张斌 - 内蒙古科技大学 - 机械工程学院

个人简介

张斌，男，1982年8月生，甘肃省静宁人，汉族，博士，中国科学院兰州化学物理研究所，研究员，博士生导师。中国科学院材料磨损与防护重点实验室主任助理。学习经历 2001年09月-2005年06月在兰州大学材料物理专业攻读本科，获学士学位； 2006年09月-2011年06月在中国科学院兰州化学物理研究所材料学专业硕博连读，获工学博士学位；工作经历 2020年09月-至今在内蒙古科技大学兼任硕士生导师。 2011年07月-至今，在中国科学院兰州化学物理研究所任职；历任助理研究员、项目副研究员、副研究员、项目研究员（硕士生导师）、研究员（博士生导师）等。研究内容：（1）碳基薄膜超滑体系的构筑及机制研究；（2）碳基导电耐蚀耐磨薄膜的设计及机理研究；（3）渗注镀一体化碳基薄膜及固油复合润滑研究。承担的科研项目 (1) 国家自然科学基金国际合作与交流项目/纵向项目，激光/等离子束改性对丁腈橡胶表面沉积类富勒烯碳薄膜结构和摩擦学的影响（5202291035），2019.01-2020.12，负责人 (2) 中国科学院“青年创新促进会”人才项目/纵向项目，超低摩擦碳薄膜制备、摩擦机制及工程化工艺装备及技术，（2017459）， 2017.01-2020.12 (3) 高压共轨关键零部件超低摩擦碳薄膜技术及系统集成，工信部“工业强基工程”项目（TC180A3Y1/16），2018.09-2021.12 授权专利 (1) 张俊彦，王兆龙，张斌，高凯雄，王永富，王彦，一种高压干气密封装置用分形织构化碳膜的制备方法，ZL 201711360984.4， (2) 张俊彦，王永富，高凯雄，张斌，一种摩擦界面原位形成石墨烯和洋葱实现超滑的方法，ZL 201711360852.1， (3) 张斌，张俊彦，强力，高凯雄，王健，一种磁控溅射制备超硬超光滑四面体碳薄膜的装置与方法，ZL 201510705271.1 (4) 张斌，张俊彦，强力，高凯雄，王健，箍缩磁场辅助磁控溅射镀膜装置，ZL 201510705329.2 (5) 张斌，张俊彦，高凯雄，强力，龚珍彬，低温气相沉积洋葱结构碳基超润滑薄膜的方法，ZL 201410819178.9 (6) 张斌，张俊彦，高凯雄，强力，王健，阳极场辅磁控溅射镀膜装置，ZL 201510704469.8 (7) 张俊彦，曹忠跃，强力，张斌，大气环境下超滑纳米晶非晶碳薄膜的制备方法， ZL 201610371967.X具高功率脉冲离子源的磁控溅射装置，ZL 201510708221.9，张斌，张俊彦，高凯雄，强力，王健，2018.06.29 (8) 高凯雄，张俊彦，张斌，强力，王健，一种多层复合类富勒烯薄膜在汽车发动机上产业化的方法，ZL 201510705272.6， 2017.06.23 (9) 张俊彦，张斌，柱塞表面类金刚石薄膜批量化沉积方法，ZL 201210550894.2 (10) 高凯雄，张俊彦，张斌，强力，合金工具钢柱塞表面批量化沉积类富勒烯碳薄膜的方法， ZL 201410429173.5 (11) 张俊彦，张斌，强力，杨涛，郑愉，在金属内表面制备类金刚石碳膜的方法，ZL 201110427990.3 所获荣誉 (1) 低摩擦固体润滑碳薄膜关键技术及产业化，国家科技进步二等奖，张俊彦、张克金、张斌、米新艳、龙美彪、高凯雄、黄民备、彭龙、王丹、强力，2019年12月18日 (2) 强韧与润滑一体化碳基薄膜关键技术与工程应用，国家技术发明二等奖，王立平，张俊彦，蒲吉斌，薛群基，张斌，阎兴斌，2016年12月21日 (3) 低摩擦固体润滑碳薄膜关键技术及产业化应用，中国机械工业科学技术奖一等奖，张俊彦、张克金、张斌、米新艳、龙美彪、高凯雄、黄民备、彭龙、王丹、强力、涂选举、王永富、龚珍彬、崔新然、曹婷婷，2018年12月25日 (4) 强韧与润滑一体化碳基薄膜关键技术与工程应用，甘肃省技术发明一等奖，王立平，张俊彦，蒲吉斌，薛群基，张斌，阎兴斌，2016年1月29日

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(1) Super-Lubricious, Fullerene-like, Hydrogenated Carbon Films, in: Fullerenes and Relative Materials-Properties and Applications Chapter 6, IntechOpen, Bin Zhang, Kaixiong Gao, Yuanlie Yu, Junyan Zhang, 2018, DOI:10.5772/intechopen.70412 7、代表性论文 (2) Xingkai Zhang; Qingyi Qian; Li Qiang; Bin Zhang*; Junyan Zhang; Comparison study of gold coatings prepared by traditional and modified galvanic replacement deposition for corrosion prevention of copper, Microelectronics Reliability, 2020, 110, 113695 (3) Kai Wang; Baoping Yang; Bin Zhang*; Changning Bai; Zhixing Mou; Kaixiong Gao*; Georgy Yushkov; Efim Oks; Modification of a-C:H films via nitrogen and silicon doping: The way to the superlubricity in moisture atmosphere, Diamond and Related Materials, 2020, 107, 107873 (4) Kaixiong Gao; Xiaoli Wei; Guangqiao Liu; Bin Zhang*; Junyan Zhang*; Electrodeposition and biocompatibility of palladium and phosphorus doped amorphous hydrogenated carbon films, Chemical Physics, 2020, 535, 110857 (5) Zhao Qiuping; Mou Zhixing; Zhang Bin*; Zhang Xingkai; Wang Zhaolong; Wang Kai; Gao Kaixiong*; Jia Qia; Revealing the corrosion resistance of amorphous carbon films under heat shock via annealing, Diamond and Related Materials, 2020,102:107692.