A novel process for improving the pore structure and electrochemical performance of wood-derived carbon/MnO composites

IF 3.1 2区 农林科学 Q1 FORESTRY
Jing Liu, Lin Lin, Jian Zhang, Hongda Zeng, Junyou Shi
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Abstract

Water has different forms of existence in wood (free water and bound water), which can generate different effects on the microstructure of wood. Compared to other methods, the freeze-thawing method is equipped with simple, environmentally friendly, and low-cost features. In this paper, the permeability of wood with different ratios of free water to bound water (water content), as well as the pore structure characteristics and electrochemical properties after carbonization, were investigated by the freeze–thaw method. The results show that dry samples of poplar chips with a moisture content of 15–17% after KMnO4 and freeze–thaw cycle treatment and carbonization (PC@15%-MnO) have a specific surface area of 936.94 m2/g. The areal specific capacitance is 4784 mF/cm2 at a current density of 12 mA/cm2, which is 3.3 and 22 times higher than those of wood-derived carbon without freeze–thaw treatment, respectively. Additionally, PC@15%-MnO maintains 80% of its specific capacitance after 2000 testing cycles, indicating that the freeze–thaw method effectively enhances the permeability, pore structure, and electrochemical properties of wood-derived carbon materials. This strategy offers new avenues for the research and application of wood in electrode materials.

Abstract Image

改善木质碳/氧化锰复合材料孔隙结构和电化学性能的新工艺
水在木材中的存在形式不同(自由水和结合水),会对木材的微观结构产生不同的影响。与其他方法相比,冻融法具有简单、环保、成本低等特点。本文采用冻融法研究了不同自由水与结合水比例(含水率)的木材的渗透性以及碳化后的孔隙结构特征和电化学性能。结果表明,含水率为 15-17%的杨木屑干样品在经过 KMnO4 和冻融循环处理并碳化后(PC@15%-MnO),其比表面积为 936.94 m2/g。在 12 mA/cm2 的电流密度下,其面积比电容为 4784 mF/cm2,分别是未经冻融处理的木质衍生碳的 3.3 倍和 22 倍。此外,PC@15%-MnO 在经过 2000 次测试循环后仍能保持 80% 的比电容,这表明冻融法能有效提高木质碳材料的渗透性、孔隙结构和电化学性能。这一策略为木材在电极材料中的研究和应用提供了新的途径。
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来源期刊
Wood Science and Technology
Wood Science and Technology 工程技术-材料科学:纸与木材
CiteScore
5.90
自引率
5.90%
发文量
75
审稿时长
3 months
期刊介绍: Wood Science and Technology publishes original scientific research results and review papers covering the entire field of wood material science, wood components and wood based products. Subjects are wood biology and wood quality, wood physics and physical technologies, wood chemistry and chemical technologies. Latest advances in areas such as cell wall and wood formation; structural and chemical composition of wood and wood composites and their property relations; physical, mechanical and chemical characterization and relevant methodological developments, and microbiological degradation of wood and wood based products are reported. Topics related to wood technology include machining, gluing, and finishing, composite technology, wood modification, wood mechanics, creep and rheology, and the conversion of wood into pulp and biorefinery products.
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