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double-walled TiO2 nanotubes

Based on

1 Articles
2014 Most recent source

Composition

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

1

Vacuous

Type
Formula
Role core
2

titanium dioxide (anatase)

anatase
Type Single Compound
Formula TiO2
Role layer
3

Vacuous

Type
Formula
Role layer
4

titanium dioxide (anatase)

anatase
Type Single Compound
Formula TiO2
Role layer

Properties

General physical and chemical properties

Property Value Nanomaterial Variant Source
Nitrogen adsorption/desorption

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Catalytic properties

Reaction Value Nanomaterial Variant Source
Methylene blue photodegradation

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Applications

Area Application Nanomaterial Variant Source
catalysis

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Characterization

Method Nanomaterial Variant Source
field emission scanning electron microscopy

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Preparation

Method 1

Type: Physical formation
Source:
Starting materials
  1. 9VNllv
  2. IZC
  3. 9Mv
Product

double-walled TiO2 nanotubes

Pore diameter: 150 nm

Pore diameter: 60 nm

Thickness: 10 nm

Thickness: 20 nm

Thickness: 40 nm

Walls count: 2 nm

Medium: none

Support: titanium

Method 2

Type: Chemical synthesis
Source:
Starting materials
  • titanium
  • water
  1. 6y6bynGXYgWuOpf
  2. QGq2FTvRcQ9ojdYf3p8F
  3. 1rDObirfaOAwGVjBPhje7rKkKX
  4. Ju51QO2ynbZxqJ
  5. KvFxJYBIq6
  6. vI7
Product

double-walled TiO2 nanotubes

Thickness: 10 nm

Thickness: 20 nm

Thickness: 40 nm

Walls count: 2 nm

Medium: none

Support: titanium

Method 3

Type: Chemical synthesis
Source:
Starting materials
  • titanium
  • water
  1. XHKLntYuMIkbb6H
  2. cBvzkg870VwlAVfnZKj4
  3. taL4qaGZaJRL90iaEkFxCz5oCV
  4. rS2oLpMoZpD01n
  5. usMwekuQHm
  6. 0xn
Product

double-walled TiO2 nanotubes

Thickness: 10 nm

Thickness: 20 nm

Thickness: 40 nm

Walls count: 2 nm

Medium: none

Support: titanium

References

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