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王军凯(博士)
时间: 2023-08-29 次数:

基本信息

王军凯博士.png

姓名:王军凯

性别:男

出生年月:1988年9月

最终学历(学位):博士

职称:讲师

联系方式:15839159702

邮箱:jkwang@hpu.edu.cn

教育(工作)经历:

2009.9-2013.6洛阳理工学院材料科学与工程学院 无机非金属专业 本科

2013.9-2018.6武汉科技大学 材料与冶金学院 材料科学与工程专业硕博连读

2018.7-今 河南理工大学 材料科学与工程学院 材料学系 教师

教学情况:

主讲《纳米材料》、《耐火材料》、《先进功能材料》等本科生及研究生课程。

科研领域:

1.基于第一性原理(密度泛函理论)的分子模拟

2.金属纳米催化剂的制备与性能

3.新型耐火材料结构与性能

科研成果:

2014年以来在Green Chemistry(Impact Factor:10.182)、Applied Catalysis B: Environmental (Impact Factor: 19.503)、Carbon (Impact Factor:9.594)等国内外学术刊物发表论文93篇,其中被SCI收录35篇,申报国家发明专利7项。主持包括国家自然科学基金青年基金在内的纵向项目6项,并参与国家自然科学基金2项。担任分子科学学报、Carbon、Waste Management、Ceramics International、Diamond、Journal of Molecular Graphics and Modelling、Journal of the Chemical Society of Pakistan、Fresenius Environmental Bulletin等国内外重要刊物审稿人。

科研项目:

[1]2022-2024年,国家自然科学基金青年基金,52102017,碳纳米管改性超疏水镁钙系耐火材料的催化制备及其抗水化性能研究,主持,30万元。

[2]2019-2023年,河南理工大学博士基金,B2019-40,锆英石低温催化合成ZrB2-SiC复合粉体及其机理研究,主持,8万元。

[3]2022-2023年,河南省博士后项目启动资助,2020SZZ02,MXene基单原子催化剂催化甲烷转化甲醇的理论计算与实验研究,主持,10万元。

[4]2019-2021年,省部共建耐火材料与冶金国家重点实验室开放基金,G201904,催化裂解废弃塑料制备碳纳米管复合低碳耐火材料,主持,5万元。

[5]2021-2022年,河南省科技攻关计划,主持,无经费资助。

[6]2022-2023年,河南省高等学校重点科研项目,NSFRF220410,主持,6万元。

[7]2015年-2018年,国家自然科学基金面上项目,51472184,原位催化制备碳纳米管复合低碳MgO-C耐火材料及其高温使用性能,参与,83万元。

[8]2016年-2018年,国家自然科学基金青年项目,51502216,微波熔盐氮化法合成α-Si3N4粉体及反应机理研究,参与,20万元。

研究成果:

论文:

[1]Wang J, Huang Z, Lu L, Jia Q, Huang L, Chang S, Zhang M, Zhang Z, Li S, He D, Wu W, Zhang S, Toshima N, Zhang H. Colloidal Co single-atom catalyst: a facile synthesis strategy and high catalytic activity for hydrogen generation [J]. Green Chemistry, 2020, 22(4): 1269-1274.

[2]HeH,WangJ, XiaQ, WangL, HuQ, ZhouA.Effect of electrolyte on supercapacitor performance of two-dimensional molybdenum carbide (Mo2CTx) MXene prepared by hydrothermal etching[J].Applied Surface Science,2021, 568: 150971.

[3]LvX, ZhangS,WangJ, WangM, ShanJ, ZhouS. Charge controlled capture/release of CH4on Nb2CTxMXene: A first-principles calculation[J].Journal of Molecular Graphics and Modelling,2022, 110: 108056.

[4]LiY,WangJ, DuanH, HanL, JiaQ, LiuX, ZhangS, ZhangH.Catalytic preparation of carbon nanotube/SiC whisker bonded low carbon MgO–C refractories and their high-temperature mechanical properties[J].Ceramics International, 2022,48(04):5546-5556.

[5]HanL, Ahmed M.E. Khalil,WangJ,ChenY, LiF, ChangH, ZhangH, LiuX, LiG, JiaQ, ZhangS.Graphene-boron nitride composite aerogel: A high efficiency adsorbent for ciprofloxacin removal from water[J].Separation and Purification Technology,2022, 278: 119605.

