[1] 白波,孟露,索有瑞,等.水热制备葡萄糖炭-涤纶复合纤维及其吸附性能研究[J].材料导报:研究篇,2018,32(3):881-887.
[2] Liu R,Li C,Gao H,et al.Dopamine as a carbon source:the controlled synthesis of hollow carbon spheres and Yolk-structured carbon nanocomposites[J].Angewandte Chemie International Edition,2011,50(30):6799-6802.
[3] Li X,Cao W C,Liu Y G,et al.Property variation of magnetic mesoporous carbon modified by aminated hollow magnetic nanospheres:synthesis,characterization and sorption[J].ACS Sustainable Chemistry & Engineering,2016,5(1):179-188.
[4] Zhao Q L,Wang X Y,Wu C,et al.Supercapacitive performance of hierarchical porous carbon microspheres prepared by simple one-pot method[J].Journal of Power Sources,2014,254:10-17.
[5] Wang L L,Cao W W,Wang X,et al.Biodegradable silver-loaded polycation modified nanodiamonds/polyurethane scaffold with improved antibacterial and mechanical properties for cartilage tissue repairing[J].Journal of Materials Science:Materials in Medicine,2019,4(30):41.
[6] 陈秀娟,余国云,王安耸,等.微米级碳微球载体的制备[J].兰州理工大学学报,2018,44(1):6-10.
[7] Cai Q,Huang Z H,Kang F Y,et al.Preparation of activated carbon microspheres from phenolic-resin by supercritical water activation[J].Carbon,2004,42(4):775-783.
[8] 郑经堂,张引枝,王茂章.多孔炭材料的研究进展及前景[J].化学进展,1996,8(3):241-250.
[9] 姜前蕾,贾梦秋,薛锐生,等.聚苯胺改性对MCMB电极性能的影响[J].电源技术,2007,31(1):38-40.
[10] Kumar S,Kothari U,Kong L Z,et al.Hydrothermal pretreatment of switchgrass and corn stover for production of ethanol and carbon microspheres[J].Biomass and Bioenergy,2011,35(2):956-968.
[11] 李赛赛,李发亮,段红娟,等.水热碳化法制备单分散碳微球[J].稀有金属材料与工程,2018,47(增刊1):142-146.
[12] 白波,党昱,何云华,等.酵母基多孔炭微球的热裂解制备及其吸附性能研究[J].材料导报,2013,27(7):53-57.
[13] 梁吉雷,李士斌,滕传亮,等.生物质水热合成炭微球研究进展[J].化工新型材料,2011,39(4):1-4.
[14] Zheng M,Liu Y L,Jiang K M,et al.Ahol-assisted hydrothermal carbonization to fabricate spheroidal carbons with a tunable shape and aspect ratio[J].Carbon,2010,48(4):1224-1233.
[15] 蒋国民,魏静,褚云,等.水热碳化法制备碳微球[J].功能材料,2014,45(增刊Ⅱ):136-139.
[16] 高兵祥,曹志强,叶锋,等.分步水热热解合成单分散碳微球[J].化工新型材料,2017,45(12):89-45.
[17] Zheng M T,Liu Y L,Zhu Y,et al.An easy catalyst-free hydrothermal method to prepare monodisperse carbon microspheres on a large scale[J].The Journal of Physical Chemistry C,2009,113(19):8455-8459.
[18] Lu A H,Sun T,Li W C,et al.Synthesis of discrete and dispersible hollow carbon nanospheres with high uniformity by using confined nanospace pyrolysis[J].Angewandte Chemie International Edition,2011,50(49):11765-11768.
[19] 蔡婷婷,张梦莹,刘镕玮,等.碳微球的水热法制备与表征[J].信息记录材料,2017,18(8):49-50.
[20] 曾旭.纳米碳微球的水热合成及其应用的研究进展[J].生物化工,2018.4(1):91-93.
[21] Ni D Z,Sun Y H,Guan Z R,et al.Amphiphilic hollow carbonaceous microspheres with permeable shells[J].Angewandte Chemie International Edition,2010,49(25):4223-4227.
[22] Zhang B H,Ren J W,Liu X H,et al.A method for the preparation of activated carbon based carbon/carbonaceous composites with controllable surface functionality[J].Journal of Porous Materials,2010,18(6):743-750.
