Loading ...

Fast insight into nanotechnology

Access easily searchable nanoscience data, synthesis methods and literature

P3HT:PCBM blend confined to one-dimensional silicon grooves

Based on

1 Articles
2014 Most recent source

Composition

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

1

p-doped silicon

p-doped Si
Type Complex Compound
Formula
Role raw materials
2

50:50 P3HT:PCBM

Type Complex Compound
Formula
Role partial layer

Properties

Applications

Area Application Nanomaterial Variant Source
electronics

More information/entries available to subscribers only.

Or, view sample content

Characterization

Method Nanomaterial Variant Source
scanning electron microscopy

More information/entries available to subscribers only.

Or, view sample content

Biological effects

Preparation

Method 1

Type: Physical formation
Source:
Starting materials
  • p-doped silicon
  1. RDgTrHOS10qi0MxXsbUx7r10QPjLO3Ja0aFXIiBBOdpF6yr5eVDC
Product

P3HT:PCBM blend confined to one-dimensional silicon grooves

Film thickness: 117 - 141 nm

Groove depth: 137 - 149 nm

Groove width: 43 - 51 nm

Medium/Support: none

Method 2

Type: Physical formation
Source:
Starting materials
  • p-doped silicon
  1. fv8LrY9iqGpIRkGzGBiGGx0E4jE0bJ2GvzjRwcIrPkQtcSkCIoVm
Product

P3HT:PCBM blend confined to one-dimensional silicon grooves

Film thickness: 313 - 461 nm

Groove depth: 419 - 491 nm

Groove width: 91 - 135 nm

Medium/Support: none

Method 3

Type: Physical formation
Source:
Starting materials
  • p-doped silicon
  1. wcAt8JXLlBhTW90BtmiEyuK0oTqMj1PcbRgz5QMXKabw6u5z0rsd
Product

P3HT:PCBM blend confined to one-dimensional silicon grooves

Film thickness: 232 - 292 nm

Groove depth: 298 - 350 nm

Groove width: 77 - 97 nm

Medium/Support: none

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