（通讯作者） (6) Wang Meng; Wang Hanqun; An Lulu; Zhang Bin; Huang Xiaoxiao; Wen Guangwu; Zhong Bo*; Yu Yuanlie*; Facile Fabrication of Hildewintera-colade monis-like Hexagonal Boron Nitride/Carbon Nanotube Composite having Light Weight and Enhanced Microwave Absorption, Journal of Colloid and Interface, 2020,564:454-466. (7) Shandrikov M.V.*; Artamonov I.D.; Oks E.M.; Yushkov G.Y.; Zhang Bin; Bai Changning; Gao Kaixiong; NBR surface modification by gaseous plasma source with electron injection, Surface and Coatings Technology, 2020,388:125556. (8) Bu Yongfeng; Liang Hongyu; Gao Kaixiong; Zhang Bin; Zhang Xingkai; Shen Xiangqian; Li Huaming; Zhang Junyan; Wafer-scale fabrication of high-purity reduced graphene oxide films as ultrahigh-frequency capacitors with minimal self-discharge, Chemical Engineering Journal, 2020,390(15):124560. (9) Zhang Jing; An Lulu; Zhang Bin; Wang Chun-Ming; Yu Yuanlie*; Regulating the electrical conductivity of hexagonal boron nitride nanosheets with excellent tribological performance for micro and nano electromechanical system applications, Physica E: Low-Dimensional Systems and Nanostructures, 2020,120:114045. (10) Zhang Jiing; Zhang Bin; Yu Yuanlie; Wang Chunming; Regulating the electronic and optic properties of hexagonal boron nitride nanosheets via phosphorus doping, EPL, 2020,129(3):37001. (11) Bai Yongqing; Zhang Jing; Wang Yongfu; Cao Zhongyue; An Lulu; Zhang Bin; Yu Yuanlie*; Zhang Junyan; Wang Chunming; Ball Milling of Hexagonal Boron Nitride Microflakes in Ammonia Fluoride Solution Gives Fluorinated Nanosheets That Serve as Effective Water-Dispersible Lubricant Additives, ACS Applied Nano Materials, 2019,2(5):3187-3195. (12) Zhang Jing; An Lulu; Zhang Bin*; Zhang Junyan; Yu Yuanlie; Wang Chun-Ming; Interlayer friction properties of oxygen-doped hexagonal boron nitride bilayers, EPL, 2019,127(1):16003. （通讯作者） (13) Rubshtein A P*; Gao Kaixiong; Vladimirova A B; Plotnikov S A; Zhang Bin; Zhang Junyan; Structure wear and corrosion behaviours of Cr-Al-C and multilayer [Cr-Al-C/a-C](n) coatings fabricated by physical vapour deposition and plasma-assisted chemical vapour deposition techniques, Surface and Coatings Technology, 2019,377:124912. (14) Zhang Jing; Bai Yongqing; An