484164
炭素
glassy, spherical powder, 2-12 μm, 99.95% trace metals basis
別名:
炭素
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この商品について
実験式(ヒル表記法):
C
CAS番号:
分子量:
12.01
MDL number:
UNSPSC Code:
11101522
PubChem Substance ID:
EC Number:
231-153-3
NACRES:
NA.23
Quality Level
assay
99.95% trace metals basis
form
glassy, spherical powder
mol wt
Mw 12.011 g/mol
composition
C
particle size
2-12 μm
density
1.8-2.1 g/cm3
application(s)
battery manufacturing
SMILES string
[C]
InChI
1S/C
InChI key
OKTJSMMVPCPJKN-UHFFFAOYSA-N
General description
グラッシーカーボンは、その構造内で短距離秩序しか示しません。球形炭素粒子の懸濁液から得られる光音響ドップラー効果が研究されています。グラッシーカーボンは700Scm-1という比導電率を示します。4
Application
アモルファス炭素は、抵抗ベースシステムのゼロ温度係数(TCR)の開発に使用できます。グラッシーカーボンはバイメタルRh–ReOxの触媒として使用されています。微小電気機械系(MEMS)での赤外線(IR)表面温度測定精度を向上させるために使用できます。
•Electrochemical Applications: as Electrodes thanks to excellent conductivity and inertness; as Substrate for catalytic materials in Electrochemical Sensors; Modified with catalysts for green catalysis.
•High-Temperature Applications: as Crucibles, as Furnace Components; as Thermocouple Protection.
•Semiconductor Industry: as Wafer Handling (wafer holders and susceptors); as durable electrode material for plasma etching and ion implantation.
•Biomedical Applications: as load-bearing joints and dental implants; as Scaffold material for Tissue Engineering.
•Other Applications: Antistatic Agent (prevents static electricity buildup in packaging); Molding Materials (precision and glass molding); as Fuel Cell Electrodes.
•High-Temperature Applications: as Crucibles, as Furnace Components; as Thermocouple Protection.
•Semiconductor Industry: as Wafer Handling (wafer holders and susceptors); as durable electrode material for plasma etching and ion implantation.
•Biomedical Applications: as load-bearing joints and dental implants; as Scaffold material for Tissue Engineering.
•Other Applications: Antistatic Agent (prevents static electricity buildup in packaging); Molding Materials (precision and glass molding); as Fuel Cell Electrodes.
Features and Benefits
•Customized for battery: our 2-12 μm spherical glassy carbon
•Electrical Conductivity: Excellent conductivity (700Scm-1) makes it ideal for electrochemical applications.
•Chemical Inertness: High resistance to chemical reactions enhances durability in harsh environments.
•High-Temperature Resistance and low thermal expansion: Can withstand temperatures up to 3000°C, suitable for high-temperature applications. •Biocompatibility: Safe for use in biomedical applications, particularly in prosthetics and tissue engineering.
•Tailorable Properties: Customizable properties through heat treatment and surface modifications.
•Electrical Conductivity: Excellent conductivity (700Scm-1) makes it ideal for electrochemical applications.
•Chemical Inertness: High resistance to chemical reactions enhances durability in harsh environments.
•High-Temperature Resistance and low thermal expansion: Can withstand temperatures up to 3000°C, suitable for high-temperature applications. •Biocompatibility: Safe for use in biomedical applications, particularly in prosthetics and tissue engineering.
•Tailorable Properties: Customizable properties through heat treatment and surface modifications.
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保管分類
11 - Combustible Solids
wgk
WGK 3
flash_point_f
Not applicable
flash_point_c
Not applicable
資料
Solid oxide fuel cells and electrolyzers show potential for chemical-to-electrical energy conversion, despite early development stages.
Li-ion batteries are currently the focus of numerous research efforts with applications designed to reduce carbon-based emissions and improve energy storage capabilities.
固体酸化物燃料電池と電解装置は、開発の初期段階にかかわらず、化学エネルギーから電気エネルギーへの変換の可能性を示しています。
From 5-hydroxymethylfurfural (HMF) to polymer precursors: catalyst screening studies on the conversion of 1, 2, 6-hexanetriol to 1, 6-hexanediol.
Buntara T, et al.
Topics in Catalysis, 55(5-7), 612-619 (2012)
Photoacoustic doppler effect from flowing small light-absorbing particles.
Fang H, et al.
Physical Review Letters, 99, 184501-184501 null
Use of carbon microparticles for improved infrared temperature measurement of CMOS MEMS devices.
Hopper RH, et al.
Measurement Science and Technology, 21 null