
$24.1B in revenue(nano-enabled)
![Page 6: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/6.jpg)
Making counterfeit goods
a thing of the past
Gardening made simple
Allergy testing made safe,
simple and certain
Single chip scanning probe
instruments: microscopic
microscopes for the masses
Transparent digital screens
Medella Health makes
health monitoring seamless
NDS is the only company
in the world that can batch
manufacture HR AFM tips
and cater to the entire
global market on its own
NanoQuan makes
Nanocomposites - Better
The future of risk-free
surgeries
Nanotechnology to
protect your windshield
Nicoya uses
nanotechnology to build
the tools that scientists
need to make their next
big discovery
Implantable artificial
kidneys for three million
patients with End-Stage
Renal Disease (ESRD)
Extrude. Experiment. Explore
Sun safety simplified
Clear as day
Know your body,
control your health
Nanotechnology Startups in Canada (~50)
![Page 7: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/7.jpg)
Nano is the Bridge from Quantum to Human Scale Solutions
Quantum Phenomena
Nanotechnology, Nanomaterials and Nanomachines
Sensors
Angstrom Scale: 10-10m, Å
Nanometer Scale: 10-9m, nm
Micron Scale: 10-6 m, μm
Real-world Devices & Applications
IoT, AI and Nano: Central to Industry 4.0
![Page 8: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/8.jpg)
University Research, Infrastructure & Education (Nano)
Research Chairs: 12
Research Facilities: NRC-
NINT, NanoFab,
MicroSystems Technology
Research Initiative, Integrated
Nanosystems Research
Facility, Nano-Incubator
Research Chairs: 10
Research Facilities: AMPEL
Nanofabrication Facility (ANF),
Microsystems and Nanotech
Research Group (MiNa)
Research Chairs: 5
Research Facilities:
McMaster Centre for Emerging
Device Technologies (CEDT),
Brockhouse Institute for
Materials Research (BIMR),
Canadian Centre for Electron
Microscopy (CCEM),
Research Chairs: 13
Research Facilities:
Mike & Ophelia Lazaridis
Quantum-Nano Centre,
Waterloo Institute for
Nanotechnology
Research Chairs: 5
Research Facilities:
Western Nanofabrication
Facility, Bionanotechnology
Research Lab, Surface
Science Western
Research Chairs: 8
Research Facilities:
Centre for Advanced
Nanotechnology, Emerging
Communications
Technology Institute, Smart
& Adaptive Polymer Lab
Research Chairs: 11
Research Facilities: McGill
Institute for Advanced
Materials, CLUMEQ High
Performance Computing
Centre, McGill Nanotools
Microfab
Research Chairs: 7
Research Facilities: GCM
Micro-Nanofabrication Lab;
Centre de Recherche sur
les Matériaux Auto-
Assemblés (CRMAA)
• Canada Research Chairs in Nanotechnology
• Canada Research Laboratories For Nanotechnology
• Canadian Nanotechnology Science & Engineering Education Programs
![Page 9: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/9.jpg)
1ST BRAZIL-CANADA WORKSHOP December 6-7, 2012, Sao Paulo, Brazil Mutual Interests & Strong Relationships
![Page 10: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/10.jpg)
2ND BRAZIL-CANADA WORKSHOP September 18-20, 2013, Waterloo, Canada
Mapping Canada-Brazil S&T Relationships and Opportunities in Nanotechnology
Sensors & Devices
Sustainable Materials
Energy Materials NanoBio Material
![Page 11: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/11.jpg)
2ND BRAZIL-CANADA WORKSHOP September 18-20, 2013, Waterloo, Canada
All the Right Stakeholders!
![Page 12: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/12.jpg)
Brazilian Agencies Canadian Universities & Labs
Brazilian Universities & Labs
CRITICAL MASS!
Brazilian & Canadian Companies
3RD BRAZIL-CANADA WORKSHOP May 26-28, 2014, Belo Horizonte, Brazil Workshop on Sustainable Nanomaterials
![Page 13: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/13.jpg)
2+2 INDUSTRY & ACADEMIC
PARTNERSHIP
$1M NSERC
CRD GRANT
ECO-WIN 2
![Page 14: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/14.jpg)
A STARCH-BASED BIOLATEX CAN REPLACE
PETROLEUM-BASED LATEX BINDERS IN PAPERMAKING
“We are extremely grateful to Suzano Papel E Cellulose. They were one of our first customers and an ongoing innovation partner in Brazil”
Dr. Stephen Bloembergen, Co-Founder, CTO Ecosythetix.
