三维多孔泡沫石墨烯的制备与应用研究进展
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摘要
泡沫石墨烯是一种新型的碳基化工材料,具有独特的三维连通网络结构和优异的力学、热学、电学和化学稳定性能。本文综述了三维多孔泡沫石墨烯的制备与应用研究进展,主要介绍其水热法和化学气相沉淀制备法以及其作为催化材料、检测材料及电极材料的应用研究现状,并探讨了该领域亟待解决的重要问题和未来发展前景。
Graphene foam is a new type of carbon-based chemical material. It has unique three-dimensional connected network structure and excellent mechanical,thermal,electrical and chemical stability. The research progress of preparation and application of three-dimensional porous graphene foam were reviewed with thirty references. The hydrothermal method and chemical vapor deposition as well as its application of catalytic materials,testing materials and electrode materials were mainly introduced,and the important problems to be solved and future development prospects in this field were discussed.
Graphene foam is a new type of carbon-based chemical material. It has unique three-dimensional connected network structure and excellent mechanical,thermal,electrical and chemical stability. The research progress of preparation and application of three-dimensional porous graphene foam were reviewed with thirty references. The hydrothermal method and chemical vapor deposition as well as its application of catalytic materials,testing materials and electrode materials were mainly introduced,and the important problems to be solved and future development prospects in this field were discussed.
引文
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[14]JU Z,ZHANG S,XING Z,et al.Direct synthesis of few-layer F-doped graphene foam and its lithium/potassium storage properties[J].Acs Applied Materials and Interfaces,2016,8(32):20682-20690.
[15]ZHANG F,LI P,DAI G,et al.Fabrication and properties of three-dimensional nanoporous graphene foams with magnesium binder[J].Scripta Materialia,2016,111(1):89-93.
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[20]MA Y,ZHAO M,CAI B,et al.3D graphene foams decorated by Cu O nanoflowers for ultrasensitive ascorbic acid detection[J].Biosensors and Bioelectronics,2014,59(9):384-388.
[21]YAVARI F,CHEN Z,THOMAS A V,et al.High sensitivity gas detection using a macroscopic three-dimensional,graphene foam network[J].Scientific Reports,2011,1(7374):166-171.
[22]林轩宇,张虹,黄硕,等.氧化锌纳米线阵列/泡沫石墨烯电化学检测左旋多巴[J].工程科学学报,2016,38(9):1306-1311.
[23]栾汝水,岳红彦,俞彦飞,等.三维泡沫石墨烯在抗坏血酸的干扰下检测尿酸[J].化学传感器,2014,34(4):44-49.
[24]虎智妍,郭珍.气相还原法制备石墨烯泡沫电极板及其电容性质研究[J].广州化工,2016,44(12):61-62.
[25]薛富民,张孝亮,杨胜韬,等.石墨烯泡沫包裹铁电极的制备及其在电解脱色染料中的应用研究[J].环境污染与防治,2016,38(12):22-26.
[26]常建霞,酒红芳,焦红倩,等.三维氧化石墨烯-Ag/泡沫镍复合材料的制备及其电化学性能[J].过程工程学报,2016,16(2):341-345.
[27]郭铁明,王力群,李小成,等.三维石墨烯/泡沫镍基底上制备Ni掺杂Co(OH)2复合材料及其超电容性能[J].兰州理工大学学报,2015,41(2):12-16.
[28]ZHANG Y,HUANG Y,CHEN H,et al.Composition and structure control of ultralight graphene foam for high-performance microwave absorption[J].Carbon,2016,105(8):438-447.
[29]WANG J,LIU J,CHAO D,et al.Self-assembly of honeycomb-like Mo S2nanoarchitectures anchored into graphene foam for enhanced lithium-ion storage[J].Advanced Materials,2014,26(42):7162-7169.
[30]谷峰,刘小红,何石轩,等.修饰银纳米粒子的石墨烯泡沫镍衬底制备及其SERS活性研究[J].半导体光电,2015,36(4):610-614.
[2]XU J,WANG M,WICKRAMARATNE N P,et al.High-performance sodium ion batteries based on a 3D anode from nitrogen-doped graphene foams[J].Advanced Materials,2015,27(12):2042-2048.
[3]SINGH E,CHEN Z,HOUSHMAND F,et al.Superhydrophobic graphene foams[J].Small,2013,9(1):75-80.
[4]XUE Y,LIU J,CHEN H,et al.Nitrogen-doped graphene foams as metal-free counter electrodes in highperformance dye-sensitized solar cells[J].Angewandte Chemie,2012,51(48):12124-12127.
[5]TYNAN M K,JOHNSON D W,DOBSON B P,et al.Formation of 3D graphene foams on soft templated metal monoliths[J].Nanoscale,2016,8(27):13303-13310.
[6]LIU C J,YOUNESI R TAI C W,et al.3D binder-free graphene foam as a cathode for high capacity Li-O2batteries[J].Journal of Materials Chemistry A,2016,4(25):9767-9773.
