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Items found: 188
| Record # | Source (e.g. developer/organization) | Acronym (e.g. ISO, IEC) | Identifier (e.g. document designation number) | Title of document | Scope/description | Keywords | Type of Document | Issue area(s) this applies to | Primary category that this applies to | Intended stakeholders | LastModif |
|---|---|---|---|---|---|---|---|---|---|---|---|
| 15 | International Electrotechnical Commisssion | IEC | 62565-2-1 | Nanomanufacturing - Material specifications - Part 2-1: Single-wall carbon nanotubes - Blank detail specification | IEC/PAS 62565-2-1:2011(E) establishes a blank detail specification for the essential electrical... | Carbon nanotubes, blank detail specification, single-wall, CNT, SWCNT | e. Specification | Measurement and Characterizations Material Specifications Performance Methods | Energy e.g. Energy storage, energy efficiency | Suppliers and end users of carbon nanotubes intended for use in electrical and electronic... | 2014-02-28 |
| 216 | International Electrotechnical Commission | IEC | 62565-4-1 | Nanomanufacturing - Key control characteristics - Part 4-1: Luminescent nanomaterials - Blank detail specification | Establishes a blank detail specification and format for listing essential optical and certain... | luminescent; nanomaterials; quantum dots; nanophosphors | e. Specification | Material Specifications | Energy e.g. Energy storage, energy efficiency | 2021-09-28 | |
| 217 | International Electrotechnical Commission | IEC | 62565-4-2 | Nanomanufacturing - Material specifications - Part 4-2: Luminescent nanomaterials - Detail specification for general lighting and display applications | specifies the essential general and optical requirements of monodisperse luminescent... | nanomanufacturing; luminescent; nanomaterials; quantum dots; monodisperse | e. Specification | Material Specifications | Energy e.g. Energy storage, energy efficiency | 2021-09-28 | |
| 25 | International Electrotechnical Commisssion | IEC | 62607-2-1 | Nanomanufacturing - Key control characteristics - Part 2-1: Carbon nanotube materials - Film resistance | Provides a standardized method for categorizing a grade of commercial carbon nanotubes in terms... | film resistance, key control characteristics, nanotube, carbon nanotubes | e. Specification | Measurement and Characterizations Performance Methods | Energy e.g. Energy storage, energy efficiency | Carbon nanotube suppliers; Producers of nano-electrotechnical enabled products or systems, e.g.... | 2014-02-28 |
| 218 | International Electrotechnical Commission | IEC | 62607-2-4 | Nanomanufacturing - Key control characteristics - Part 2-4: Carbon nanotube materials - Test methods for determination of resistance of individual carbon nanotubes | Specifies the test method for determining the resistivity and the contact resistance... | carbon nanotubes; CNT, resistivity, contact resistance | e. Specification | Measurement and Characterizations | Energy e.g. Energy storage, energy efficiency | 2021-09-28 | |
| 3 | International Electrotechnical Commission | IEC | 62607-3-1 | Nanomanufacturing - Key control characteristics - Part 3-1: Luminescent nanomaterials - Quantum efficiency | Specifies the procedures to be followed and precautions observed when performing reproducible... | Quantum efficiency, quantum dots, nanoparticles, nanophosphors, nanocrystals | a. Standard | Measurement and Characterizations | Energy e.g. Energy storage, energy efficiency | End use product manufacturers in the lighting, electronics (touch screens), renewable energy and... | 2017-01-18 |
| 215 | International Electrotechnical Commission | IEC | 62607-3-3 | Nanomanufacturing - Key control characteristics - Part 3-3: Luminescent nanomaterials - Determination of fluorescence lifetime of semiconductor quantum dots using time correlated single photon counting (TCSPC) | provides a method for determining the fluorescence lifetime of semiconductor quantum dots (QDs)... | quantum dots; QD; semiconductor; fluorescence | a. Standard | Measurement and Characterizations | Energy e.g. Energy storage, energy efficiency | 2021-09-10 | |