[23] Qu L L,Luo Z J,Tang C.One step synthesis of Bi@Bi2O3@carboxylate-rich carbon spheres with enhanced photocatalytic performance[J].Materials Research Bulletin,2013,48(11):4601-4605.
[24] Jin K,John V,Pesika N S,et al.Carbon microspheres as ball bearings in aqueous-based lubrication[J].ACS Applied Materials Interfaces,2011,3(7):2215-2218.
[25] Sun S T,Wu P Y.A one-step strategy for thermal-and pH-responsive graphene oxide interpenetrating polymer hydrogel networks[J].Journal of Materials Chemistry,2011,21(12):4095-4097.
[26] Thillaiyan R,Fisher F T,Ruoff R,et al.Amino-functionalized carbon nanotubes for binding to polymers and biological systems[J].Chemistry of Materials,2005,17(6):1290-1295.
[27] Mangun C L,Benak K R,Economy J,et al.Surface chemistry,pore sizes and adsorption properties of activated carbon fibers and precursors treated with ammonia[J].Carbon,2001,39:1809-1820.
[28] Yang G,Chen H L,Qin H D,et al.Amination of activated carbon for enhancing phenol adsorption:effect of nitrogen-c ontaining functional groups[J].Applied Surface Science,2014,293:299-305.
[29] Dhaouadi A,Monser L,Adhoum N.Removal of rotenone insecticide by adsorption onto chemically modified activated carbons[J].Journal of Hazardous Materials,2010,181(1-3):692-699.
[30] 杨永珍,宋静静,李勇,等.1,6-己二胺对碳微球的功能化修饰[J].化工学报,2012,63(10):3350-3357.
[31] 赵雪霞,宋静静,杨永珍,等.十二胺对碳微球的功能化修饰[J].功能材料,2013,44(9):1332-1337.
[32] Tang J S,Huang X H,Xiang L.Removal of formaldehyde using the aminated activated carbon by etilenodiamina[J].Advanced Materials Research,2011,311-313:1522-1526.
[33] 王晓明,刘方毅,姜向民.酰胺化碳微球的制备及其对铀的吸附性能影响[J].化工新型材料,2016,44(10):130-133.
[34] Sun Y F,Zhao L J,Jiang T J,et al.Sensitive and selective electrochemical detection of heavy metal ions using amino-functionalized carbon microspheres[J].Journal of Electroanalytical Chemistry,2016,760:143-150.
[35] Abe M,Kawashima K,Kozawa K,et al.Amination of activated carbon and adsorption characteristics of its aminated surface[J].Langmuir,2000,16(11):5059-5063.
[36] Tanada S,Kawasaki N,Nakamura T,et al.Removal of formaldehyde by activated carbons containing amino groups[J].Journal of Colloid and Interface Science,1999,214:106-108.
[37] 李双,陈风春,曾荣华,等.电导滴定法测定氨基化磁性微球表面氨基含量[J].解放军预防医学杂志,2015,33(2):124-126.
[38] Liu X B,Xie X X,Yan H,et al.A review of the adsorption of organic pollutants on mesoporous carbons and carbon/silica hybrids[J].Carbon,2013,64:557-559.
[39] Deng S B,Niu L,Bei Y,et al.Adsorption of perfluorinated compounds on aminated rice husk prepared by atom transfer radical polymerization[J].Chemosphere,2013,91(2):124-130.
[40] Moussavi G,Hosseini H,Alahabadi A.The investigation of diazinon pesticide removal from contaminated water by adsorption onto NH4Cl-induced activated carbon[J].Chemical Engineering Journal,2013,214:172-179.
[41] Cheng W,Dastgheib S A,Karanfil T.Adsorption of dissolved natural organic matter by modified activated carbons[J].Water Research,2005,39(11):2281-2290.
[42] 谭腾飞,闫碌碌,廉优芬,等.氨基功能化碳材料的水热制备及其对活性艳红K-2BP的吸附性能[J].环境工程学报,2014,8(10):4122-4128.
[43] Liao K S,Wan A,Batteas J D,et al.Superhydrophobic surfaces formed using layer-by-layer self-assembly with aminated multiwall carbon nanotubes[J].Langmuir,2008,24(8):4245-4253.
[44] Chen H L,Yang G,Feng Y J,et al.Biodegradability enhancement of coking wastewater by catalytic wet air oxidation using aminated activated carbon as catalyst[J].Chemical Engineering Journal,2012,198-199:45-51.