![Page 15: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/15.jpg)
4TH BRAZIL-CANADA WORKSHOP October 13-16, 2015, Sao Paulo, Brazil Nanotech Week & Tradeshow
![Page 16: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/16.jpg)
Applications• Transparent Displays• Flexible Electronics• Batteries & Sensors• Coatings & Filters• Nanoelectronics• Composite Materials
Properties:• Thermal• Energy• Mechanical• Conductive• Optical
RARE EARTH & GRAPHENE OPPORTUNITY
Mining & Nanotechnology Converge Around Nobel Prize Winning Material
www.dakotamatrix.comwww.ionxia.co.ukwww.tesseraguild.comwww.graphene-flagship.euwww.wired.com/graphenewww.graphene-info.com
![Page 17: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/17.jpg)
Marco Antonia Castello Branco, CEO
RARE EARTH & GRAPHENE OPPORTUNITYCANADIAN VISIT BASED ON THE S&T AGREEMENT & ACTIVITIES IN NANOTECHNOLOGY – APRIL 2017
www.codemig.com.br
![Page 18: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/18.jpg)
GRAPHENE CANADA & SCIENCE WITHOUT BORDERS
October 18-20, 2016, Montreal, Canada Ongoing Student Exchanges
“THE NEXT GREAT INNOVATIONS BETWEEN CANADA & BRAZIL
WILL COME FROM NANOTECHNOLOGY”
![Page 19: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/19.jpg)
CANADA- BRAZILJ O I N T S & T C O M M I T T E E M E E T I N G
MAY 17 2017, TORONTO
Alain Francq, Managing Director
Waterloo Institute For Nanotechnology
Nanotechnology Innovation In Canada and Brazil
![Page 20: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/20.jpg)
David CoryLeading global innovator in experimental Quantum physics
Guo-Xing MiaoFunctional quantum materials
» Nanoscale spintronic devices» Coherent control of quantum systems » Lateral quantum dots andsemiconductor heterostructures
QUANTUM-NANO Materials and Devices
» Quantum information processing» spin-based quantum processors » superconducting devices and optics » quantum sensors and actuators
Jonathan BaughSolid state electron and nuclear spin-
base materials
» Spin memory and logic devices» diamond and oxide spintronics» Novel materials beyond Si
Diamond nano-pillar arrayNa Young Kim
Quantum Innovation Laboratory
» Large-scale and semiconductor» quantum processors in photonics and electronics» communications and computations» multifunctional integrated circuits» quantum AI
Scale:10-10m; Å
Adam Tsen2D Quantum
Materials» Quantum materials structural/electronic properties» Novel microscopy techniques» 2D heterostructures
![Page 21: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/21.jpg)
» MEMS/MOEMS and CMOS integration» Lab-on-a-chip» Medical diagnostic and microfluidic devices
MEMS/NEMS
» Micro and nanosensor technology» Electric vehicle sensors» Biomicro-electromechanical systems» Detectors for harsh environments
» RF MEMS micro switches» Sensors and transducers » Resonant sensors» Torsional micromirrors» Control strategies for:-CommunicationsBiomedical
» Tunable RF Devices and RF MEMS Technology» CMOS-MEMS Devices for Nanoinstrumentation» Integrated Passive Devices» Sensor Technology
Rafaat MansourDirector, Centre for Integrated RF Engineering (CIRFE)
Eihab Abdel-RahmanMEMS/NEMS modelling, simulation and design
Chris BackhouseApplied miniaturisation
Patricia NievaSensors and Integrated
Microsystems
Scale:10-6m; μm
![Page 22: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/22.jpg)
Karim KarimSTAR: Silicon Thin Film Applied Research
John YeowUltrasonic imaging and
detection
Simarjeet SainiNanophotonic chip detection of water contamination
» Nanophotonics Chem-Bio Sensors» Tunable mid-IR lasers» High speed optics/optoelectronics» Data and telecom
» MEMS/NEMS optical scanner» Endoscopic optical imaging» Micromanipulation robotics » CNT sensors for biomedical applications
Carolyn RenWaterloo Microfluidics Laboratory
» Lab-on-Chip design» Micro/nanoscale fluid mechanics» Computational Fluid Dynamics» Living cell analysis
» Digital radiography» Se-semiconductor for X-ray imaging» Integrated circuits for CMOS cameras» Large area CMOS X-ray imagers
Sushanta MitraMicro&Nanoscale Transport Labortory
Mobile Water Kit (MWK 1.0)
» Micro/nanoscale fluid mechanics» Biosystems, energy and water detection applications» Mobile Water Kit (MWK)
Scale:10-3m; mm
Sensors
![Page 23: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/23.jpg)
Shirley TangNanomaterial and Devices Peter Levine
Bioelectronics Systems Laboratory
Alfred YuBiomedical Ultrasound Technology
» Complex flow imaging innovations» Investigative tool design» Sonoporation, micro/nanobubble cavitation» Cellular dynamic studies
Vivek MaheshwariBio-nanodevices and cell integration
» Carbon Nanotube (CNT) biosensors» Rapid pathogen screening» Environmental detection and disease prevention
» Biomimetic sensors» Cellular electronics» Nanomaterial synthesis & self-assembly» Energy harnessing
» Integration of biotechnology and semiconductors» CMOS biochip-integrated electrochemical DNA assaysClinical and environmental monitoring
Vassili KaranassiosInstrumentation miniaturization
» Lab-to-sample technologies» Biological and environmental analysis» Neural networks for AI
Scale:10-3m; mm
Health & Biomedical
Ultrasound ImagingTechniques
CMOS DNA integration
![Page 24: JSTCC – November 2014, Ottawa Thematic Report: xxxx](https://reader033.vdocuments.net/reader033/viewer/2022060918/62994611abd8e607ea4cc43e/html5/thumbnails/24.jpg)
Dayan BanNanoscale energy technology; optoelectronic devices
Zbigniew Wasilewski Molecular Beam Epitaxy
Electronics for Energy and Communications
» Wireless nano-generator technology» Devices for structural stability monitoring» Semiconductor quantum devices» Quantum cascade lasers
» Advanced compound semiconductor nanostructures» Epitaxial layers for quantum computers» IR photodetectors» Low temp GaAs
Aiping YuSupercapacitor development
» Graphene/CNT-based supercapacitors» Composite materials» Hybrid and Li+ supercapacitors» Energy storage mechanisms
Cylindrical supercapacitor Pouch supercapacitor
Cell super-capacitor
» Printed electronics» Thin film transistors» Processing and integration» Nanowire development for energy conversion and storage
Hany AzizOrganic Optoelectronics
Vext
Light
Electrodes
Organic
Electroluminescent
Material
Vext
Light
Vext
Light
Electrodes
Organic
Electroluminescent
Material
» Organic CMOS sensors» OLED, optical sensing/imaging» photovoltaics
Organic light emittingdevices (OLEDs)
Organic solar cells(OSCs)
Scale:10-3m; mm
Flexible electronics