化工进展 ›› 2023, Vol. 42 ›› Issue (7): 3720-3735.DOI: 10.16085/j.issn.1000-6613.2022-1563

• 资源与环境化工 • 上一篇    下一篇

氮掺杂生物炭的制备与应用研究进展

李艳玲1(), 卓振1, 池亮2, 陈曦1, 孙堂磊1, 刘鹏1(), 雷廷宙1()   

  1. 1.常州大学城乡矿山研究院,常州市生物质绿色安全高值利用技术重点实验室,江苏 常州 213164
    2.中国石油吉林石化公司乙烯厂,吉林 吉林 132022
  • 收稿日期:2022-08-23 修回日期:2022-12-21 出版日期:2023-07-15 发布日期:2023-08-14
  • 通讯作者: 刘鹏,雷廷宙
  • 作者简介:李艳玲(1992—),女,博士研究生,硕士生导师,研究方向为生物质资源化利用。E-mail:liyl@cczu.edu.cn
  • 基金资助:
    常州市科技项目应用基础研究计划(CJ20220138);国家自然科学基金(51906021);现代农业-碳达峰碳中和科技创新专项资金(农业农村领域重大关键技术攻关)(BE2022426)

Research progress on preparation and application of nitrogen-doped biochar

LI Yanling1(), ZHUO Zhen1, CHI Liang2, CHEN Xi1, SUN Tanglei1, LIU Peng1(), LEI Tingzhou1()   

  1. 1.Institute of Urban and Rural Mining, Changzhou Key Laboratory of Green Safe and High Value Utilization Technology of Biomass, Changzhou University, Changzhou 213164, Jiangsu, China
    2.Ethylene Plant, PetroChina Jilin Petrochemical Company, Jilin 132022, Jilin, China
  • Received:2022-08-23 Revised:2022-12-21 Online:2023-07-15 Published:2023-08-14
  • Contact: LIU Peng, LEI Tingzhou

摘要:

生物质不仅储量丰富、分布广泛且可再生,是一种亟待高值化利用的资源。将其炭化后制备的生物炭具有良好的理化性质,常被用于吸附污染物、制作电极材料。但与活性炭相比,生物炭存在孔隙结构欠发达、表面官能团种类和数量稀少等问题,其应用受到了很大限制。通过对生物炭进行N元素掺杂改性制成N掺杂生物炭(NBC)可丰富生物炭孔隙结构和表面活性位点,提高吸附、导电和催化性能。本文综述了国内外近几年来关于NBC的制备/改性方法(热解法、活化法、水热法、模板法和后处理法等)及其优点和局限性,梳理了各方法得到的NBC的形貌结构及表面化学特征,概括了氮掺杂对NBC的催化、吸附、电化学性能的影响及NBC在各领域的应用。以“制备-结构-性能及应用”相结合的思路,从NBC的应用角度逆向出发,思考如何通过探究N掺杂机理和优化制备方法,来充分发挥NBC在各领域中的应用价值,并对今后该领域的研究发展提出了展望。

关键词: 氮掺杂, 生物炭, 活化, 催化, 吸附, 储能

Abstract:

Biomass is abundant, widely distributed and renewable, and can be used in high value resources. The biochar obtained after carbonization of biomass has good physical and chemical properties, and is often used to adsorb pollutants and make electrode materials. Compared with activated carbon, there are many problems such as underdeveloped pore structure and scarcity of surface functional groups, limits the application of biochar. Nitrogen doping can enrich biochar pore structure and surface activity sites, and endow the N-doped biochar (NBC) with improved adsorption, conductivity and catalytic performance. In this paper, preparation/modification methods of NBC, such as pyrolysis, activation, hydrothermal, template and post-treatment method, along with their benefits and drawbacks were reviewed. The morphological structure and surface chemical characteristics of NBC obtained by each method were summarized. And the applications of NBCs in catalysis, adsorption and electrochemical energy storage fields were generalized. With the "preparation-structure-characteristics and application" combined conception, started from the perspective of NBC application, this paper discussed how to maximize the application value of NBC by investigating the N-doping mechanism and improving the preparation method, and then presented references and recommendations for further research and development in this field.

Key words: nitrogen-doping, biochar, activation, catalysis, adsorption, energy storage

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