Hierarchically
Porous Carbons Derived from Biomasses
with Excellent Microwave Absorption Performance
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Abstract
A variety of biomass-based
carbon materials with two-level porous
structure have been successfully prepared by one-step carbonization
process. The first level of microscale pores templates from the inherent
porous tissues, while the second one of nanopores is produced by the
in situ etching by the embedded alkaline metal elements. The superimposed
effect of nano and microscale pores endows the hierarchically porous
carbons (HPCs) with excellent microwave absorption (MA) performance.
Among them, the spinach-derived HPC exhibits a maximum reflection
loss of −62.2 dB and a broad effective absorption bandwidth
of 7.3 GHz. Particularly, this excellent MA performance can be reproduced
using the biomass materials belonging to different families, harvested
seasons, and origins, indicating a green and sustainable process.
These encouraging findings shed the insights on the preparation of
biomass-derived microwave absorbents with promising practical applications