Fast insight into nanotechnology

Access easily searchable nanoscience data, synthesis methods and literature

highly n-doped silicon nanowires

Based on

4 Articles
2016 Most recent source

Composition

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

1

N-type Si

Type Complex Compound
Formula
Role raw materials

Properties

General physical and chemical properties

Property Value Source
capacity dependent on electrode developed surface

More information available to subscribers only.

Or, view sample content

Applications

Area Application Source
electronics

More information available to subscribers only.

Or, view sample content

Characterization

Method Source
scanning electron microscopy

More information available to subscribers only.

Or, view sample content

Biological effects

Preparation

Method 1

Type: Chemical synthesis
Source:
Starting materials
  1. 1fnAKOXxIhj6pLqWes0a0MXsFhWe
  2. SeK6hHSVk942q5KRY8N
  3. jukp6p
Product

highly n-doped silicon nanowires

Method 2

Type: Chemical synthesis
Source:
Starting materials
  1. SxGB2JHuXHdW2cHdTfjD2300iy4f
  2. EhYwlWmUko7d04Yl2nI
  3. A1d1nZ
Product

highly n-doped silicon nanowires

Method 3

Type: Chemical synthesis
Source:
Starting materials
  1. kG01k2128oGNgdyULv6lm3vNWZFB
  2. XFwuxXHpAIiyWzSOsQ9
  3. FMvS8Q
Product

highly n-doped silicon nanowires

Method 4

Type: Chemical synthesis
Source:
Starting materials
  1. PgICSFMuS8xw6p3dDypKKYN7tzza
  2. tEROQDrVOPFKjHJcUno
  3. aGM0Ep
Product

highly n-doped silicon nanowires

Method 5

Type: Chemical synthesis
Source:
Starting materials
  1. jvrRaARSNHi5HNtkLuHFsZJjWObu
  2. 45SZ0q1LVehcfzVYIeI
  3. OqdaLl
Product

highly n-doped silicon nanowires

References

Full content is available to subscribers only

To view content please choose from the following:

We use cookies to improve your experience with our site. More information

Sign up for a free trial