摘要
The three-dimensional nanoflower-like β-In2S3 composited with carbon nanotubes {CNTs) has been synthesized by a single mode micro- wave-assisted hydrothermal technique. The In2S3 and CNTs nanocomposites (In2S3@CNTs) were investigated as the anode materials of lithium batteries (LIBs) and the electromagnetic wave absorption materials. For LIBs applications, the In2S3@CNTs nanocomposite exhibited excellent cycling stability with a high reversible charge capacity of 575 mA·h·g-1 after 300 cycles at 0.S A·g^-1, In addition, the In2S3@CNTs used as electromagnetic wave absorber displayed a maximum reflection loss of-42.75 dB at 11.96 GHz with a thickness of 1.55 ram.
The three-dimensional nanoflower-like β-In2S3 composited with carbon nanotubes {CNTs) has been synthesized by a single mode micro- wave-assisted hydrothermal technique. The In2S3 and CNTs nanocomposites (In2S3@CNTs) were investigated as the anode materials of lithium batteries (LIBs) and the electromagnetic wave absorption materials. For LIBs applications, the In2S3@CNTs nanocomposite exhibited excellent cycling stability with a high reversible charge capacity of 575 mA·h·g-1 after 300 cycles at 0.S A·g^-1, In addition, the In2S3@CNTs used as electromagnetic wave absorber displayed a maximum reflection loss of-42.75 dB at 11.96 GHz with a thickness of 1.55 ram.
基金
We are grateful to the National Natural Science Foundation of China (51571172, 11404280, 51571171, 516722401, Natural Science Foundation for Distinguished Young Scholars of Hebei Province (E2017203095), Natural Science Foundation of Hebei Province (A2015203337, E2016203484), Science Foundation for the Excellent Youth Scholars from Universities and Colleges of Hebei Province (YQ2014009), and Research Program of the College Science & Technology of Hebei Province (ZD2017083, QN2014047).