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trench-patterned highly oriented pyrolytic graphite

Based on

133 Articles
4 Patents
2018 Most recent source

Composition

1

glass-like carbon

vitreous carbon glassy carbon carbon GC
Type Single Compound
Formula C
Role raw materials

Properties

General physical and chemical properties

Property Value Nanomaterial Variant Source
cyclic voltammogram dependent on scan rate

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density
electrical conductivity
nitrogen adsorption/desorption
pore volume
porosity
surface area

Catalytic properties

Reaction Value Nanomaterial Variant Source
sulfide electrooxidation

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Sensor properties

Type of sensor Sensor property Nanomaterial Variant Source
compounds sensor for cholesterol in ethanol

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Applications

Area Application Nanomaterial Variant Source
electrodes/electrolytes

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electronics
energy storage

Characterization

Method Nanomaterial Variant Source
atomic force microscopy

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electron energy-loss spectroscopy
energy dispersive X-ray spectroscopy
field emission scanning electron microscopy
high-resolution transmission electron microscopy
Raman spectroscopy
scanning electron microscopy
selected area electron diffraction
thermogravimetric analysis
transmission electron microscopy
X-ray diffraction
X-ray photoelectron spectroscopy

Biological effects

Biological system Test details Nanomaterial Variant Source
bovine serum albumin

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Preparation

Method 1

Type: Physical formation
Source:
Starting materials
  • diamond
Product

trench-patterned highly oriented pyrolytic graphite

Hole array periodicity: 500 nm

Thickness: 170 nm

Medium/Support: none

Method 2

Type: Physical formation
Source:
Starting materials
  • diamond
  1. k348P5xD
  2. wiOsT3
Product

trench-patterned highly oriented pyrolytic graphite

Size: not specified

Medium/Support: none

Method 3

Type: Chemical synthesis
Source:
Starting materials
  • hydroxybenzene
  1. QCubAj41Q7f2sFlkv5Th4uu8
  2. vq5IW
  3. BbHuXy
Product

trench-patterned highly oriented pyrolytic graphite

Pore channel diameter: ~368 nm

Pore to pore distance: ~12 nm

Thickness: ~5000 nm

Medium/Support: none

Method 4

Type: Chemical synthesis
Source:
Starting materials
  • SU-8 epoxy resin
  • silicon
Product

trench-patterned highly oriented pyrolytic graphite

Microchannel height: ~5000 nm

Microchannel width: ~60000 nm

Nanochannel height: ~65 nm

Nanochannel width: ~950 nm

Medium: none

Support: silicon

Method 5

Type: Chemical synthesis
Source:
Starting materials
  • hydroxybenzene
  1. 50DRzS3dqKCjSZ6zT4HPnj2X
  2. dJROs
  3. 2If55C
Product

trench-patterned highly oriented pyrolytic graphite

Pore channel diameter: ~365 nm

Pore to pore distance: ~12 nm

Thickness: ~15000 nm

Medium/Support: none

References

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