由煤气化半焦简便制备共掺杂多孔碳用于高效微波吸收

Facile Fabrication of Co-Doped Porous Carbon from Coal Hydrogasification Semi-Coke for Efficient Microwave Absorption.

作者信息

Li Yan-Fang, Wang Li-Fang, Gao Shu-Juan, Yu Tan-Lai, Li Qi-Feng, Wang Jun-Wei

机构信息

Department of Chemical and Materials Engineering, Lyuliang University, Lvliang 033001, China.

Institute of New Carbon-Based Materials and Zero-Carbon and Negative-Carbon Technology, Lyuliang University, Lvliang 033001, China.

出版信息

Molecules. 2024 Sep 29;29(19):4633. doi: 10.3390/molecules29194633.

DOI:10.3390/molecules29194633

PMID:39407563

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11478072/

Abstract

A Co-doped porous carbon was successfully fabricated by a facile carbonizing procedure using coal hydrogasification semi-coke (SC) as the carbon and cobalt nitrate as the magnetic precursors, respectively. The mass ratio of the precursors was changed to regulate the microwave absorption (MA) capabilities. The favorable MA capabilities are a result of a synergistic interaction be-tween the dielectric loss from the carbon framework, the magnetic loss from nano-sized Co particles, and multiple scattering from the residual pores. At a thickness of 4.0 mm, the Co/C composite showed the lowest reflection loss of -33.45 dB when the initial mass ratio of cobalt nitrate and SC was 1:1. The effective absorbing bandwidth (EAB) could achieve 3.5 GHz at 2 mm thickness. This work not only opens up a new avenue for the facile fabrication of dielectric and magnetic loss combinations and their structural design, but it also creates a new route for the high value-added exploitation of SC.

摘要

通过一种简便的碳化程序，分别以煤气化半焦（SC）为碳源、硝酸钴为磁性前驱体，成功制备了一种钴掺杂多孔碳。改变前驱体的质量比以调节微波吸收（MA）能力。良好的微波吸收能力是碳骨架的介电损耗、纳米钴颗粒的磁损耗以及残余孔隙的多重散射之间协同相互作用的结果。当硝酸钴与SC的初始质量比为1:1时，在厚度为4.0 mm时，Co/C复合材料的最低反射损耗为-33.45 dB。在2 mm厚度时，有效吸收带宽（EAB）可达3.5 GHz。这项工作不仅为介电和磁损耗组合的简便制备及其结构设计开辟了一条新途径，还为SC的高附加值开发创造了一条新路线。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/74a5/11478072/928f54597026/molecules-29-04633-g001.jpg

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由煤气化半焦简便制备共掺杂多孔碳用于高效微波吸收

Facile Fabrication of Co-Doped Porous Carbon from Coal Hydrogasification Semi-Coke for Efficient Microwave Absorption.

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