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| 熔盐水合物处理对生物质基多孔碳材料电化学性能的影响 |
| Effect of Molten Salt Hydrate Treatment on the Electrochemical Performance of Woody Biomass-based Porous Carbon Materials |
| 收稿日期:2020-08-06 |
| DOI:10.11980/j.issn.0254-508X.2020.12.004 |
| 关键词: 杨木边材木片 无机熔盐水合物 活化 多孔碳材料 电化学性能 |
| Key Words:poplar sapwood chips inorganic molten salt hydrate activation porous carbon material electrochemical performance |
| 基金项目:制浆造纸工程国家重点实验室开放基金项目(201823)。 |
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| 摘要:本研究以速生杨木边材木片为原料进行自水解预处理,将无机熔盐水合物和自水解预处理后的杨木片(APW)加入盐酸溶液中浸渍,经冷冻干燥、碳化、酸洗、水洗及干燥后得到木质生物质基多孔碳材料。探究了APW的不同无机熔盐水合物活化处理对多孔碳材料物理结构性能的影响,测试了将其作为超级电容器电极材料的电化学性能。结果表明,在盐酸溶液中,无机熔盐水合物ZnCl2和 ZnCO3活化处理均有利于提高木质生物质基多孔碳材料的电化学性能,且前者比后者的作用效果更强,ZnCl2活化处理制备的木质生物质基多孔碳材料无序结构更多;当用作超级电容器中的电极材料时,活化剂总质量一定,以ZnCl2和ZnCO3组合制备的多孔碳材料的电化学性能更具有优势,在0.2 A/g电流密度下,所制备的电极材料质量比容量可达到143.20 F/g;在2.0 A/g电流密度下,其循环5000次的电容保持率为99.90%;另外,在10 mV/s的扫描速率下,其循环伏安曲线保持了良好闭合的近似矩形形状。 |
| Abstract:Fast-growing poplar sapwood chips were used as raw materials for autohydrolysis pretreatment, and both inorganic molten-salt hydrates and the autohydrolyzed poplar sapwood (APW) chips were added into the hydrochloric acid solution for immersion. The resultant APW chips were then freeze-dried, carbonized, washed respectively with dilute-acid solution and deionized water, and dried successively, and a woody biomass-based porous carbon material was finally obtained. The effect of APW chips activated with different inorganic molten-salt hydrates on the physical structure and properties of the porous carbon materials was explored, and the electrochemical performance was also tested as the porous carbon material was used as a supercapacitor electrode. The results showed that the activation treatment with inorganic molten-salt hydrate ZnCl2 and ZnCO3 in hydrochloric acid solution was beneficial to improving the electrochemical performance of woody biomass-based porous carbon materials, while the former was more effective than the latter. And the woody biomass-based porous carbon materials prepared by ZnCl2 had more disordered structure. When used as a electrode material in a supercapacitor, the porous carbon material prepared with the combined activation of ZnCl2 and ZnCO3 was more advantageous in the electrochemical performance under a certain total-amount of the activator. At a current density of 0.2 A/g, its specific capacity reached 143.20 F/g. After 5000 cycles of charge-discharge process at the current density of 2.0 A/g, the retention of specific capacitance was as high as 99.90%, indicating that the material had fine cycle stability. In addition, at a scanning rate of 10 mV/s, its cyclic voltammetry curve maintained a well-closed and approximately rectangular shape. |
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