[6]YangJ, WangT, YanB, ZhangY,WangJ, PanW.Molecular-level insights into efficient immobilization of gas-phase elemental mercury by zinc selenide[J].Applied Surface Science,2021,537: 147913.

[7]ZhangS, LvX,WangJ, WangT, ShanJ.Catalytic oxidation of CH4into CH3OH using C24N24?supported single?atom catalyst[J].Journal of Molecular Modeling,2021, 27: 346.

[8]LeiC, XiaoG, DingD, ShanJ,WangJ, ZangY, ChenJ, QuJ.One-step synthesis of core–shell structured CNFs@CAC with excellent water wettability and oxidation resistance[J].Applied Surface Science,2022, 573: 151497.

[9]ShanJ, WangX,WangJ, ZhangS, HuQ, ZhouA.Electric field controlled separation and capture of CO2over S-doped graphene: a first-principles calculation[J].Journal of the Chemical Society of Pakistan, 2021,43(06): 623-634.

[10]霍英菲,黄珍霞,王军凯,王雪晴,胡前库,周爱国.电场作用下P掺杂硅烯选择性吸附CH4的第一性原理计算[J].原子与分子物理学报,2021, 38(04): 47-54.

[11]张世轩,王岚,王向岭,张淑洁,邢盈盈,王军凯.电场作用下S修饰C24N24从CO2/N2混合气体中选择性吸附CO2的第一性原理计算[J].原子与分子物理学报,2022, 39(02): 7-15.

[12]闪静祎,王军凯,于书敏,张晶晶,袁一博,夏启勋,胡前库,周爱国.电荷调控下Ti3C2O2和V2CO2吸附CH4的第一性原理计算[J].原子与分子物理学报,2021, 38(06): 33-41.

[13]孟浩,李得生,王向领,王军凯.五角石墨烯吸附H2S的第一性原理计算[J].原子与分子物理学报,2022, 39(03): 73-79.

[14]于书敏,王岚,齐礼磊,邢盈盈,张淑洁,吕晓静,李晓璐,王军凯.金属修饰Ti2N MXene吸附分解H2S的第一性原理计算[J].分子催化,2021, 35(04): 343-352.

[15]闪静祎,黄珍霞,王军凯,李韬,周轩,邢盈盈.Fe、Co及Ni单掺3C-SiC力学性能的第一性原理计算[J].耐火材料, 2021,55(06): 476-482.

[16]马沛原,王军凯,邢静怡,王向领.碳纳米锥吸附Na的第一性原理计算[J]. 2022, 39(5): 051008.

[17]Yang J, Wang T, Yan B, Zhang Y,Wang J, Pan W-P. Molecular-level insights into efficient immobilization of gas-phase elemental mercury by zinc selenide [J]. Applied Surface Science, 2021, 537:147913.

[18]闪静祎,王军凯,黄珍霞,戴新宇,胡前库,周爱国.外电场对水在CaO(100)表面吸附的第一性原理计算[J].耐火材料, 2021, 55(1): 44-50.

[19]Ke D, Pan Y, Wu T,Wang J, Xu X, Pan Y. Effect of W/B atomic ratio on the microstructure and mechanical properties of WCoB-TiC ceramic composites: first-principles calculations and experiment [J]. Journal of Materials Research and Technology, 2020, 9(4): 8744-8753.

[20]郭奕彤,王军凯,胡前库,王李波,周爱国.以氢化钛为钛源制备高纯Ti2AlN粉体及刻蚀行为[J].功能材料, 2020, 51(05): 5103-5110.

[21]Li J, Tian L, Liang F,Wang J, Han L, Zhang J, Ge S, Dong L, Zhang H, Zhang S. Molten salt synthesis of hierarchical porous N-doped carbon submicrospheres for multifunctional applications: High performance supercapacitor, dye removal and CO2capture[J]. Carbon, 2019, 141: 739-747.

[22]Tian L, Li J, Liang F,Wang J, Li S, Zhang H, Zhang S. Molten salt synthesis of tetragonal carbon nitride hollow tubes and their application for removal of pollutants from wastewater [J]. Applied Catalysis B: Environmental, 2018, 225: 307-313.

[23]Song J, Zhang H,Wang J, Huang L, Zhang S. High-yield production of large aspect ratio carbon nanotubes via catalytic pyrolysis of cheap coal tar pitch [J]. Carbon, 2018, 130: 701-713.