Lulu; Zhang Bin; Zhang Junyan;Yu Yuanlie*; Wang Chun-Ming*; Reduction of interlayer friction between bilayer hexagonal boron nitride nanosheets induced by electron redistribution, Journal of Applied Physics, 2019,126(3):035104. (15) Liu Yunhai; Chen Lei*; Zhang Bin*; Cao Zhongyue; Shi Pengfei; Peng Yong; Zhou Ningning; Zhang Junyan; Qian Linmao; Key Role of Transfer Layer in Load Dependence of Friction on Hydrogenated Diamond-Like Carbon Films in Humid Air and Vacuum, Materials, 2019,12(9):1550. （通讯作者） (16) Wang Meng; Bai Yongqing; Zhang Bin; Zhong Bo*; Yu Yuanlie*; Zhang Junyan; Huang Xiaoxiao; Wen Guangwu; Large scale fabrication of porous boron nitride microrods with tunable pore size for superior copper (II) ion adsorption, Ceramics International, 2019,45(6):6684-6692. (17) Alexey Vizir; Efim Oks; Maxim Shandrikov; Zhang Bin; Georgy Yushkov; Effects of gas pressure and discharge current on beam composition in a magnetron discharge ion source, Rev. Sci. Instrum, 2019,90:113312. (18) Bai Yongqing; Zhong Bo; Yu Yuanlie*; Wang Meng; Zhang Jing; Zhang Bin; Gao Kaixiong; Liang Aimin; Wang Chunyu; Zhang Junyan*; Mass fabrication and superior microwave absorption property of multilayer graphene/hexagonal boron nitride nanoparticle hybrids, NPJ 2D MATERIALS AND APPLICATIONS, 2019,3(1):32. (19) Zhang Jing; Zhang Bin; Yu Yuanlie; Wang Chunming; First-principles insights of electronic and optical properties of F-doped hexagonal boron nitride nanosheets for photo-catalytic water splitting, EPL, 2019,127(6):67003. (20) An Lulu; Bai Changning; Bai Yongqing; Zhang Bin; Yu Yuanlie; Hu Yong; Superhydrophobicity of polyvinylidene fluoride induced by integrating liquid-exfoliated hexagonal boron nitride nanosheets, High Performance Polymers, 2019,32(1):73-82. (21) Alexey Vizir; Efim Oks; Maxim Shandrikov*; Zhang Bin; Effects of gas pressure and discharge current on beam composition in a magnetron discharge ion source, Review of Scientific Instruments, 2019,90(11):113312. (22) Wang Zhaolong; Gong Zhenbin; Zhang Bin*; Wang Yongfu; Gao Kaixiong; Zhang Junyan; Liu Guangqiao; Heating induced nanostructure and superlubricity evolution of fullerene-like hydrogenated carbon films, Solid State Sciences, 2019,90:29-33. （通讯作者） (23) Gao Kaixiong; Wang Yongfu; Wei Xiaoli; Qiang Li; Zhang Bin*; Zhang Junyan*; Hydrogenated amorphous carbon films with different nanostructure: A comparative study, Chemical Physics Letters, 2019,715:330-334. （通讯作者） (24) An Lulu; Yu Yuanlie*; Bai Changning; Bai Yongqing; Zhang Bin; Gao Kaixiong; Wang Xinbo; Lai Zhiping; Zhang Junyan*; Simultaneous production and