773697
単層グラフェン膜
1 cm x 1 cm on copper foil, avg. no. of layers, 1
form
film
feature
avg. no. of layers 1
resistance
600 Ω/sq
L × W × thickness
1 cm × 1 cm × (theoretical) 0.345 nm, Monolayer graphene film, 1.5 cm × 1.5 cm × 25 μm, copper foil substrate
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General description
Catalytic decomposition of hydrocarbons over copper foil forms monolayered graphene films.Graphene deposits as a continuous polycrystalline sheet of individual graphene grains joined at grain boundaries.
Graphene film
Growth Method: CVD synthesis
Transfer Method: Clean transfer method
Quality Control: Optical Microscopy & Raman checked
Size: 1 cm x 1 cm
Appearance (Color): Transparent
Transparency: >97%
Appearance (Form): Film
Coverage: >95%
Number of graphene layers: 1
Thickness (theoretical): 0.345 nm
FET Electron Mobility on Al2O3: 2; 000 cm2/V·s
FET Electron Mobility on SiO2/Si (expected): 4; 000 cm2/V·s
Sheet Resistance: 600 Ohms/sq.
Grain size: Up to 10 μm
Substrate Copper Foil
Thickness: 25μm
Both sides: Graphene/Cu/Graphene
Packaging - 4 units/pack
Growth Method: CVD synthesis
Transfer Method: Clean transfer method
Quality Control: Optical Microscopy & Raman checked
Size: 1 cm x 1 cm
Appearance (Color): Transparent
Transparency: >97%
Appearance (Form): Film
Coverage: >95%
Number of graphene layers: 1
Thickness (theoretical): 0.345 nm
FET Electron Mobility on Al2O3: 2; 000 cm2/V·s
FET Electron Mobility on SiO2/Si (expected): 4; 000 cm2/V·s
Sheet Resistance: 600 Ohms/sq.
Grain size: Up to 10 μm
Substrate Copper Foil
Thickness: 25μm
Both sides: Graphene/Cu/Graphene
Packaging - 4 units/pack
signalword
Warning
hcodes
Hazard Classifications
Eye Irrit. 2 - STOT SE 3
target_organs
Respiratory system
保管分類
13 - Non Combustible Solids
wgk
WGK 3
flash_point_f
Not applicable
flash_point_c
Not applicable
Oleksandr Zagorodko et al.
Analytical chemistry, 86(22), 11211-11216 (2014-10-24)
Strategies employed to interface biomolecules with nanomaterials have considerably advanced in recent years and found practical applications in many different research fields. The construction of nucleic acid modified interfaces together with the label-free detection of hybridization events has been one
Optical nano-imaging of gate-tunable graphene plasmons
Nature (2012)
Xuesong Li et al.
Science (New York, N.Y.), 324(5932), 1312-1314 (2009-05-09)
Graphene has been attracting great interest because of its distinctive band structure and physical properties. Today, graphene is limited to small sizes because it is produced mostly by exfoliating graphite. We grew large-area graphene films of the order of centimeters
Weak mismatch epitaxy and structural feedback in graphene growth on copper foil.
Wilson NR, et al.
Nano Research, 6(2), 99-112 null
Functionalized CVD monolayer graphene for label-free impedimetric biosensing
Eissa S, et al.
Nano Research, 8(5), 1698-1709 null
資料
シリコンは、既知の材料の中で最も高い容量を有し、比較的低い作動電位を示すなどの利点があることから、リチウムイオン電池用の最も有望な負極材料の1つです。
グラフェンベースのナノ材料は、DNA、たんぱく質、細胞、標的薬剤、ポリマー、ナノ粒子などと結合可能であり、多用な化学的性質を有するため、生物医学研究のための魅力的なナノプラットフォームとなります。
蛍光消光顕微鏡は、グラフェンやMoS2のような2次元材料を、迅速かつ安価に、高い忠実度で可視化する。
触媒を使った水分解による水素生成は、再生可能エネルギーや石油精製、化学工業におけるメタノール製造などにおいて重要です。
ライフサイエンス、有機合成、材料科学、クロマトグラフィー、分析など、あらゆる分野の研究に経験のあるメンバーがおります。.
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