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Graphene Electron

Graphene Electron, Total:86 items.

In the international standard classification, Graphene Electron involves: Materials for the reinforcement of composites, Installations in buildings, Textile fibres, Construction industry, Domestic, commercial and industrial heating appliances, Construction materials, Rubber and plastics products, Test conditions and procedures in general, Terminology (principles and coordination), Paints and varnishes, Analytical chemistry, Optics and optical measurements, Plastics, Galvanic cells and batteries, Materials for aerospace construction, Linear and angular measurements, Electricity. Magnetism. Electrical and magnetic measurements, Organic chemicals, Products of the textile industry, Conducting materials, Components and accessories for telecommunications equipment, Biology. Botany. Zoology, Electrical and electronic testing, TESTING, Physics. Chemistry, Metrology and measurement in general, Non-ferrous metals, Power stations in general, Non-metalliferous minerals.

Association Francaise de Normalisation, Graphene Electron

• XP T16-226-1*XP CEN ISO/TS 21356-1:2022 Nanotechnologies - Structural characterization of graphene - Part 1 : graphene from powders and dispersions
• NF EN ISO 12193:2004 Corps gras d'origines animale et végétale - Détermination de la teneur en plomb par spectrométrie d'absorption atomique directe avec four en graphite
• NF EN ISO 8294:1999 Corps gras d'origines animale et végétale - Détermination de la teneur en cuivre, fer et nickel - Méthode par spectrométrie d'absorption atomique avec four en graphite.

Group Standards of the People's Republic of China, Graphene Electron

• T/SPSTS 014-2019 Graphene-based conductive paste
• T/CSTM 00341-2020 Graphene-based conductive paste
• T/CGIA 033-2020 Graphene based electrothermal film for floor heating application
• T/ZGIA 103-2018 Graphene Coated Conductive Fiber
• T/ZGIA 101-2019 Graphene water-based conductive coating
• T/ZTCA 003-2021 Graphene far infrared electric heating table and chair
• T/ZSA 73-2019 Graphene modified rigid electric heating pad
• T/ZSA 12-2020 Graphene modified flexible electric heating films
• T/ZGIA 101-2017 Graphene modified flexible electrothermal film
• T/ZGIA 102-2018 Graphene modified rigid electric heating plate
• T/ZTCA 004-2021 Flexible graphene composite electrothermal module
• T/GDASE 0011-2020 Determination of conductivity of graphene powder
• T/ZSA 46-2020 Graphene materials conductive suspension for use in lithium ion battery application
• T/CGIA 032-2020 Graphene materials conductive suspension for use in lithium ion battery application
• T/CSTM 00028-2019 Graphene-modified solvent-free antistatic coatings
• T/CNCIA 01004-2017 Waterborne graphene electromagnetic shielding coating for architecture
• T/GDASE 0010-2020 Determination of Electron Mobility in Graphene Thin Films
• T/GDASE 0008-2020 Determination of Young's modulus of graphene film
• T/SHDSGY 134-2023 Technical specification for graphene super battery energy storage system
• T/CGIA 014-2019 Evaluation of stability for graphene conductive suspension
• T/CSTM 00591-2022 Measurement of the conductivity of graphene-copper film materials —Van der Pauw method
• T/CSTM 00229-2020 Identification of graphene materials in coatings materials Scanning Electron Microscope-Energy Dispersive Spectrometer method
• T/CNTAC 21-2018 Test method for identification of graphene materials in fibres– Transmission electron microscope (TEM) method
• T/CPCIF 0250-2023 Graphite negative electrode material coke for lithium ion battery
• T/CSTM 00166.3-2020 Characterization for graphene materials Part 3 Transmission electron microscope
• T/ZGIA 001-2019 Graphene test method for the determination of powder conductivity four-probe method
• T/QDAS 030-2019 Electrochemiluminescence detection of tertiary amines and polyamines based on graphene electrode
• T/ZSA 39-2020 Characterization of Graphene - Work function - Ultraviolet photoelectron spectroscopy (UPS) method
• T/ZGIA 002-2020 Graphene Test Methods Determination of Work Function Ultraviolet Photoelectron Spectroscopy
• T/CGIA 004.4-2022 Guidelines for green preparation of graphene materials and greenhouse gas emission accounting Part 4：preparation of graphene by arc discharge method
• T/CGIA 012-2019 Determination of metallic elements in graphene materials — Inductively coupled plasma emission spectrometry

European Committee for Standardization (CEN), Graphene Electron

• FprCEN ISO/TS 21356-1:2021 Nanotechnologies - Structural characterization of graphene - Part 1: Graphene from powders and dispersions (ISO/TS 21356-1:2021)
• CEN ISO/TS 21356-1:2022 Nanotechnologies - Structural characterization of graphene - Part 1: Graphene from powders and dispersions (ISO/TS 21356-1:2021)

