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参考文献

[1] 王天博. 胶带粘黏法制备石墨烯存在的问题探讨[J]. 甘肃科技,2017,33(23):55-57,117.

[2] Kosynkin D V,Higginbotham A L,Sinitskii A,et al. Longitudinal unzipping of carbon nanotubes to form graphene nanoribbons[J]. Nature,2009,458(7240):872-876.

[3] Berger C,Song Z M,Li T B,et al. Ultrathin epitaxial graphite:2D electron gas properties and a route toward graphene-based nanoelectronics[J]. The Journal of Physical Chemistry B,2004,108(52):19912-19916.

[4] 顾磊. 基于4H-SiC基底选择性外延生长石墨烯[D]. 西安:西安电子科技大学,2014.

[5] 郝昕. SiC热裂解外延石墨烯的可控制备及性能研究[D]. 成都:电子科技大学,2013.

[6] Mishra S,Beyer D,Eimre K,et al. Topological frustration induces unconventional magnetism in a nanographene[J]. Nature Nanotechnology,2020,15(1):22-28.

[7] Chen Z L,Qi Y,Chen X D,et al. Direct CVD growth of graphene on traditional glass:Methods and mechanisms[J]. Advanced Materials,2019,31(9):1803639.

[8] Shi L R,Chen K,Du R,et al. Direct synthesis of few-layer graphene on NaCl crystals[J]. Small,2015,11(47):6302-6308.

[9] Dato A. Graphene synthesized in atmospheric plasmas—A review[J]. Journal of Materials Research,2019,34(1):214-230.

[10] 傅玲,刘洪波,邹艳红,等. Hummers法制备氧化石墨时影响氧化程度的工艺因素研究[J]. 炭素,2005(4):10-14.

[11] Marcano D C,Kosynkin D V,Berlin J M,et al. Improved synthesis of graphene oxide[J]. ACS Nano,2010,4(8):4806-4814.

[12] Peng L,Xu Z,Liu Z,et al. An iron-based green approach to 1-h production of single-layer graphene oxide[J]. Nature Communications,2015,6:5716.

[13] Park S,An J,Potts J R,et al. Hydrazine-reduction of graphite- and graphene oxide[J]. Carbon,2011,49(9):3019-3023.

[14] Fernández-Merino M J,Guardia L,Paredes J I,et al. Vitamin C is an ideal substitute for hydrazine in the reduction of graphene oxide suspensions[J]. The Journal of Physical Chemistry C,2010,114(14):6426-6432.

[15] Chen Y,Zhang X,Yu P,et al. Stable dispersions of graphene and highly conducting graphene films:A new approach to creating colloids of graphene monolayers[J]. Chemical Communications,2009(30):4527-4529.

[16] Chen W F,Yan L F,Bangal P R. Chemical reduction of graphene oxide to graphene by sulfur-containing compounds[J]. The Journal of Physical Chemistry C,2010,114(47):19885-19890.

[17] Shin H J,Kim K K,Benayad A,et al. Efficient reduction of graphite oxide by sodium borohydride and its effect on electrical conductance[J]. Advanced Functional Materials,2009,19(12):1987-1992.

[18] Park S,An J,Jung I,et al. Colloidal suspensions of highly reduced graphene oxide in a wide variety of organic solvents[J]. Nano Letters,2009,9(4):1593-1597.

[19] Pei S F,Zhao J P,Du J H,et al. Direct reduction of graphene oxide films into highly conductive and flexible graphene films by hydrohalic acids[J]. Carbon,2010,48(15):4466-4474.

[20] Wang Y Q,Sun L,Fugetsu B. Thiourea dioxide as a green reductant for the mass production of solution-based graphene[J]. Bulletin of the Chemical Society of Japan,2012,85(12):1339-1344.

[21] Mei X G,Ouyang J. Ultrasonication-assisted ultrafast reduction of graphene oxide by zinc powder at room temperature[J]. Carbon,2011,49(15):5389-5397.

[22] Pham V H,Pham H D,Dang T T,et al. Chemical reduction of an aqueous suspension of graphene oxide by nascent hydrogen[J]. Journal of Materials Chemistry,2012,22(21):10530-10536.

[23] Schniepp H C,Li J L,Mcallister M J,et al. Functionalized single graphene sheets derived from splitting graphite oxide[J]. The Journal of Physical Chemistry B,2006,110(17):8535-8539.

[24] Abdelkader A M,Cooper A J,Dryfe R A W,et al. How to get between the sheets:A review of recent works on the electrochemical exfoliation of graphene materials from bulk graphite[J]. Nanoscale,2015,7(16):6944-6956.

[25] 陈国华,龙江,赵立平. 一种高效制备石墨烯的方法:CN103058176A[P]. 2013-04-24.

[26] Jeon I Y,Shin Y R,Sohn G J,et al. Edge-carboxylated graphene nanosheets via ball milling[J]. Proceedings of the National Academy of Sciences of the United States of America,2012,109(15):5588-5593.

[27] Paton K R,Varrla E,Backes C,et al. Scalable production of large quantities of defect-free few-layer graphene by shear exfoliation in liquids[J]. Nature Materials,2014,13(6):624-630.

[28] Alhassan S M,Qutubuddin S,Schiraldi D A,et al. Graphene arrested in laponite-water colloidal glass[J]. Langmuir,2012,28(8):4009-4015.

