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Sn nanowires-encapsulated amorphous carbon nanotubes

Based on

4 Articles
2016 Most recent source

Composition

Image only illustrates the order and placement of components as described in literature.

1

tin

Type Single Compound
Formula Sn
Role core
2

amorphous carbon

soot aC
Type Single Compound
Formula C
Role layer

Properties

General physical and chemical properties

Property Value Nanomaterial Variant Source
cyclic voltammogram

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Applications

Area Application Nanomaterial Variant Source
energy storage

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Characterization

Method Nanomaterial Variant Source
field emission scanning electron microscopy

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Biological effects

Preparation

Method 1

Type: Chemical synthesis
Source:
Starting materials
  • tin
  • ethylene
  1. 6xkKYdMeCi5SHfkrMUMqhTFF8
  2. PupEc
  3. hj3
Product

Sn nanowires-encapsulated amorphous carbon nanotubes

Length: ~ 10000 nm

Thickness: ~ 18 nm

Medium/Support: none

Method 2

Type: Chemical synthesis
Source:
Starting materials
  • tin
  • ethylene
  1. lWiBFdWqrK8dUd4XYXB0wmlIo
  2. N2xYn
  3. c0PZd
Product

Sn nanowires-encapsulated amorphous carbon nanotubes

Length: ~ 3000 nm

Thickness: ~ 6 nm

Medium/Support: none

Method 3

Type: Chemical synthesis
Source:
Starting materials
  • tin
  • ethylene
  1. WgRgnJ6Swq6eWyL6aaNxab7Fh
  2. Amptx
  3. R9S
Product

Sn nanowires-encapsulated amorphous carbon nanotubes

Length: ~ 6000 nm

Thickness: ~ 13 nm

Medium/Support: none

Method 4

Type: Chemical synthesis
Source:
Starting materials
  • ethylene
  • tin
  1. 6RB17ouuxiOtF6TGoFoKwGtqH
  2. FjgSa
  3. Ku4
  4. xz5aFXNAilId8CzsX1inykuNYtUctm5h7dAr
Product

Sn nanowires-encapsulated amorphous carbon nanotubes

Thickness: ~ 4 nm

Medium/Support: none

Method 5

Type: Chemical synthesis
Source:
Starting materials
  • ethylene
  • tin
  1. plexCWgwu0RcrfKFepmy8IPeu
  2. q6XMc
  3. aCr
  4. ZS7IbdftfVSx02I26s4y5roNxsZD3DHshLVU
Product

Sn nanowires-encapsulated amorphous carbon nanotubes

Thickness: ~ 99 nm

Medium/Support: none

References

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