Hebei Provincial Standard of the People's Republic of China, Graphene Electron

• DB13/T 5255-2020 Determination of square resistance of graphene conductive ink by four-probe method
• DB13/T 5256-2020 General technical specification for graphene modified conductive polystyrene materials
• DB13/T 2768.3-2018 Graphene powder material testing method Part 3: Determination of electrical conductivity
• DB13/T 5025.1-2019 Determination method of graphene-carbon nanotube composite conductive paste Part 1: Determination of solid content
• DB13/T 5025.2-2019 Determination method of graphene-carbon nanotube composite conductive paste Part 2: Determination of moisture content
• DB13/T 5025.3-2019 Determination method of graphene-carbon nanotube composite conductive paste Part 3: Determination of magnetic foreign matter content
• DB13/T 5026.3-2019 Method for Determination of Physical Properties of Graphene Conductive Paste Part 3: Four-probe Method for Determination of Electrode Resistivity of Paste
• DB13/T 5026.2-2019 Determination of physical properties of graphene conductive paste Part 2: Determination of paste fineness by scraper fineness meter method
• DB13/T 5026.1-2019 Determination of physical properties of graphene conductive paste Part 1: Determination of paste viscosity rotational viscometer method

American Society for Testing and Materials (ASTM), Graphene Electron

• ASTM E1184-98 Standard Practice for Electrothermal (Graphite Furnace) Atomic Absorption Analysis
• ASTM E1184-02 Standard Practice for Electrothermal (Graphite Furnace) Atomic Absorption Analysis
• ASTM E1613-04 Standard Test Method for Determination of Lead by Inductively Coupled Plasma Atomic Emission Spectrometry (ICP-AES), Flame Atomic Absorption Spectrometry (FAAS), or Graphite Furnace Atomic Absorption Spectrometry (GFAAS) Techniques

国家市场监督管理总局、中国国家标准化管理委员会, Graphene Electron

• GB/T 40066-2021 Nanotechnologies—Thickness measurement of graphene oxide—Atomic Force Microscopy (AFM)

Society of Automotive Engineers (SAE), Graphene Electron

• SAE AMS3678/2A-2010 Type 2, 15% Graphite Filled Virgin Polytetrafluoroethylene (PTFE) Moldings or Extrusions

Jiangsu Provincial Standard of the People's Republic of China, Graphene Electron

• DB32/T 4027-2021 Dynamic four-probe method for the determination of electrical conductivity of graphene powder
• DB32/T 3459-2018 Scanning Electron Microscopy for Measuring the Micro-area Coverage of Graphene Films
• DB32/T 3874-2020 General requirements for graphene composite semi-conductive shielding materials for extruded plastic insulated power cables with a rated voltage of 35KV and below

General Administration of Quality Supervision, Inspection and Quarantine of the People‘s Republic of China, Graphene Electron

• GB/T 7717.16-2009 Acrylonitrile for industrial use-Part 16:Determination of content of iron-Graphite furnace atomic absorption spectrometer method
• GB/T 7717.17-2009 Acrylonitrile for industrial use-Part 17:Determination of content of copper-Graphite furnace atomic absorption spectrometer method
• GB/T 7717.16-2022 Acrylonitrile for industrial use—Part 16: Determination of iron and copper content—Graphite furnace atomic absorption spectrometry and inductively coupled plasma mass spectrometry
• GB/T 42906-2023 Determination of Equivalent Boron Content in Graphite Materials Inductively Coupled Plasma Atomic Emission Spectrometry
• GB/T 42240-2022 Nanotechnology—Measurement of metallic impurities in graphene powder—Inductively coupled plasma mass spectrometry

Guangdong Provincial Standard of the People's Republic of China, Graphene Electron

• DB44/T 844-2010 PVC/graphite composite electromagnetic shielding layer audio and video signal line
• DB44/T 1216-2013 Characterization of graphene using scanning electron microscopy and X-ray spectroscopy