functionalization of hexagonal boron nitride nanosheets by solvent-free mechanical exfoliation for superlubricant water-based lubricant additives, NPJ 2D MATERIALS AND APPLICATIONS, 2019, 3(1):28. (25) Zhaolong Wang; Kaixiong Gao; Zhang Bin; Zhenbin Gong; Xiaoli Wei; Junyan Zhang; Verification study of nanostructure evolution with heating treatment between thin and thick fullerene-like hydrogen carbon films, Coatings, 2019,9:82. (26) Zhong Bo; Kong Lingqi; Zhang Bin; Yu Yuanlie*; Xia Long*; Fabrication of novel hydrophobic SiC/SiO2 bead-string like core-shell nanochains via a facile catalyst/template-free thermal chemical vapor deposition process, Materials Chemistry and Physics, 2018,217:111-116. (27) Zhang Bin*; Xue Yong; Gao Kaixong; Qiang Li; Yu,Yuanlie; Gong Zhenbin; Liang Aimin; Zhang Junyan*; Yang Baoping; Pencil sketch graphene films as solid lubricant on steel surface: Observation of transition to grapehene/amorphous carbon, Solid State Sciences, 2018,75:71-76. （通讯作者） (28) Wang Yongfu; Gao Kaixiong; Zhang Bin; Wang Qi*; Zhang Junyan*; Structure effects of sp(2)-rich carbon films under super-low friction contact, Carbon, 2018,137: 49-56. (29) Gong Zhenbin; Bai Changning; Qiang Li; Gao Kaixiong; Zhang Junyan*; Zhang Bin*; Onion-like carbon films endow macro-scale superlubricity, Diamond and Related Materials, 2018, 87: 172-176. (30) Liu Yunhai; Yu Bingjun; Cao Zhongyue; Shi pengfei; Zhou Ningning; Zhang Bin; Zhang Junyan; Qian Linmao; Perspectives of the friction mechanism of hydrogenated diamond-Like carbon film in air by varying sliding velocity, Coatings, 2018,8: 331. (31) Liu Yunhai; Yu Bingjun; Cao Zhongyue; Shi Pengfei; Zhou Ningning; Zhang Bin; Zhang Junyan; Qian Linmao; Probing superlubricity stability of hydrogenated diamond-like carbon film by varying sliding velocity, Applied Surface Science, 2018,439: 976-982. (32) Liu Guangqiao; Zhou Yan; Zhang Bin; Gao Kaixiong; Qiang Li; Zhang Junyan*; Monitoring the nanostructure of a hydrogenated fullerene-like film by pulse bias duty cycle, Rsc Advances, 2016, 6(64): 59039-59044. (33) Wang Yongfu; Wang Yan; Zhang Xingkai; Shi Jing; Gao Kaixiong; Zhang Bin*; Zhang Junyan*; Hydrogenated amorphous carbon films on steel balls and Si substrates: Nanostructural evolutions and their trigging tribological behaviors, Applied Surface Science, 2017, 420: 586-593. （通讯作者） (34) Zhang Bin*; Xue Yong; Qiang Li; Gao Kaixong; Liu Qiao*; Yang Baoping; Liang Aiming; Zhang Junyan*; Assembling of carbon nanotubes film responding to significant reduction wear and friction on steel surface, Applied Nanoscience, 2017, 7(8): 835-842. （通讯作者） (35) Shi