[7]DUX,LIU H Y,MAI Y W.Ultrafast synthesis of multifunctional N-doped graphene foam in an ethanol flame[J].Acs Nano,2016,10(1):453-462.
[8]JUN Y S,SY S,AHN W,et al.Highly conductive interconnected graphene foam based polymer composite[J].Carbon,2015,95(12):653-658.
[9]WU C,HUANG X,WANG G,et al.Highly conductive nanocomposites with three-dimensional,compactly interconnected gaphene networks via a self-assembly process[J].Advanced Functional Materials,2013,23(4):506-513.
[10]BELLO A,FASHEDEMI O O,LEKITIMA J N,et al.High-performance symmetric electrochemical capacitor based on graphene foam and nanostructured manganese oxide[J].Aip Advances,2013,3(8):1094-1103.
[11]赵连勤,张孝亮,谢静茹,等.水热法制备三氧化二铝掺杂石墨烯泡沫[J].西南民族大学学报,2014,40(6):849-852.
[12]刘坦坦,孙友谊,池慧娟,等.高强轻质石墨烯泡沫的制备及其应用[J].中国胶粘剂,2014,23(10):590-594.
[13]KIMK S,ZHAO Y,JANG H,et al.Large-scale pattern growth of graphene films for stretchable transparent electrodes[J].Nature,2009,457(7230):706-710.
[14]JU Z,ZHANG S,XING Z,et al.Direct synthesis of few-layer F-doped graphene foam and its lithium/potassium storage properties[J].Acs Applied Materials and Interfaces,2016,8(32):20682-20690.
[15]ZHANG F,LI P,DAI G,et al.Fabrication and properties of three-dimensional nanoporous graphene foams with magnesium binder[J].Scripta Materialia,2016,111(1):89-93.
[16]ZENG M,WANG H,ZHAO C,et al.3D graphene foam-supported cobalt phosphate and borate electrocatalysts for high-efficiency water oxidation[J].Sci Bull,2015,60(16):1426-1433.
[17]XUE Y,YU D,DAI L,et al.Three-dimensional B,N-doped graphene foam as a metal-free catalyst for oxygen reduction reaction[J].Physical Chemistry Chemical Physics,2013,15(29):12220-12226.
[18]ZHOU X,BAI Z,WU M,et al.3-Dimensional porous N-doped graphene foam as a non-precious catalyst for the oxygen reduction reaction[J].Journal of Materials Chemistry A,2015,3(7):3343-3350.
[19]DONG X,WANG X,WANG L,et al.3D graphene foam as a monolithic and macroporous carbon electrode for electrochemical sensing[J].Acs Applied Materials and Interfaces,2012,4(6):3129-3133.
[20]MA Y,ZHAO M,CAI B,et al.3D graphene foams decorated by Cu O nanoflowers for ultrasensitive ascorbic acid detection[J].Biosensors and Bioelectronics,2014,59(9):384-388.
[21]YAVARI F,CHEN Z,THOMAS A V,et al.High sensitivity gas detection using a macroscopic three-dimensional,graphene foam network[J].Scientific Reports,2011,1(7374):166-171.
[22]林轩宇,张虹,黄硕,等.氧化锌纳米线阵列/泡沫石墨烯电化学检测左旋多巴[J].工程科学学报,2016,38(9):1306-1311.
[23]栾汝水,岳红彦,俞彦飞,等.三维泡沫石墨烯在抗坏血酸的干扰下检测尿酸[J].化学传感器,2014,34(4):44-49.
[24]虎智妍,郭珍.气相还原法制备石墨烯泡沫电极板及其电容性质研究[J].广州化工,2016,44(12):61-62.
[25]薛富民,张孝亮,杨胜韬,等.石墨烯泡沫包裹铁电极的制备及其在电解脱色染料中的应用研究[J].环境污染与防治,2016,38(12):22-26.
[26]常建霞,酒红芳,焦红倩,等.三维氧化石墨烯-Ag/泡沫镍复合材料的制备及其电化学性能[J].过程工程学报,2016,16(2):341-345.
[27]郭铁明,王力群,李小成,等.三维石墨烯/泡沫镍基底上制备Ni掺杂Co(OH)2复合材料及其超电容性能[J].兰州理工大学学报,2015,41(2):12-16.
[28]ZHANG Y,HUANG Y,CHEN H,et al.Composition and structure control of ultralight graphene foam for high-performance microwave absorption[J].Carbon,2016,105(8):438-447.
[29]WANG J,LIU J,CHAO D,et al.Self-assembly of honeycomb-like Mo S2nanoarchitectures anchored into graphene foam for enhanced lithium-ion storage[J].Advanced Materials,2014,26(42):7162-7169.
[30]谷峰,刘小红,何石轩,等.修饰银纳米粒子的石墨烯泡沫镍衬底制备及其SERS活性研究[J].半导体光电,2015,36(4):610-614.