textjournal article
From Metal–Organic Framework to Nanoporous Carbon: Toward a Very High Surface Area and Hydrogen Uptake
Abstract
In this work, with a zeolite-type metal–organic framework as both a precursor and a template and furfuryl alcohol as a second precursor, nanoporous carbon material has been prepared with an unexpectedly high surface area (3405 m2/g, BET method) and considerable hydrogen storage capacity (2.77 wt % at 77 K and 1 atm) as well as good electrochemical properties as an electrode material for electric double layer capacitors. The pore structure and surface area of the resultant carbon materials can be tuned simply by changing the calcination temperature- Text
- Journal contribution
- Medicine
- Molecular Biology
- Biotechnology
- Environmental Sciences not elsewhere classified
- Biological Sciences not elsewhere classified
- Chemical Sciences not elsewhere classified
- calcination temperature
- surface area
- pore structure
- High Surface Area
- Hydrogen UptakeIn
- BET
- Nanoporous Carbon
- carbon materials
- 1 atm
- 77 K
- layer capacitors
- furfuryl alcohol
- electrochemical properties
- precursor
- nanoporous carbon material
- electrode material
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Last time updated on 16/03/2018
This paper was published in The Francis Crick Institute.
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