[24]Han L,Wang J, Li F, Wang H, Deng X, Zhang H, Zhang S. Low-temperature preparation of Si3N4whiskers bonded/reinforced SiC porous ceramics via foam-gelcasting combined with catalytic nitridation [J]. Journal of the European Ceramic Society, 2018, 38(4), 1210-1218.

[25]Wang J, Zhang Y, Li J, Zhang H, Song S, Zhang S. Catalytic effect of cobalt on microwave synthesis of beta-SiC powder [J]. Powder Technology, 2017, 317: 209-215.

[26]Wang J, Deng X, Zhang H, Zhang Y, Duan H, Lu L, Song J, Tian L, Song S, Zhang S. Synthesis of carbon nanotubes via Fe-catalyzed pyrolysis of phenolic resin [J]. Physica E: Low-dimensional Systems and Nanostructures, 2017, 86: 24-35.

[27]Wang J, Zhang Y, Zhang H, Han L, Bi Y, Wang H, Song S, Zhang S. Low temperature catalytic synthesis of SiC nanopowder from liquid phenolic resin and diatomite [J]. Advances in Applied Ceramics, 2018, 117(3): 147-154.

[28]王军凯,张远卓,李俊怡,张海军,李发亮,韩磊,宋述鹏.微波加热催化反应低温制备β-SiC粉体[J].无机材料学报, 2017, 32(7): 725-730.

[29]王军凯,韩磊,黄亮,张海军,李俊怡,李赛赛.催化反应制备碳化硅纳米粉体的密度泛函理论计算及实验研究[J].高等学校化学学报, 2017, 38(9): 1602-1610.

[30]Han L, Li F, Deng X,Wang J, Zhang H, Zhang S. Foam-gelcasting preparation, microstructure and thermal insulation performance of porous diatomite ceramics with hierarchical pore structures [J]. Journal of the European Ceramic Society, 2017, 37(7): 2717-2725.

[31]Deng X,Wang J, Liu J, Zhang H, Han L, Zhang S. Low cost foam-gelcasting preparation and characterization of porous magnesium aluminate spinel (MgAl2O4) ceramics [J]. Ceramics International, 2016, 42(16): 18215-18222.

[32]Deng X,Wang J, Liu J, Zhang H, Li F, Duan H, Lu L, Huang Z, Zhao W, Zhang S. Preparation and characterization of porous mullite ceramics via foam-gelcasting [J]. Ceramics International, 2015, 41(7): 9009-9017.

[33]Zhao W, Liang F, Liu J, Zhang H, Deng X,Wang J, Tian L, Zhang S. Enhanced nitridation of silicon powders using in-situ formed La2O3nanoparticles as catalysts[J]. Journal of the Ceramic Society of Japan, 2018, 126(7): 510-515.

[34]Zheng Y, Zhang H, Ge S, Song J,Wang J, Zhang S. Synthesis of carbon nanotube arrays with high aspect ratio via Ni-catalyzed pyrolysis of waste polyethylene[J]. Nanomaterials, 2018, 8(7): 556.

[35]Deng X G,Wang J K, Zhang H J, Liu J H, Zhao W G, Huang Z, Zhang S W. Effects of firing temperature on the microstructures and properties of porous mullite ceramics prepared by foam-gelcasting [J]. Advances in Applied Ceramics, 2016, 115(4): 204-209.

[36]曹迎楠,王军凯,张海军,李发亮,鲁礼林,张少伟.溶胶凝胶、硼热/碳热还原制备ZrB2-SiC超细复合粉体[J].稀有金属与材料工程, 2015, 44(S1): 706-709.

[37]Li S, Liang F,Wang J, Zhang H, Zhang S. Preparation of mono-dispersed carbonaceous spheres via a hydrothermal process [J]. Advanced Powder Technology, 2017, 28(10): 2648-2657.

[38]Bi Y, Wang H, Huang L,Wang J, Zhang H, Zhang S. In-situ catalytic preparation and characterization of SiC nanofiber coated graphite flake with improved water-wettability [J]. Ceramics International, 2017, 43(17): 15755-15761.

[39]Tan C, Liu J, Zhang H,Wang J, Li S, Song J, Zhang Y, Zhang S. Low temperature synthesis of 2H-SiC powders via molten-salt-mediated magnesiothermic reduction [J]. Ceramics International, 2017, 43(2): 2431-2437.