| 219 | International Electrotechnical Commission | IEC | 62607-4-6 | Nanomanufacturing - Key control characteristics - Nano-enabled electrical energy storage. Determination of carbon content for nano-enabled electrode materials, infrared absorption method | Provides a method for determination of carbon content of nano-electrode materials by infrared... | e. Specification | Measurement and Characterizations | Energy e.g. Energy storage, energy efficiency | 2021-09-28 | ||
| 220 | International Electrotechnical Commission | IEC | 62607-4-7 | Nanomanufacturing - Key control characteristics - Nano-enabled electrical energy storage - Determination of magnetic impurities in anode nanomaterials, ICP-OES method | Provides a method for the determination of magnetic impurities in anode nanomaterials for energy... | Energy e.g. Energy storage, energy efficiency | 2021-09-28 | ||||
| 221 | International Electrotechnical Commission | IEC | 62607-4-8 | Nanomanufacturing - Key control characteristics - Part 4-8: Nano-enabled electrical energy storage - Determination of water content in electrode nanomaterials, Karl Fischer method | Specifies a test method for the determination of water content in electrode nanomaterials for... | e. Specification | Measurement and Characterizations | Energy e.g. Energy storage, energy efficiency | 2021-09-28 | ||
| 222 | International Electrotechnical Commission | IEC | 62607-5-3 | Nanomanufacturing - Key control characteristics - Part 5-3: Thin-film organic/nano electronic devices – Measurements of charge carrier concentration | Specifies sample structures for evaluating a wide range of charge carrier concentration in... | van der Pauw; carrier concentration | e. Specification | Measurement and Characterizations | Energy e.g. Energy storage, energy efficiency | 2021-10-01 | |
| 223 | International Electrotechnical Commission | IEC | 62607-6-1 | Nanomanufacturing - Key control characteristics - Part 6-1: Graphene-based material - Volume resistivity: four probe method | establishes a standardized method to determine the electrical key control characteristic – volume... | volume resistivity graphene powder oxide reduced | e. Specification | Measurement and Characterizations | Energy e.g. Energy storage, energy efficiency | 2021-10-08 | |
| 225 | International Electrotechnical Commission | IEC | 62607-6-13 | Nanomanufacturing - Key control characteristics - Part 6-13: Graphene powder - Oxygen functional group content: Boehm titration method | establishes a standardized method to determine the chemical key control characteristic - oxygen... | Boehm titration graphene oxide | e. Specification | Measurement and Characterizations | Energy e.g. Energy storage, energy efficiency | 2021-10-08 | |
| 226 | International Electrotechnical Commission | IEC | 62607-6-14 | Nanomanufacturing - Key control characteristics - Part 6-14: Graphene-based material - Defect level: Raman spectroscopy | Establishes a standardized method to determine the structural key control characteristic • defect... | graphene defect Raman | e. Specification | Measurement and Characterizations | Energy e.g. Energy storage, energy efficiency | 2021-10-08 | |
| 224 | International Electrotechnical Commission | IEC | 62607-6-3 | Nanomanufacturing - Key control characteristics - Part 6-3: Graphene-based material - Domain size: substrate oxidation | establishes a standardized method to determine the structural key control characteristic – domain... | graphene CVD substrate oxidation | e. Specification | Measurement and Characterizations | Energy e.g. Energy storage, energy efficiency | 2021-10-08 | |
| 227 | International Electrotechnical Commission | IEC | 62607-8-1 | Nanomanufacturing - Key control characteristics - Part 8-1: Nano-enabled metal-oxide interfacial devices - Test method for defect states by thermally stimulated current | There are two types of thermally stimulated current (TSC) measurement methods, classified by the... | e. Specification | Measurement and Characterizations | Energy e.g. Energy storage, energy efficiency | 2021-10-08 | ||
