This International Standard provides a framework for introducing nanoelectronics into large scale, high volume production in semiconductor manufacturing facilities through the incorporation of nanomaterials (e.g. carbon nanotubes, graphene, quantum dots, etc.). Since semiconductor manufacturing facilities need to incorporate practices that maintain high yields, there are very strict requirements for how manufacturing is performed. Nanomaterials represent a potential contaminant in semiconductor manufacturing facilities and need to be introduced in a structured and methodical way. This International Standard provides steps employed to facilitate the introduction of nanomaterials into the semiconductor manufacturing facilities. This sequence is described below under the areas of raw materials acquisition, materials processing, design, IC fabrication, testing, and end-use. These activities represent the major stages of the supply chain in semiconductor manufacturing facilities.
- Standard Committee
- NTC/SC - Standards Committee
- Status
- Active Standard
- PAR Approval
- 2014-12-10
- Board Approval
- 2015-09-03
- History
-
- Published:
- 2015-09-30
Additional Resources
- Downloads
- 62659-2015_downloads.zip
Working Group Details
- Society
- IEEE Nanotechnology Council
- Standard Committee
- NTC/SC - Standards Committee
- Working Group
-
NanoCharactMFG_WG - Nanomaterials Characterization and Use in Large Scale Electronics Manufacturing
Learn More About NanoCharactMFG_WG - Nanomaterials Characterization and Use in Large Scale Electronics Manufacturing - IEEE Program Manager
- Vanessa Lalitte
Contact Vanessa Lalitte - Working Group Chair
- S. Santhosh
Other Activities From This Working Group
Current projects that have been authorized by the IEEE SA Standards Board to develop a standard.
P62659
Standard for Nanomanufacturing -- Large Scale Manufacturing for Nanoelectronics
This International Standard provides a framework for introducing nanoelectronics into large scale, high volume production in semiconductor manufacturing facilities through the incorporation of nanomaterials (e.g. carbon nanotubes, graphene, quantum dots, etc.). Since semiconductor manufacturing facilities need to incorporate practices that maintain high yields, there are very strict requirements for how manufacturing is performed. Nanomaterials represent a potential contaminant in semiconductor manufacturing facilities and need to be introduced in a structured and methodical way. This International Standard provides steps employed to facilitate the introduction of nanomaterials into the semiconductor manufacturing facilities. This sequence is described under the areas of raw materials acquisition, materials processing, design, integrated circuits (IC) fabrication, testing, and end-use. These activities represent the major stages of the supply chain in semiconductor manufacturing facilities.
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