[29] 李琦,何斌,郑鑫强,等. 防回叠少层石墨烯粉体及其复合材料的组份和制备:CN103030138A [P]. 2013-04-10.

[30] Hernandez Y,Nicolosi V,Lotya M,et al. High-yield production of graphene by liquid-phase exfoliation of graphite[J]. Nature Nanotechnology,2008,3(9):563-568.

[31] Lotya M,Hernandez Y,King P J,et al. Liquid phase production of graphene by exfoliation of graphite in surfactant/water solutions[J]. Journal of the American Chemical Society,2009,131(10):3611-3620.

[32] Yi M,Shen Z G,Ma S L,et al. A mixed-solvent strategy for facile and green preparation of graphene by liquid-phase exfoliation of graphite[J]. Journal of Nanoparticle Research,2012,14(8):1003.

[33] Castarlenas S,Rubio C,Mayoral Á,et al. Few-layer graphene by assisted-exfoliation of graphite with layered silicate[J]. Carbon,2014,73:99-105.

[34] Chen J P,Shi W L,Fang D,et al. A binary solvent system for improved liquid phase exfoliation of pristine graphene materials[J]. Carbon,2015,94:405-411.

[35] Cui J,Song Z X,Xin L X,et al. Exfoliation of graphite to few-layer graphene in aqueous media with vinylimidazole-based polymer as high-performance stabilizer[J]. Carbon,2016,99:249-260.

[36] Ciesielski A,Haar S,Aliprandi A,et al. Modifying the size of ultrasound-induced liquid-phase exfoliated graphene:From nanosheets to nanodots[J]. ACS Nano,2016,10(12):10768-10777.

[37] Zhang X J,Li X Z,Zhang S Y,et al. Cation-π-induced exfoliation of graphite by a zwitterionic polymeric dispersant for congo red adsorption[J]. ACS Applied Nano Materials,2018,1(8):3878-3885.

[38] Manna K,Wang L,Loh K J,et al. Printed strain sensors using graphene nanosheets prepared by water-assisted liquid phase exfoliation[J]. Advanced Materials Interfaces,2019,6(9):1900034.

[39] Backes C,Higgins T M,Kelly A,et al. Guidelines for exfoliation,characterization and processing of layered materials produced by liquid exfoliation[J]. Chemistry of Materials,2016,29(1):243-255.

[40] Amiri A,Naraghi M,Ahmadi G,et al. A review on liquid-phase exfoliation for scalable production of pure graphene,wrinkled,crumpled and functionalized graphene and challenges[J]. FlatChem,2018,8:40-71.

[41] 杨青,杨景辉. 电化学法制备石墨烯的研究进展[J]. 化工新型材料,2018,46(11):13-15,24.

[42] Liu N,Luo F,Wu H X,et al. One-step ionic-liquid-assisted electrochemical synthesis of ionic-liquid-functionalized graphene sheets directly from graphite[J]. Advanced Functional Materials,2008,18(10):1518-1525.

[43] Wu L Q,Li W W,Li P,et al. Powder,paper and foam of few-layer graphene prepared in high yield by electrochemical intercalation exfoliation of expanded graphite[J]. Small,2014,10(7):1421-1429.

[44] Wang H S,Tian S Y,Yang S W,et al. Anode coverage for enhanced electrochemical oxidation:A green and efficient strategy towards water-dispersible graphene[J]. Green Chemistry,2018, 20(6):1306-1315.

[45] Achee T C,Sun W M,Hope J T,et al. High-yield scalable graphene nanosheet production from compressed graphite using electrochemical exfoliation[J]. Scientific Reports,2018,8(1):14525.

[46] Tang H X,He P,Huang T,et al. Electrochemical method for large size and few-layered water-dispersible graphene[J]. Carbon,2019,143:559-563.

[47] Abdelkader A M,Kinloch I A,Dryfe R A W. Continuous electrochemical exfoliation of micrometer-sized graphene using synergistic ion intercalations and organic solvents[J]. ACS Applied Materials & Interfaces,2014,6(3):1632-1639.

[48] Wang J Z,Manga K K,Bao Q L,et al. High-yield synthesis of few-layer graphene flakes through electrochemical expansion of graphite in propylene carbonate electrolyte[J]. Journal of the American Chemical Society,2011,133(23):8888-8891.

[49] Dato A,Radmilovic V,Lee Z,et al. Substrate-free gas-phase synthesis of graphene sheets[J]. Nano Letters,2008,8(7):2012-2016.

[50] Münzer A,Xiao L S,Sehlleier Y H,et al. All gas-phase synthesis of graphene:Characterization and its utilization for silicon-based lithium-ion batteries[J]. Electrochimica Acta,2018,272:52-59.

[51] 张芬红. 石墨烯的制备方法:CN107827098A [P]. 2018-03-23.

[52] 洪若瑜,高茂川,王为旺,等. 一种石墨烯制备方法:CN108557809A [P]. 2018-09-21.

[53] Wang C,Sun L,Dai X Y,et al. Continuous synthesis of graphene nano-flakes by a magnetically rotating arc at atmospheric pressure[J]. Carbon,2019,148:394-402.

[54] Lin L,Peng H L,Liu Z F. Synthesis challenges for graphene industry[J]. Nature Materials,2019,18(6):520-524. uWQyLsFsVWyU9ypjNrzYJD9FnGtjDUeXte6KPTpcsKwa56DXlniTsZpb4n9jB232

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