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activated carbon, conducting carbon and phosphoric acid-doped AIPBI-based electrode layer

Based on

1 Articles
2012 Most recent source

Composition

1

activated carbon from dried resorcinol-formaldehyde polymer gel

activated carbon from resorcinol-formaldehyde polymer resin example of thermally stable mesoporous material activated carbon from dried RF polymer gel example of nano-porous carbon material activated carbon from RF polymer resin highly ordered mesoporous carbon ordered mesoporous carbon powder example of mesoporous material highly porous activated carbon nano-porous carbon material amorphous nanoporous carbon ordered mesoporous carbon mesoporous carbon RF1-800 mesocellular carbon foam mesoporous carbon CMK-3 nanoporous YP-17 carbon mesocarbon microbeads 3D nanoporous carbon nanoporous carbon mesoporous carbon nanopowder carbon activated carbon carbon aerogel porous carbon Vulcan XC-72 carbon Norit carbon YP-17 Vulcan XC72 carbon foam 3DOm carbon mp-carbon 3D-NPC CMK-3 C-1-O YP-17 MCMB OMCP OMC NPC PC MC AC
Type Nano Material
Formula
Role raw materials
2

conducting carbon powder

Vulcan XC-72 CC powder
Type Nano Material
Formula
Role dopant
3

phosphoric acid-doped poly[2,5-benzimidazole]

phosphoric acid-doped AIPBI
Type Complex Compound
Formula
Role dopant

Properties

Applications

Area Application Source
electronics

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Characterization

Biological effects

Preparation

Method 1

Type: Physical formation
Source:
Starting materials
  1. SYuh9bEIC57Z6RauutslKraMNHtHLA
Product

activated carbon, conducting carbon and phosphoric acid-doped AIPBI-based electrode layer

References

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