Plasmonic Cu9S5 Nanonets for
Microwave Absorption
Version 2 2019-06-10, 20:05
Version 1 2019-06-10, 20:03
Posted on 2019-06-10 - 20:05
Microwave
absorption has been very critical for many civil and
military applications. In this study, we report for the first time
the porous plasmonic Cu9S5 nanonets possessing
an excellent microwave absorption performance with a large reflection
loss (RL) of −55.03 dB (over 99.999% absorption efficiency)
and a maximal effective bandwidth of 4.15 GHz (RL ≤ −10
dB). The impressive microwave absorption performance is attributed
to the large pore volume, multireflection of electromagnetic waves,
and increased microwave absorption sites on the unique porous structure
and the impressive plasmonic properties of Cu9S5 nanonets. The results have demonstrated potentially promising prospects
of plasmonic Cu9S5 nanonets as a new material
candidate for microwave absorption.
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Tao, Fujun; Green, Michael; Tran, Anh Thi Van; Zhang, Yuliang; Yin, Yansheng; Chen, Xiaobo (2019). Plasmonic Cu9S5 Nanonets for
Microwave Absorption. ACS Publications. Collection. https://doi.org/10.1021/acsanm.9b00700
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AUTHORS (6)
FT
Fujun Tao
MG
Michael Green
AT
Anh Thi Van Tran
YZ
Yuliang Zhang
YY
Yansheng Yin
XC
Xiaobo Chen