[40]Deng X, Du S, Zhang H, Li F,Wang J, Zhao W, Liang F, Huang Z, Zhang S. Preparation and characterization of ZrB2-SiC composite powders from zircon via microwave-assisted boro/carbothermal reduction [J]. Ceramics International, 2015, 41(10): 14419-14426.

[41]Li S, Liu J,Wang J, Zhu Qing, Zhao X, Zhang H, Zhang S. Fabrication of graphitic carbon spheres and their application in Al2O3-SiC-C refractory castables [J]. International Journal of Applied Ceramic Technology, 2018, 15(5): 1166-1181.

[42]Wang J, Deng X, Zhang H, Cheng F, Li F, Zhang S. Large-Scale preparation of carbon nanotubes via catalytic pyrolysis of phenolic resin at low temperature [J]. InterCeram: International Ceramic Review, 2015, 64(3): 86-89.

[43]Wang J, Deng X, Zhang H, Li F, Tan C, Han L, Zhang S. Synthesis of carbon nanotubes from phenolic resin using nickel nitrate as a catalyst precursor [J]. Key Engineering Materials, 2016, 697: 691-694.

[44]王军凯,杜爽,邓先功,张海军,李发亮,段红娟,张少伟.硼热/碳热还原反应合成ZrB2-SiC复合粉体及其抗氧化性能[J].硅酸盐学报, 2015, 43(9): 1197-1202.

[45]王军凯,李俊怡,梁峰,张海军,谭操,宋健波,韩磊,田亮,张少伟.以酚醛树脂为碳源低温催化反应合成碳化硅粉体[J].硅酸盐学报, 2016, 44(12): 1798-1804.

[46]王军凯,张海军,梁峰,谭操,李赛赛,宋健波,韩磊,黄珍霞.孔结构对热解酚醛树脂制备碳纳米管的影响[J].硅酸盐学报, 2017, 45(3): 416-421.

[47]王军凯,张远卓,李赛赛,葛胜涛,宋健波,张海军. Fe催化硅藻土碳热还原反应制备3C-SiC及其机理.材料研究学报, 2018, 32(10): 767-774.

[48]王军凯,邓先功,张海军,韩磊,李赛赛,宋健波.以酚醛树脂和硅藻土为原料低温催化反应合成碳化硅粉体.稀有金属材料与工程, 2018, 47(S1): 95-98.

[49]Wang J, Deng X, Zhang H, Duan H, Cheng F, Zhang S. Low temperature catalytic graphitization of phenolic resin using a Co-Ni bimetallic catalyst [J]. InterCeram: International Ceramic Review, 2016, 24-27.

[50]王军凯,邓先功,张海军,段红娟,操谭,宋健波,张少伟.通过硝酸镍催化热解酚醛树脂制备碳纳米管[J].机械工程材料, 2016, 40(8): 30-33.

[51]王军凯,邓先功,张海军,李发亮,宋健波,田亮,张少伟.碳纳米管增强碳复合耐火材料的研究进展[J].耐火材料, 2016, 50(2): 150-154,157.

[52]王军凯,程峰,韩磊,李赛赛,葛胜涛,宋健波,张海军. ZrB2/SiC质量比对ZrB2-SiC/MgO-C低碳耐火材料性能的影响.机械工程材料, 2018, 42(4): 68-72.

[53]王军凯,邓先功,张海军,梁峰,赵万国,张少伟.硝酸铁催化酚醛树脂制备碳纳米管[J].耐火材料, 2015, 49(增刊4): 571-573.

[54]Deng X,Wang J, Huang Z, Zhao W, Li F, Zhang H. Research progress in preparation of porous ceramics [J]. InterCeram: International Ceramic Review, 2015, 64(3): 100-103.

[55]Deng X,Wang J, Zhang H, Liu J, Zhang S. Synthesis and characterization of magnesium aluminate spinel porous ceramics by novel molten salt method [J]. Key Engineering Materials, 2016, 697: 399-403.

[56]程峰,王军凯,谭操,段红娟,李发亮,梁峰,张海军,张少伟.以Fe2O3为催化剂制备氧化镁晶须[J].硅酸盐学报, 2017, 45(3): 459-466.

[57]邓先功,王军凯,杜爽,曹迎楠,李发亮,张海军,张少伟.发泡法、三维打印法、熔盐法制备多孔陶瓷[J].材料导报, 2015, 29(9): 109-116.