British Standards Institution (BSI), Graphene Electron

• 18/30376981 DC PD IEC/TS 62607-6-11. Nanomanufacturing. Key control characteristics. Part 6-11. Graphene. Defect level of graphene analysed by Raman spectroscopy
• BS PD IEC/TS 62607-6-4:2016 Nanomanufacturing. Key control characteristics. Graphene. Surface conductance measurement using resonant cavity
• PD IEC/TS 62607-6-4:2016 Nanomanufacturing. Key control characteristics. Graphene. Surface conductance measurement using resonant cavity
• PD IEC TS 62607-6-1:2020 Nanomanufacturing. Key control characteristics. Graphene-based material. Volume resistivity: four probe method
• IEC 62607-6-7:2023 Nanomanufacturing. Key control characteristics. - Part 6-7: Graphene. Sheet resistance: van der Pauw method
• PD IEC TS 62607-6-10:2021 Nanomanufacturing. Key control characteristics. Graphene-based material. Sheet resistance: Terahertz time-domain spectroscopy
• 15/30299199 DC BS EN 62565-3-1. Nanomanufacturing. Material specifications. Part 3-1. Graphene. Blank detail specification for electrotechnical applications
• IEC 62607-6-5:2022 Nanomanufacturing. Key control characteristics. - Part 6-5: Graphene-based materials. Contact and sheet resistance: transmission line measurement

Professional Standard - Electricity, Graphene Electron

• DL/T 955-2005 Analysis of water and steam in fossil fuel power plant Determination of copper and iron by graphite furnace atomic absorption spectrophotometry
• DL/T 1895-2018 Determination of lead in flue gas of thermal power plants - graphite furnace atomic absorption spectrophotometry

International Electrotechnical Commission (IEC), Graphene Electron

• IEC TS 62607-6-2:2023 Nanomanufacturing - Key control characteristics - Part 6-2: Graphene - Number of layers: atomic force microscopy, optical transmission, Raman spectroscopy
• IEC TS 62607-6-9:2022 Nanomanufacturing - Key control characteristics - Part 6-9: Graphene-based material - Sheet resistance: Eddy current method
• IEC TS 62607-6-1:2020 Nanomanufacturing - Key control characteristics - Part 6-1: Graphene-based material - Volume resistivity: four probe method
• IEC TS 62607-6-10:2021 Nanomanufacturing - Key control characteristics - Part 6-10: Graphene-based material - Sheet resistance: Terahertz time-domain spectroscopy

IX-IX-IEC, Graphene Electron

• IEC TS 62607-6-7:2023 Nanomanufacturing - Key control characteristics - Part 6-7: Graphene - Sheet resistance: van der Pauw method
• IEC TS 62607-6-8:2023 Nanomanufacturing - Key control characteristics - Part 6-8: Graphene - Sheet resistance: In-line four-point probe

German Institute for Standardization, Graphene Electron

• DIN EN 62565-3-1:2014-11 Nanomanufacturing - Material specifications - Part 3-1: Graphene - Blank detail specification for electrotechnical applications (IEC 113/217/CD:2014) / Note: Date of issue 2014-10-17
• DIN EN 62565-3-1:2014 Nanomanufacturing - Material specifications - Part 3-1: Graphene - Blank detail specification for electrotechnical applications (IEC 113/217/CD:2014)

Danish Standards Foundation, Graphene Electron

• DS 2211:1990 Water analysis. Determination of metals in water, sludge and sediment determined by flameless atomic absorption spectrometry. Electrothermal atomization in graphite furnace. Special guidelines for Aluminium, Cadmium, Cobalt, chromium, Copper, mangane
• DS 2210:1990 Water analysis. Determination of metals in water, sludge, and sedimend by flameless atomic absorption spectrometry. Electrothermal atomization in graphite furnace. General principles and guidelines

工业和信息化部, Graphene Electron

• YB/T 4583.2-2017 Determination of potassium oxide and sodium oxide content in mullite by inductively coupled plasma atomic emission spectrometry

Korean Agency for Technology and Standards (KATS), Graphene Electron

• KS C IEC TS 62607-6-4:2022 Nanomanufacturing — Key control characteristics — Part 6-4: Graphene — Surface conductance measurement using resonant cavity
• KS C IEC TS 62607-6-1:2022 Nanomanufacturing — Key control characteristics — Part 6-1: Graphene-based material — Volume resistivity: four probe method

KR-KS, Graphene Electron

• KS C IEC TS 62607-6-4-2022 Nanomanufacturing — Key control characteristics — Part 6-4: Graphene — Surface conductance measurement using resonant cavity
• KS C IEC TS 62607-6-1-2022 Nanomanufacturing — Key control characteristics — Part 6-1: Graphene-based material — Volume resistivity: four probe method

IEC - International Electrotechnical Commission, Graphene Electron

• TS 62607-6-4-2016 Nanomanufacturing – Key control characteristics – Part 6-4: Graphene – Surface conductance measurement using resonant cavity (Edition 1.0)

Others:   Electric graphene, graphene electricity, Graphene electric moxibustion sheet, Graphene Electron, Graphene + electrical contacts, Graphene electrical contacts.