| 228 | International Electrotechnical Commission | IEC | 62607-8-2 | Nanomanufacturing - Key control characteristics - Part 8-2: Nano-enabled metal-oxide interfacial devices - Test method for the polarization properties by thermally stimulated depolarization current | There are two types of thermally stimulated current (TSC) measurement methods, classified by the... | thermally stimulated current metal oxide polarization | e. Specification | Measurement and Characterizations | Energy e.g. Energy storage, energy efficiency | 2021-10-08 | |
| 34 | ASTM International Technical Committee on Nanotechnology | ASTM E56 | ASTM E2909 - 13 | Standard Guide for Investigation/Study/Assay Tab-Delimited Format for Nanotechnologies (ISA-TAB-Nano): Standard File Format for the Submission and Exchange of Data on Nanomaterials and Characterizations | 1.1 This guide (ISA-TAB-Nano) specifies the format for representing and sharing information about... | data sharing; ISA-TAB-Nano; nanomedicine; nanotech | a. Standard | Terminology and Nomenclature | 2014-02-28 | ||
| 52 | CSA Group | CSA | CAN/CSA-ISO/TR 13121:13 | Nanotechnologies - Nanomaterial risk evaluation | This is the first edition of CAN/CSA-ISO/TR 13121, Nanotechnologies - Nanomaterial risk... | nanotechnology, nanomaterials, risk, risk management | c. Guideline | Health, Safety, and Environment | General Industry/Manufacturing | 2014-02-28 | |
| 105 | Nanotechnology Characterization Laboratory | NCL | Cell Binding | Cell Binding/Internalization | NCL has methods to asses targe ting by measuring the inhibition coefficient (Ki) and binding... | Cell Binding | e. Specification | Measurement and Characterizations Health, Safety, and Environment | Chemicals e.g. pesticides, pharmaceuticals, paints, basic chemicals | 2014-07-10 | |
| 23 | U.S. National Institute for Occupational Safety and Health | NIOSH | DHHS (NIOSH) 2009-125 | Approaches to Safe Nanotechnology: Managing the Health and Safety Concerns Associated with Engineered Nanomaterials | This document reviews what is currently known about nanoparticle toxicity, process emissions and... | nanomaterials, occupational safety and health | c. Guideline | Health, Safety, and Environment | General Industry/Manufacturing | industry, labor and academia | 2014-02-28 |
| 24 | U.S. National Institute for Occupational Safety and Health | NIOSH | DHHS (NIOSH) 2012-147 | General Safe Practices for Working with Engineered Nanomaterials in Research Laboratories | This document contains recommendations on engineering controls and safe practices for handling... | nanomaterials, laboratory, occupational safety | c. Guideline | Health, Safety, and Environment | research community | 2014-02-28 | |
| 32 | U.S. National Institute for Occupational Safety and Health | NIOSH | DHHS (NIOSH) 2013-145 | Current Intelligence Bulletin 65: Occupational Exposure to Carbon Nanotubes and Nanofibers | This NIOSH Current Intelligence Bulletin, (1) reviews the animal and other toxicological data... | carbon nanotubes, nanofibers, occupational safety | c. Guideline | Health, Safety, and Environment | General Industry/Manufacturing | Academia, industry, organized labor, public health agencies, and public interest groups, as well... | 2014-02-28 |
| 39 | U.S. National Institute for Occupational Safety and Health | NIOSH | DHHS (NIOSH) Publication Number 2011-160 | Current Intelligence Bulletin 63: Occupational Exposure to Titanium Dioxide | This NIOSH CIB (1) reviews the animal and human data relevant to assessing the carcinogenicity... | nanoscale titania, occupational safety and health | c. Guideline | Health, Safety, and Environment | General Industry/Manufacturing | academia, industry, organized labor, public health agencies, and public interest groups as well... | 2014-02-28 |
| 40 | ASTM International | ASTM | E2456 | Standard Terminology Relating to Nanotechnology | Nanotechnology is an emerging field; this standard defines the novel terminology developed for... | terminology | c. Guideline | Terminology and Nomenclature | 2014-02-28 |