[58]邓先功,王军凯,张海军,李发亮,赵万国,黄仲,张少伟.莫来石晶须的制备及其生长机理[J].硅酸盐学报, 2016, 44(6): 903-909.

[59]李赛赛,王军凯,段红娟,李发亮,张海军.水热碳化制备碳微球及其在Al2O3-SiC-C浇注料中的应用[J].硅酸盐学报, 2018, 46(3): 341-346.

[60]李赛赛,王军凯,王慧芳,黄亮,张海军.葡萄糖水热碳化催化热处理制备石墨微球[J].硅酸盐学报, 2017, 45(12): 1843-1852.

[61]黄珍霞,梁峰,王军凯,张海军,刘思敏,李赛赛,张少伟.钴纳米颗粒催化酚醛树脂制备碳纳米管[J].硅酸盐学报, 2016, 44(9): 1388-1394.

[62]李赛赛,曹迎楠,王军凯,梁峰,段红娟,张海军.水热碳化法制备碳纳米材料[J].材料导报, 2016, 30(9): 17-23, 35.

[63]邓先功,孔德成,王军凯,李发亮,段红娟,张海军,张少伟.熔盐法低温合成ZrB2-ZrC-SiC复合粉体的研究[J].人工晶体学报, 2015, 44(11): 3265-3269.

[64]谭操,段红娟,王军凯,张海军,刘江昊.熔盐镁热还原法合成ZrB2超细粉体[J].材料导报, 2017, 31(8): 109-112.

[65]田亮,梁峰,赵万国,王军凯,张海军.一维SiAlON的合成及其生长机理[J].材料导报, 2017, 31(13): 120-125.

[66]葛胜涛,邓先功,毕玉保,王军凯,李赛赛,韩磊,张海军.多级孔材料研究进展.材料导报, 2018, 32(13): 2195-2201, 2213.

[67]葛胜涛,谭操,段红娟,刘江昊,毕玉保,王军凯,郑扬帆,张海军.熔盐镁热还原制备SiC纳米粉体及其氧化动力学研究.硅酸盐学报, 2018, 46(6): 813-817.

[68]曹迎楠,王军凯,张海军,李发亮,段红娟,梁峰,张少伟.溶胶-凝胶法和硼热-碳热还原合成ZrB2空心球粉体[J].耐火材料, 2016, 50(1): 20-24.

[69]程峰,王军凯,李发亮,张海军,张少伟.低碳镁碳耐火材料的研究进展[J].耐火材料, 2015, 49(5): 394-400.

[70]李俊怡,王军凯,韩磊,田亮,张海军.以Fe为催化剂低温碳化反应合成SiC粉体[J].陶瓷学报, 2017, 38(5): 722-725.

[71]韩磊,邓先功,王军凯,梁峰,张海军. SiC复相多孔陶瓷的研究进展[J].耐火材料, 2017, 51(3): 227-234, 240.

[72]韩磊,梁峰,王军凯,邓先功,张海军.发泡法制备硅藻土多孔陶瓷及性能研究[J].耐火材料, 2017, 51(5): 334-338.

[73]李赛赛,曹迎楠,王军凯,梁峰,李发亮,张海军,张少伟.水热碳化制备单分散碳微球[J].耐火材料, 2015, 49(S4): 577-581.

[74]宋健波,张海军,王军凯,张少伟.碳纳米管增强陶瓷基复合材料的研究现状[J].耐火材料, 2017, 51(2): 152-156, 160.

[75]宋健波,张海军,王军凯,张少伟.硝酸钴催化热解沥青制备碳纳米管[J].陶瓷学报, 2017, 38(5): 631-634.

[76]王慧芳,毕玉保,王军凯,段红娟,张海军. SiC晶须合成方法的研究进展[J].耐火材料, 2016, 50(5): 389-392, 400.

[77]李赛赛,梁峰,李发亮,王军凯,宋健波,张海军.葡萄糖水热炭化制备单分散炭微球的工艺优化研究[J].耐火材料, 2017, 51(1): 32-36.

[78]田亮,梁峰,张杰峰,王军凯,谭操,张海军,张少伟.熔盐氮化法低温合成AlN粉体[J].陶瓷学报, 2017, 38(3): 352-355.

[79]赵万国,古亚军,李发亮,王军凯,张海军,张少伟.催化氮化制备氮化硅粉体[J].硅酸盐通报, 2016, 35(4): 1106-1113, 1143.

