| 422 | 0 | 47 |
| 下载次数 | 被引频次 | 阅读次数 |
中国属于农业大国,对结构性过剩的秸秆进行资源化利用是实现农业循环经济发展、促进农业绿色发展的重要途径。在“双碳”目标背景下,开发秸秆基生物质炭功能材料既可减少焚烧、填埋秸秆带来的环境污染,又可为秸秆的高价值化利用开拓新的方向。本文综述了秸秆炭材料在吸附、催化、储能领域的应用,并展望了该材料未来的发展方向。
Abstract:China is a large agricultural country,and the utilization of structural excess straw resources is an important way to realize the development of agricultural circular economy and promote the green development of agriculture.Under the environment goal of " carbon peak and carbon neutrality",the research and preparation of straw based biomass charcoal not only can reduce the environmental pollution caused by incineration and landfill,but also provides a new way to the high-value utilization of straw based.In this study,the applications of straw based carbon materials in adsorption,catalysis and energy storage are reviewed,and the future development direction of this material is prospected.
[1] Bai W,Yan L,Zhang L,et al.Practice,pathways,and performance for resource utilization of crop straw:A case study of Xinyang City in China[J]. Environmental Science and Pollution Research,2023,30(4):10812-10829.
[2] Sun L,Gong Y,Li D,et al.Biomass-derived porous carbon materials:Synthesis,designing,and applications for supercapacitors[J]. Green Chemistry,2022,24(10):3864-3894.
[3] Li J,Li Y,Lin N,et al.Ammoniated straw returning:A winwin strategy for increasing crop production and soil carbon sequestration[J].Agriculture,Ecosystems&Environment,2024,363:108879.
[4]杜傲宇,戴淼柔,李涛,等.用于氧还原反应(ORR)的氮磷共掺杂铁基生物质炭催化剂制备及性能研究[J].炭素技术,2024,43(2):28-35.
[5]王仙萌,杨振锋,王伟涛.Zn O锚定在N掺杂生物质炭催化剂及高效氧还原性能[J].炭素技术,2023,42(1):41-45.
[6]刘桂燕,车晖贤,宾万艳,等.氮掺杂生物质炭吸附抗生素左氧氟沙星的研究[J].炭素技术,2024,43(2):43-48.
[7] Cheng F,Li X. Preparation and application of biocharbased catalysts for biofuel production[J].Catalysts,2018,8(9):346.
[8] Dulie N W,Woldeyes B,Demsash H D,et al.An insight into the valorization of hemicellulose fraction of biomass into furfural:Catalytic conversion and product separation[J].Waste and Biomass Valorization,2021,12:531-552.
[9]蒋永伟,曹蕾,王雨婷,等.生物炭对有机磷化合物的去除研究进展[J].炭素技术,2025,44(1):13-18.
[10]姜娟,牛强.生物质炭在铁合金领域应用的可行性和研究进展[J].炭素技术,2023,42(6):25-31.
[11] Li D,Wang Y,Lu D,et al.Bio-straw resource recycling systems:Agricultural productivity and green development[J]. Resources,Conservation and Recycling,2023,190:106844.
[12] Yin P,Zhang L,Jiang Y,et al.Recycling of waste straw in sorghum for preparation of biochar/(Fe,Ni)hybrid aimed at significant electromagnetic absorbing of low-frequency band[J].Journal of Materials Research and Technology,2020,9(6):14212-14222.
[13] Bai Y L,Zhang C C,Rong F,et al. Biomass-derived carbon materials for electrochemical energy storage[J].Chemistry,2024:e202304157.
[14] Mousavi S A,Kamarehie B,Almasi A,et al.Removal of Rhodamine B from aqueous solution by stalk corn activated carbon:adsorption and kinetic study[J].Biomass Conversion and Biorefinery,2023,13(9):7927-7936.
[15] Gao X,Zheng M,Zhao X,et al. Ultra-high-capacity adsorption of Rhodamine B in a carboxyl-functionalized metal:Organic framework via surface adsorption[J]. Journal of Chemical&engineering Data,2020,66(1):669-676.
[16] Al-Gheethi A A,Azhar Q M,Kumar P S,et al.Sustainable approaches for removing Rhodamine B dye using agricultural waste adsorbents:A review[J].Chemosphere,2022,287:132080.
[17] Meneceur S,Hemmami H,Bouafia A,et al.Photocatalytic activity of iron oxide nanoparticles synthesized by different plant extracts for the degradation of diazo dyes Evans blue and Congo red[J]. Biomass Conversion and Biorefinery,2024,14(4):5357-5372.