Jing; Wang Yongfu; Gong Zhenbin; Zhang Bin; Wang Chengbing*; Zhang Junyan*; Nanocrystalline Graphite Formed at Fullerene-Like Carbon Film Frictional Interface, Advanced Materials Interfaces, 2017,4(8): 1601113. (36) Gong Zhenbin; Shi Jing; Ma Wei; Zhang Bin; Zhang Junyan*; Engineering-scale superlubricity of the fingerprint-like carbon films based on highpower pulsed plasma enhanced chemical vapor deposition, Rsc Advances, 2017, 7(6): 3506-3506. (37) Gong Zhenbin; Jia Xiaolong; Ma Wei; Zhang Bin; Zhang Junyan*; Hierarchical structure graphitic-like/MoS2 film as superlubricity material, Applied Surface Science, 2017, 413: 381-386. (38) Shi Jing; Gong Zhenbin; Wang Chengbing; Zhang Bin*; Zhang Junyan*; Tribological properties of hydrogenated amorphous carbon films in different atmospheres, Diamond and Related Materials, 2017, 77: 84-91. （通讯作者） (39) Gong Zhenbin; Shi Jing; Zhang Bin; Zhang Junyan*; Graphene nano scrolls responding to superlow friction of amorphous carbon, Carbon, 2017, 116: 310-317. (40) Zhang Xingkai; Zhou Yan; Zhang Bin; Zhang Junyan*; An improved galvanic replacement deposition method for synthesis of compact palladium coatings on copper substrates, Materials Letters, 2017, 197: 75-78. (41) Zhang Xingkai; Zhou Yan*; Liang Aimin; Zhang Bin; Zhang Junyan*; Facile fabrication and corrosion behavior of iron and iron-reduced graphene oxide composite coatings by electroless plating from baths containing no reducing agent, Surface & Coatings Technology, 2016, 304: 519-524. (42) Zhang Lifang; Wang Jia; Zhang Junyan; Zhang Bin*; Increasing fluorine concentration to control the microstructure from fullerene-like to amorphous in carbon films, RSC Advances, 2016, 6(26): 21719-21724. （通讯作者） (43) 张斌; 薛勇; 张斌; 高凯雄*; 强力; 牟志星; 王凯; 液氮激冷对含氢非晶碳膜性能的影响, 摩擦学学报, 2020, 40(1): 82-88. (44) 白常宁; 强力; 唐宏亮; 张斌*; 张俊彦; 空气等离子预处理改善橡胶表面碳膜结合强度和耐磨性研究, 真空与低温, 2019, 25(5): 324-330 （通讯作者） (45) 赵秋萍; 牟志星; 张斌*; 郭军红; 杨柳; 质子交换膜燃料电池双极板材料研究进展, 化工新型材料, 2019, 47(11): 52-57 （通讯作者） (46) 丁雪兴; 王兆龙; 张斌; 高凯雄; 张俊彦; 含氢类富勒烯碳薄膜制备及超滑性能研究进展, 润滑与密封, 2018, 43(12): 97-103. (47) 杨保平; 高斌基; 张斌; 强力; 高凯雄; 张俊彦; MoS2-Al复合薄膜高温摩擦学性能研究, 表面技术, 2018, 47(03): 140-147. (48) 吴坤尧; 孟志新; 李兆; 丁旭; 张斌; 张俊彦; 低摩擦长寿命类富勒烯碳基薄膜的制备及其摩擦学特性, 材料导报, 2018, 32(04): 559-562. (49) 高斌基; 杨保平; 张晓晓; 高凯雄; 张斌; 张俊彦; 不同应用环境下MoS2基薄膜摩擦学性能研究进展, 润滑与密封, 2018, 43(05): 115-119,133. (50) 王永富; 白永庆; 高凯雄; 张斌; 张俊彦; 工程导向碳薄膜宏观超滑研究进展, 中国科学:化学, 2018, 48(12): 1466-1477. (51) 杨保平; 薛勇; 张斌; 王永富; 王兆龙; 张俊彦; 类富勒烯薄膜的载荷依赖摩擦滞后行为研究, 表面技术, 2017, (09): 107-113. (52) 薛勇; 杨保平; 张斌*; 张俊彦; 纳米碳材料摩擦学应用的最新进展和未来展望, 材料导报, 2017, (05): 1-8.

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