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Hydrangea-like N-doped Carbon/MoO2@SnS2 microspheres with Schottky contact: A multi-interface heterostructure for high-performance microwave absorption

COMPOSITES PART B-ENGINEERING [2023]
Xiang Zhang, Zheng Xiang, Kai Yao, Xiao Wang, Hao jie Jiang, Jing li Wang, Wei Lu
ABSTRACT

Heterointerface engineering is now recognized as a powerful strategy to optimize the microwave absorption performance of dielectric materials through composition adjustment and structural design. Herein, a hydrangea-like N-doped Carbon/MoO 2 @SnS 2 (NC/MoO 2 @SnS 2 ) composite was successfully prepared by high-temperature pyrolysis and oil bath treatment. The surface of each NC/MoO 2 microsphere was vertically covered with interconnected SnS 2 nanosheets , forming a porous core-shell morphology. We found that the number of heterojunctions and the proportion of high-lossy phases played a decisive role in optimizing the electromagnetic parameters . By regulating the content of dielectric phases, the optimized NC/MoO 2 @SnS 2 (S3 sample) displayed a minimum reflection loss (RL min ) of −75.0 dB at an ultrathin thickness of 1.41 mm and a wide EAB of 4.2 GHz at 1.53 mm. The enhanced microwave absorption was mainly ascribed to multiple polarization relaxation, multi-interface reflection and good impedance matching characteristics produced by this semiconductor/carbon heterostructure with dual Schottky barriers . Therefore, this work provided a feasible strategy for making full use of heterointerface engineering to design ternary semiconductor/carbon heterostructures as high-performance dielectric MAMs.

MATERIALS

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