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氮硼掺杂菌糠炭:蜂窝结构用于电极材料
引用本文:曲可琪,尤月,孙哲,黄占华. 氮硼掺杂菌糠炭:蜂窝结构用于电极材料[J]. 化工进展, 2021, 40(3): 1527-1536. DOI: 10.16085/j.issn.1000-6613.2020-0804
作者姓名:曲可琪  尤月  孙哲  黄占华
作者单位:东北林业大学材料科学与工程学院,生物质材料科学与技术教育部重点实验室,黑龙江 哈尔滨 150040
基金项目:国家自然科学基金(31670592);黑龙江省杰出青年基金(JQ2019C001);中央高校基本科研项目(2572020DX01)
摘    要:绿色可再生、储量丰富且成本低廉的农林废弃物在能源转化利用领域具有重要位置。本文利用中国北方最常见的农林废弃物菌糠为原料,分别以氢氧化钾、硼酸铵为活化剂和掺杂剂,通过简单的高温煅烧法制备了具有蜂窝结构的氮硼双掺杂菌糠炭(NBFC)。NBFC的微观形貌和物理结构表征结果显示:NBFC-3为表面粗糙的蜂窝状多孔材料,孔径集中在2nm左右,比表面积高达2968.48m2/g,具有相互连接的微介孔网络结构。电化学性能测试结果表明:当电流密度为0.5A/g时,NBFC-3的比电容高达297.2F/g。即使当电流密度增加到10A/g后,比电容仍可达218.5F/g,在循环5000圈后(电流密度为5A/g),比电容保持率为94.5%,展现了良好的倍率性能和显著的电化学稳定性。综上,NBFC是一种极有潜力的电化学储能材料。该研究也为农林废弃物菌糠的高效利用提供了新思路。

关 键 词:菌糠  共掺杂  蜂窝结构  生物质炭  电化学  
收稿时间:2020-05-12

N,B-doped carbon from fungus bran: honeycomb structure as electrode material
QU Keqi,YOU Yue,SUN Zhe,HUANG Zhanhua. N,B-doped carbon from fungus bran: honeycomb structure as electrode material[J]. Chemical Industry and Engineering Progress, 2021, 40(3): 1527-1536. DOI: 10.16085/j.issn.1000-6613.2020-0804
Authors:QU Keqi  YOU Yue  SUN Zhe  HUANG Zhanhua
Affiliation:College of Material Science and Engineering, Key Laboratory of Bio-based Material Science and Technology, Ministry of Education, Northeast Forestry University, Harbin 150040, Heilongjiang, China
Abstract:Green renewable, abundant reserves and low-cost agricultural and forestry wastes have an important position in the field of energy conversion and utilization. In this paper, fungus bran, the most common agricultural and forestry waste in northern China, was used as the raw material, and potassium hydroxide and ammonium borate were used as the activator and dopant, respectively, N, B co-doped fungus bran-derived carbon (NBFC) was prepared by simple high temperature calcination method. NBFC’s micro-morphology and physical structure characterization results showed that NBFC-3 was a honeycomb porous material with a rough surface. The pore size was concentrated at about 2nm and the specific surface area was up to 2968.48m2/g with an interconnected micro mesoporous network structure. The electrochemical performance results indicated that when the current density was 0.5A/g, the specific capacitance of NBFC-3 was as high as 297.2F/g. Even when the current density increased to 10A/g, the specific capacitance could still reach 218.5F/g. After 5000 cycles (current density was 5A/g), the specific capacitance retention rate of NBFC-3 was 94.5%, demonstrating its good rate performance and remarkable electrochemical stability. To sum up, the NBFC was a kind of extremely potential electrochemical energy storage material. The research also provided a new idea for the efficient use of agricultural and forestry wastes.
Keywords:fungus bran  co-doping  honeycomb structure  biomass carbon  electrochemistry  
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