Nanotech Standards - Industry Participation - Strengthening Ties

Haridoss Sarma, IEEE Senior MemberKriya Consulting, ON, Canada

•First Applied Eng. Conference – University of Ottawa•Materials, electronics, PV•Keynote address by Brian Haydon, CSA•2 papers – this + another by NRC•Purpose – outreach + member recruitments

Objectives of the Conference paper

The Value of Standards…

Product Value Chain….

Source: NASA Bio-Nano Program – J.Li & Y.Lu

Nanoelectronics Roadmap Initiatives

IEEE - NESR

IEC - TC 113

ITRS 2009

Microelectronics (SEMI)•consensus following the product value chain•Savings >1% of the total fab cost•Safety record

• Effluent discharge limits• Air emission• Occupational

•Use of provisional standards

Information Technology ( IEEE 802

saga)•Use of anticipatory standards•Strict guidelines for new work items•Attention to future needs•>$25 billion industry

Digital Optical Storage (DVD forum)•300 million unit sale within 5 years•Component supply chain model and modular architecture•Integration of developing countries•$50 billion content market creation

Need

Product or Service

Anticipatory Standards

Participatory Standards

Responsive Standards

time

perf

orm

ance

Product Life Cycle

Technology S-curve

ProductT

echn

olog

yNew Existing

Known

New

Proof of conceptConsortia

Application ConsortiaImplementation ConsortiaSDOs

SDOs

Anticipatory Participatory Responsive

Reference

Similarity

Compatibility

Flexibility

Source: M.H.Sherif, AT&T, IEEE Comm.Mag. April 2001

• Electronics industry has done it before!• Product integration, market players integration,

safety• Nanoelectronics Industry community can do it again•Demonstrate stewardship in LCA• Participation by Application-focused researchers needed•Develop and Use anticipatory standards•Develop key performance criteria for all socially beneficial nanoenabled products•Kick start developments in Sensor application•Engage international community including NIE

•Outreach on Standards activities•Increase industry participation through conference participation (can be a captive audience for increased outreach on standards activities)•Potential Workshops (topics & funding tbd)•What we are doing?-

• Organizing committee member for 2011 ASET conference

• Work items as applied research topics & design stepsFunding benefits, Engineering training

World Standards CooperationAcademic Week

Standards Cooperation – Start-up companies & Investors group

audienceBig players as mentorsLCA Training modules for nanotech audienceSector focus from being an “umbrella”

Recommendations…..High priority collaborative projects

SEMI-ISO-IEC : ISO TC 209 (clean room)IEEE-ISO-IEC: IEC TC 111 (Env. Electronic

products)ISO-IEC: ISO 14040 (LCA)

Continuous knowledge assessment (risk & toxicology)Open access archive( BioMed central, arXiv)Journal rev committees (foresight, type of measures

applicable to risk assessment, thoughts on applicability criteria ..?)

Web 2.0 wiki tools

20

Road Map

June 2009 Dec 2009 Jan 2010 March 2010 June 2010 Dec 2010 Jan 2011 March 2011June 2009 Dec 2009 Jan 2010 March 2010 June 2010 Dec 2010 Jan 2011 March 2011

GCPEDIA Wiki PilotGCPEDIA Wiki Pilot

GCPEDIA Wiki ProductionGCPEDIA Wiki Production

GCCONNEX Social Network PilotGCCONNEX Social Network Pilot

GCCONNEX ProductionGCCONNEX Production

GEDS+ Common Directory PilotGEDS+ Common Directory Pilot

GEDS+ Common Directory ProductionGEDS+ Common Directory Production

Support applications in perpetual betaSupport applications in perpetual beta

GCINNOVATION IT Improvement EventGCINNOVATION IT Improvement Event

Acting as one!Acting as one!

SEMI

IEEE

ISO/TC 229

TC

TC

TC

TCTC

IEC/TC 40Capacitors

and resistors forElectronicequipment

IEC/TC 47Semiconductor

devices

IEC/TC 48Electromechanicalcomponents andMech. structures

for electronicequipment

IEC/TC 56Dependability

IEC/TC 82Solar photovoltaicenergy systems

IEC/TC 86Fibre optics

IEC/TC 105Fuel cell

technologies

IEC/TC 110Flat panel

displaydevices

IEC/TC 111Environmental

standardization forelectrical and

electronic productsand systems

IEC/TC 21Secondary cells

and batteries

IEC/TC 33Power

capacitorsand their

applications

IEC/TC 34Lamps

and relatedequipment

IEC/TC 113Nanotechnology

standardization forelectrical and

electronic productsand systems

SEMI

IEEE

ISO/TC 229

TC

TC

TC

TCTC

ISO/TC 229

TC

TC

TC

TCTC

IEC/TC 40Capacitors

and resistors forElectronicequipment

IEC/TC 47Semiconductor

devices

IEC/TC 48Electromechanicalcomponents andMech. structures

for electronicequipment

IEC/TC 56Dependability

IEC/TC 82Solar photovoltaicenergy systems

IEC/TC 86Fibre optics

IEC/TC 105Fuel cell

technologies

IEC/TC 110Flat panel

displaydevices

IEC/TC 111Environmental

standardization forelectrical and

electronic productsand systems

IEC/TC 21Secondary cells

and batteries

IEC/TC 33Power

capacitorsand their

applications

IEC/TC 34Lamps

and relatedequipment

IEC/TC 113Nanotechnology

standardization forelectrical and

electronic productsand systems

IEC/TC 40Capacitors

and resistors forElectronicequipment

IEC/TC 47Semiconductor

devices

IEC/TC 48Electromechanicalcomponents andMech. structures

for electronicequipment

IEC/TC 56Dependability

IEC/TC 82Solar photovoltaicenergy systems

IEC/TC 86Fibre optics

IEC/TC 105Fuel cell

technologies

IEC/TC 110Flat panel

displaydevices

IEC/TC 111Environmental

standardization forelectrical and

electronic productsand systems

IEC/TC 21Secondary cells

and batteries

IEC/TC 33Power

capacitorsand their

applications

IEC/TC 34Lamps

and relatedequipment

IEC/TC 113Nanotechnology

standardization forelectrical and

electronic productsand systems

“We wanted to find a good way to determine how biologically relevant nanomaterials react with cells,” says Jim Riviere, distinguished professor of pharmacology. “When a nanomaterial enters the human body, it immediately binds to several proteins and amino acids. The molecules with which a particle attaches determine where to go. ”