Abstract: Carbon nanomaterials have extensive application prospect in microelectronics, aerospace, military materials and so forth because of their special mechanical, electrical and physicochemical properties. Preparing carbon nanomaterials in a new, efficient and controllable way by pulsed laser has become a research focus currently. In this paper, the interaction between laser and carbon materials and nanoparticles formation mechanism are briefly introduced. The process and factors of the preparation of carbon nanomaterials (e.g. nanodiamond, carbon nanotubes, graphene) in liquid phase by pulsed laser ablation is elaborated. Future prospect of carbon nanomaterials preparation by pulsed laser is summarized.
1 Novoselov K S,Geim A K.Electric field effect in automatically thin carbon films[J]. Science,2004,306:666. 2 Kroto H W,Heath J R,O’Brien S C,et al. C60:Buckminsterfullerene[J]. Nature,1985,318:162. 3 Iijima S. Helical micro tubules of graphitic carbon [J]. Nature,1991,354(6348):56. 4 Xu K,Jin Z S,Wei F X,et al. Preparation of ultrafine diamond by explosivedetonation method[J]. Chin J Energ Mater,1993,1(3):19 (in Chinese). 徐康,金增寿,魏发学,等.炸药爆炸发制备超细金刚石粉末[J].含能材料,1993,1(3):19. 5 Pech D, Brunet M, Durou H, et al. Ultrahigh-power micrometre-sized supercapacitors based on onion-like carbon[J]. Nat Nanotech-nol,2010,5(9):651. 6 Xu K,Xue Q J. Nanometer-sized diamond powders synthesized by explosive detonation[J]. Prog Chem,1997,9(2):201(in Chinese). 徐康,薛群基.炸药爆炸法合成的纳米金刚石粉[J].化学进展,1997,9(2):201. 7 Zou Y S,Wang W,Song G H,et al. Influence of the gas atmosphere on the diamond-like films deposited by arc ion plating[J]. J Synthetic Cryst,2003,32(6):613(in Chinese). 邹友生,汪伟,朱贵宏,等.气体介质对电弧离子镀沉积类金刚石膜的影响[J].人工晶体学报,2003,32(6):613. 8 Ogalea S B, Malshea A P, Kanetkara S M, et al. Formation of diamond particulates by pulsed ruby laser irradiation of graphite immersed in benzene[J]. Solid State Commun,1992,84(4): 371. 9 Wang M,Zhao H,Zhang X Y,et al. Mechanism and progresses of SWNTs preparation by arc discharge[J]. Chem Eng,2006,135(12):38(in Chinese). 王敏,赵红,张相育,等.电弧法制备单壁碳纳米管的机理及进展[J]. 化学工程师,2006,135(12):38. 10 Guo T,Nikolaev P,et al. Self-assembly of tubular fullerenes[J].J Phys Chem,1995,99(27):10694. 11 Chen P,Zhang H B,Lin G D,et al. Preparation of carbon nanotube by pyrolysis of methane at lower temperature[J]. J Xiamen University:Nat Sci,1996,35(1):61 (in Chinese). 陈萍,张鸿斌,林国栋,等.低温催化裂解烷烃法制备碳纳米管[J].厦门大学学报:自然科学版,1996,35(1):61. 12 Park D,Kim Y H,Lee J K. Synthesis of carbon nanotubes on metallic substrates by a sequential combination of PECVD and thermal CVD[J]. Carbon,2003,41(5):1025. 13 Tang D C,Li X H,Yuan C H,et al. Preliminary study of highquality graphene prepared by mechanical exfoliation[J]. J Southwest Vniversity of Science and Technology,2010,25(3):16(in Chinese). 唐多昌,李晓红,袁春华,等.机械剥离法制备高质量石墨烯的初步研究[J].西南科技大学学报,2010,25(3):16. 14 Lu D M,Yang R X,Sun X H,et al. Epitaxial growth of graphene on SiC substrate and their application[J]. Semicon Technol,2012,37(9):665(in Chinese). 陆东梅,杨瑞霞,孙信华,等.石墨烯的SiC的外延生长及应用[J].半导体技术,2012,37(9):665. 15 Deokar G, Avila J, Razado-Colambo I,et al. Towards high quality CVD graphene growth and transfer[J]. Carbon,2015,89(1):82. 16 Yang Y H,Sun H J,Peng T J. Synthesis and structural characterization of graphene by oxidation reduction[J]. Chin J Inorg Chem,2010,26(11):2083(in Chinese). 杨永辉,孙红娟,彭同江.石墨烯的氧化还原法制备及结构表征[J].无机化学学报,2010,26(11):2083. 17 Jagiello J,Judek J,Zdrojek M,et al. Production of graphene compo-site by direct graphite exfoliation with chitosan[J]. Mater Chem Phys,2014,148(3):507. 18 Zhou Y S,Xiong W,Park J B,et al. Laser-assisted nanofabrication of carbon nanostructures[J].J Laser Appl,2012,24(4):1. 19 Yang G W. Laser ablation in liquids: Applications in the synthesis of nanocrystals[J]. Prog Mater Sci,2007,52(4):648. 