[18] Sharma J,Sharma S,Soni V.Toxicity of malachite green on plants and its phytoremediation:a review[J].Regional Studies in Marine Science,2023,62:102911.
[19] Wu J,Yang J,Feng P,et al.Highly efficient and ultrarapid adsorption of malachite green by recyclable crab shell biochar[J]. Journal of Industrial and Engineering Chemistry,2022,113:206-214.
[20] Heris S Z,Etemadi M,Mousavi S B,et al.Preparation and characterizations of Ti O2/Zn O nanohybrid and its application in photocatalytic degradation of tetracycline in wastewater[J].Journal of Photochemistry and Photobiology A:Chemistry,2023,443:114893.
[21] Qin X,Zeng X,Cheng S,et al.Preparation of double functional carbon-based Zn O derived from rape straw for dye wastewater treatment[J]. Journal of Water Process Engineering,2023,52:103588.
[22]代国帅,张棋.玉米秸秆碳气凝胶材料的制备及吸附性能研究[J].山东化工,2020,49(21):38-40.
[23]李兆兴,祝新宇,申华.玉米秸秆活性炭的制备及其对四环素的吸附[J].化学世界,2020,61(9):640-643.
[24] PSudarsanam P,Zhong R,Van den Bosch S,et al.Functionalised heterogeneous catalysts for sustainable biomass valorisation[J]. Chemical Society Reviews,2018,47(22):8349-8402.
[25] Lou Y,Hao X,Liao L,et al.Recent advances of biomass carbon dots on syntheses,characterization,luminescence mechanism,and sensing applications[J]. Nano Select,2021,2(6):1117-1145.
[26]陈奇,王彦斌,庞少峰,等.生物质炭基催化材料的研究进展[J].功能材料,2024,55(2):2052-2062.
[27] Ye Y,Zhao X,Li C,et al. Fabrication of carbon-coated Na/Fe@C nanorods using soybean straw for efficient oxygen evolution reaction catalysts[J]. Molecular Catalysis,2023,550:113579.
[28] Dulie N W,Woldeyes B,Demsash H D.Synthesis of lignin-carbohydrate complex-based catalyst from Eragrostis tef straw and its catalytic performance in xylose dehydration to furfural[J]. International Journal of Biological Macromolecules,2021,171:10-16.
[29] Huang H,Lan Z,Li W,et al.A novel and low-cost Cu Pc@C catalyst derived from the compounds of sunflower straw and copper phthalocyanine pigment for oxygen reduction reaction[J]. RSC advances,2021,11(26):15590-15597.
[30] Wang J,Yan L,Ren Q,et al. Facile hydrothermal treatment route of reed straw-derived hard carbon for high performance sodium ion battery[J].Electrochimica Acta,2018,291:188-196.
[31]王朋涛.小麦秸秆碳作为锂/钠离子电池负极材料的制备与性能研究[D].长春:吉林大学,2023.
[32] Yao W,Tian C,Yang C,et al. P-doped Ni Te2with Te-vacancies in lithium-sulfur batteries prevents shuttling and promotes polysulfide conversion[J].Advanced Materials,2022,34(11):2106370.
[33] Chen F,Ma L,Ren J,et al.Wheat straw-derived N-,O-,and S-tri-doped porous carbon with ultrahigh specific surface area for lithium-sulfur batteries[J].Materials,2018,11(6):989.
[34] Yao W Q,Xu J,Ma L,et al. Recent progress for concurrent realization of shuttle-inhibition and dendritefree lithium-sulfur batteries[J]. Advanced Materials,2023,35(32):2212116.
[35] Li Z,Sami I,Yang J,et al.Lithiated metallic molybdenum disulfide nanosheets for high-performance lithium-sulfur batteries[J].Nature Energy,2023,8(1):84-93.
[36]顾文亮.多孔碳材料的制备与表面修饰及其锂硫电池性能研究[D].哈尔滨:哈尔滨工业大学,2019.
基本信息:
DOI:10.14078/j.cnki.1001-3741.2025.06.003
中图分类号:TQ127.11
引用信息:
[1]马远华,王乾,辛闻,等.秸秆基生物质炭材料的应用[J].炭素技术,2025,44(06):25-29.DOI:10.14078/j.cnki.1001-3741.2025.06.003.
基金信息:
吉林省科技厅项目(20230101213JC); 吉林省发展改革委项目(2023C032-5); 四平市科技发展计划项目(2023074)
2024-03-26
2024
2024-05-19
2024
1
2025-12-09
2025-12-09