[80]刘慧歌,段红娟,张海军,李赛赛,王军凯.水热法制备纳米AlOOH晶须[J].陶瓷学报, 2017, 38(4): 486-489.

[81]赵万国,张海军,梁峰,王军凯,邓先功,张少伟.两步沉淀法制备纳米Cr2O3粉体的研究[J].耐火材料, 2016, 50(1): 33-37.

[82]郑扬帆,梁峰,田亮,王军凯,张海军.催化热解三聚氰胺合成竹节状氮掺杂碳纳米管.机械工程材料, 2018, 42(4): 27-30.

[83]韩磊,王军凯,邓先功,葛胜涛,张海军.硅酸钠用量对硅藻土多级孔陶瓷耐压强度的影响.机械工程材料, 2018, 42(4): 73-77.

[84]葛胜涛,程峰,毕玉保,李赛赛,谭操,王军凯,张海军. ZrB2-SiC复合粉体加入量对低碳镁碳耐火材料性能的影响.机械工程材料, 2018, 42(10): 67-71.

[85]张远卓,宋述鹏,龚铁夫,王军凯,张海军. Au/Ag/Ni三金属纳米溶胶的催化制氢性能研究[J].武汉科技大学学报, 2019, 42(2): 95-99.

[86]郑扬帆,王军凯,李赛赛,宋健波,张海军.高分子塑料催化裂解制备碳纳米管的研究进展[J].耐火材料, 2018, 52(4): 304-309, 314.

[87]邓先功,王军凯,张海军,李发亮,韩磊,张少伟.莫来石柱晶的制备及其生长机理.稀有金属材料与工程, 2018, 47(S1): 32-36.

[88]赵万国,张海军,段红娟,王军凯,邓先功,张少伟. Y2O3纳米颗粒催化氮化Si粉制备Si3N4粉体.稀有金属材料与工程, 2018, 47(S1): 99-102.

[89]李赛赛,李发亮,段红娟,王军凯,张海军.水热碳化法制备单分散碳微球.稀有金属材料与工程, 2018, 47(S1): 142-146.

[90]Cao Y-N, Du S,Wang J-K, Zhang H, Li F-L, Lu L-L, Zhang S-W, Deng X-G. Preparation of zirconium diboride ultrafine hollow spheres by a combined sol-gel and boro/carbothermal reduction technique [J]. Journal of Sol-Gel Science and Technology, 2014, 72(1): 130-136.

[91]Wang J, Deng X, Du S, Cheng F, Li F, Lu L, Zhang H. Carbon nanotube reinforced ceramic composites: A review [J]. InterCeram: International Ceramic Review, 2014, 63(6): 286-289.

[92]Wang J, Deng X, Faliang L I, Zhang H, Zhang S. Recent progress of carbon nanotubes reinforced MgO-C and Al2O3-C refractories [J]. China’s Refractories, 2014, 23(4): 16-21.

[93]Deng X,Wang J, Du S, Li F, Lu L, Zhang H. Fabrication of porous ceramics by direct foaming [J]. InterCeram: International Ceramic Review, 2014, 63(3): 104-108.

专利:

[1]张海军;邓先功;王军凯;李发亮;张少伟;周国红;高宏伟,一种莫来石多孔陶瓷及其制备方法, 2017.01.11,中国, ZL201410694716.6

[2]张海军;邓先功;王军凯;张少伟;段红娟,一种凝胶注模成型陶瓷坯体及其制备方法, 2014.11.27,中国, CN201410695184.8

[3]张海军;韩磊;王军凯;张少伟,一种碳量子点及其制备方法, 2017.05.12,中国, CN201710335432.1

[4]张海军;韩磊;邓先功;王军凯;张少伟,一种氮化硅晶须结合碳化硅多孔陶瓷及其制备方法, 2016.10.17,中国, CN201610903797.5

[5]张海军;李赛赛;张少伟;刘江昊;王军凯;葛胜涛,一种以石墨微球为碳源的铝碳浇注料及其制备方法, 2018.01.12,中国, CN201810032096.8

[6]张海军;王慧芳;毕玉保;韩磊;李赛赛;王军凯;张少伟,一种碳化硅-石墨烯复合粉体及其制备方法, 2017.07.06,中国, CN201710548376.X

[7]张海军;宋健波;张少伟;王军凯;韩磊,一种高长径比碳纳米管及其制备方法, 2018.01.15,中国, CN201810036320.0

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