20 Tan D Z. Preparation of functional namomaterials by pulsed laser ablation in liquid[D]. Hangzhou:Zhejiang University,2014(in Chinese). 谭德志.液相激光烧蚀制备碳纳米功能材料[D].杭州:浙江大学,2014.. 21 Liu P S,Zeng H B,Cai W P,et al. Research progress of nanomate-rials prepared by laser ablationin liquid mediums[J]. Electron Comp Mater,2009,28(1):68(in Chinese). 刘培生,曾海波,蔡伟平,等.液相脉冲激光烧蚀法制备纳米材料的研究进展[J].电子元件与材料,2009,28(1):68. 22 Inasawa S,Sugiyama M,Yamaguchi Y. Bimodal size distribution of gold nanoparticles under picosecond laser pulses[J]. J Phys Chem B,2005,109(19):9404. 23 Werner D,Furube A,Okamoto T, et al. Femtosecond laser-induced size reduction of aqueous gold nanoparticles: In situ and pump-probe spectroscopy investigations revealing coulomb explosion[J]. J Phys Chem C,2011,115(17):8503. 24 Plech A,Kotaidis V,Lorenc M,et al. Femtosecond laser near-field ablation from gold nanoparticles[J]. Nat Phys,2006,2:44. 25 Hashimoto S,Werner D,Uwada T. Studies on the interaction of pulsed lasers with plasmonic gold nanoparticles toward light manipulation, heat management, and nanofabrication[J]. J Photochem Photobiol C: Photochem Rev,2012,13(1): 28. 26 Kim J,Na S. Metal thin film ablation with femtosecond pulsed laser[J]. Opt Laser Technol,2007,39:1443. 27 Tian F. Synthesis of carbon and metal oxide nanomaterials by laser ablation[D]. Tianjin:Tianjin University,2009(in Chinese). 田飞.激光烧蚀法制备碳纳米材料与金属氧化物纳米材料[D].天津:天津大学,2009. 28 Wang J B,Zhang C Y,et al. Cubic and hexagonal structures of diamond nanocrystals formed upon pulsed laser induced liquid-solid interfacial reaction[J]. Chem Phys Lett,2002,361(1-2):86. 29 Yang L,May P W,et al. Growth of diamond nanocrystals by pulsed laser ablation of graphite in liquid[J]. Diamond Relat Mater,2007,16(4-7):725. 30 Lei Y W. Study on the synthesis of nanodiamond by laser shock-processing[D]. Tianjin:Tianjin University,2006(in Chinese). 雷贻文.激光冲击法合成纳米金刚石的研究[D].天津:天津大学,2006. 31 Dolgaev S I,Simakin A V,Voronov V V,et al. Nanoparticles produced by laser ablation of solids in liquid environment[J].Appl Surf Sci,2002,186(1-4): 546. 32 Sun J,Hu S L,Du X W,et al. Ultra-fine nanodiamonds synthesized using millisecond-pulsed laser[J]. Acta Phys-Chim Sin,2007,23(7):1105 (in Chinese). 孙景,胡胜亮,杜希文,等.毫秒脉冲激光合成超细纳米金刚石[J].物理化学报,2007,23(7):1105. 33 Amans D,Chenus A C,et al. Nanodiamond synthesis by pulsed laser ablation in liquids[J]. Diamond Relat Mater,2009,18(2):177. 34 Chen C X,Zhang Y,Chen W Z. Synthesis of carbon nanotubes and carbon nano- materials by pulsed- laser ablation[J]. J Fujian University of Technology,2004,2(1):8(in Chinese). 陈长鑫,章仪,陈文哲.激光轰击制备碳纳米管及其相关纳米材料[J].福建工程学院学报,2004,2(1):8. 35 Mortazavi S Z,Parvin P,Reyhani A. Fabrication of graphene based on Q-switched Nd∶YAG laser ablation of graphite target in liquid nitrogen[J]. Laser Phys Lett,2012,9(7):547. 36 Khorkov K S,Abramov D V,et al. Formation monocrystalline carbon micro-and nanostructures under femtosecond laser irradiation of graphite in liquid nitrogen[J]. Phys Procedia,2016,83:182. 37 Abramov D V,Arakelian S,Kochuev D A,et al. Interaction of femtosecond laser radiation with carbon materials: Exfoliation of graphene structures and synthesis of low-dimensional carbon structures[J]. Nanosystems:Phys Chem Mathematics,2016,7(1):220. 38 Qian M,Zhou Y S,Yang G,et al. Production of few-layer graphene through liquid-phase pulsed laser exfoliation of highly ordered pyrolytic graphite[J]. Appl Surf Sci,2012,258(22):9092. 39 Trusovas R,Raciukaitis K G,et al. Reduction of graphite oxide to graphene with laser irradiation[J].Carbon,2013,52(1):574. 40 Ghadim E E,Rashidi N,Kimiagar S,et al. Pulsed laser irradiation for environment friendly reduction of graphene oxide suspensions[J]. Appl Surf Sci,2014,301(10):183. 41 Bang S Y,Ryu J H,Choi B G,et al. A simple route for fabrication of graphene nanoribbons by pulsed laser irradiation in ethanol[J]. J Alloys Compd,2015,618:33.
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