1，新型固体润滑薄膜制备及摩擦学机制

2，固体润滑薄膜制备技术及装备研究

3，装备工艺一体化集成及产业应用

   

080502-材料学

材料表面技术与防护
润滑材料与密封技术
薄膜技术及装备

2006-08--2011-09   中国科学院研究生院   博士
2001-09--2005-07   兰州大学   学士

博士研究生

博士

   

2020-08~现在, 中国科学院兰州化学物理研究所, 研究员/主任助理
2018-07~现在, 中国科学院兰州化学物理研究所, 项目研究员/主任助理
2016-12~2017-12,美国劳伦斯伯克利国家实验室, Visiting Scientist
2015-07~2017-06,兰州化学物理研究所, 副研究员
2015-01~2016-12,重庆大学机械传动国家实验室, 访问副研究员
2011-07~2014-07,兰州化学物理研究所, 助理研究员
2005-07~2005-12,西安隆基硅股份有限公司, 工程师
2005-01~2006-09,兰州化学物理研究所, 研究助理

2021-01-05-今,《中国材料进展》第五届编委会青年编委, 委员
2020-10-14-今,深圳市真空学会（协会）专家组成员, 技术专家
2020-01-16-今,国家新材料测试评价平台稀土行业中心专家, 技术专家
2019-12-31-今,中国真空学会薄膜委员会, 委员
2019-10-01-2019-10-01,中国科学院青年创新促进会工程与装备委员会, 委员
2019-08-01-今,中国科学院青年创新促进会兰州分会, 副会长
2019-07-09-今,中国机械工程磨损与表面技术专委会, 委员
2018-10-31-2022-11-30,中国机械工程学会表面工程分会青年委员会, 委员
2017-04-28-2019-04-26,American Journal of Mechanical and Materials Engineering, 编委
2016-12-31-2020-12-30,中国科学院青年创新促进会会员, 会员

   

（1） 低摩擦固体润滑碳薄膜关键技术及产业化应用, 二等奖, 国家级, 2019
（2） 中国科学院青年创新促进会科技成果转化贡献奖, 部委级, 2019
（3） 中国科学院兰州分院优秀青年人才奖, 院级, 2019
（4） 低摩擦固体润滑碳薄膜关键技术及产业化应用, 一等奖, 部委级, 2018
（5） 中国产学研合作创新奖（个人奖）, 部委级, 2018
（6） 强韧与润滑一体化碳基薄膜关键技术与工程应用, 二等奖, 国家级, 2016
（7） 强韧与润滑一体化碳基薄膜关键技术与工程应用, 一等奖, 省级, 2015

[1] 张俊彦, 强力, 张斌, 高凯雄. 一种具有连续结构表面碳薄膜的超高耐磨橡胶基复合材料的制备方法. CN: CN113234250A, 2021-08-10.

[2] 强力, 张俊彦, 张斌, 高凯雄. 一种橡胶表面超低摩擦多层复合碳基润滑涂层及其构筑方法. CN: CN113215525A, 2021-08-06.

[3] 强力, 张俊彦, 张斌, 高凯雄. 一种通过原位离子共注入构筑高承载低摩擦橡胶表面的方法. CN: CN113201720A, 2021-08-03.

[4] 张俊彦, 强力, 张斌, 高凯雄. 一种橡胶表面超低摩擦碳基复合薄膜的构筑方法. CN: CN113201713A, 2021-08-03.

[5] 张俊彦, 贾倩, 张斌, 王宏刚, 高凯雄. 激光织构圆形凹坑阵列金属离子注入改性聚酰亚胺表面的方法. CN: CN112376030B, 2021-07-23.

[6] 张斌, 贾倩, 张俊彦, 杨生荣, 王宏刚. C、Al双元素注入制备低摩擦氟硅橡胶表面的方法. CN: CN112376033B, 2021-07-23.

[7] 张俊彦, 贾倩, 张斌, 高凯雄. 二氧化碳等离子体在大气压下放电修饰聚合物表面的方法. CN: CN112375246B, 2021-07-13.

[8] 张俊彦, 贾倩, 张斌, 杨生荣, 强力. 低温电子束激发等离子体注入碳纳米团簇制备低摩擦高耐磨硅橡胶表面的方法. CN: CN112376031B, 2021-07-13.

[9] 张俊彦, 贾倩, 张斌, 高凯雄, 张兴凯, 赖振国. 一种CrCuC梯度渐变CrCu复合碳薄膜双极板的制备方法. CN: 112111721B, 2021-07-13.

[10] 张斌, 贾倩, 毛金银, 高凯雄, 陈善俊. 一种耐腐蚀耐磨损六硼化镧复合碳薄膜及其沉积方法. CN: CN112251724B, 2021-07-13.

[11] 张俊彦, 白常宁, 安璐璐, 高凯雄, 强力, 张斌. 一种橡胶密封件表面减摩及储油膜层的制备方法. CN: CN109503878B, 2021-04-13.

[12] 张斌, 贾倩, 张俊彦, 高凯雄. 一种超滑纳米硫复合含氢碳膜制备方法. CN: CN111424249B, 2021-03-30.

[13] 张俊彦, 贾倩, 张斌, 杨生荣, 高凯雄, 强力. 各向异性织构/金属离子注入改性聚合物表面的方法. CN: CN112480452A, 2021-03-12.

[14] 张俊彦, 贾倩, 张斌, 杨生荣, 高凯雄. 金属离子注入制备低摩擦丁腈橡胶表面的方法. CN: CN112376032A, 2021-02-19.

[15] 张俊彦, 白常宁, 强力, 安璐璐, 高凯雄, 张斌. 一种耐高温耐磨损振动筛橡胶球及其制备方法. CN: CN109750271B, 2021-01-26.

[16] 张斌, 赖振国, 张俊彦, 贾倩, 高凯雄. 一种甲醇环境耐蚀耐磨导电六硼化镧复合碳薄膜及其制备方法. CN: CN112195452A, 2021-01-08.

[17] 张俊彦, 贾倩, 张斌, 张兴凯, 于元烈. 通过纳米金属镀膜钢球与含氢碳薄膜配副实现宏观超滑的方法. CN: CN111876754A, 2020-11-03.

[18] 张俊彦, 贾倩, 张斌, 于元烈, 高凯雄, 赖振国. 通过含氢碳薄膜与二硫化钼组成配副体系实现超滑宏观的方法. CN: CN111876753A, 2020-11-03.

[19] 张斌, 高凯雄, 贾倩, 张俊彦, 强力. 一种高利用率宽面矩形阴极靶及其提高利用率的方法. CN: CN111876739A, 2020-11-03.

[20] 张斌, 贾倩, 张俊彦, 高凯雄, 张兴凯. 一种超滑性能金属/含氢碳复合薄膜及其制备方法. CN: CN111850470A, 2020-10-30.

[21] 强力, 张俊彦, 张斌, 高凯雄, 白常宁. 一种橡胶基复合材料及其制备方法. CN: CN109503879B, 2020-10-23.

[22] 张斌, 贾倩, 张俊彦, 于元烈, 高凯雄, 张兴凯. 一种硫代钼酸铵复合多孔非晶碳超滑薄膜的制备方法. CN: CN111719128A, 2020-09-29.

[23] 张俊彦, 贾倩, 张斌, 强力, 高凯雄, 张兴凯. 一种纳米羰基金属复合超滑含氢碳薄膜的制备方法. CN: CN111575665A, 2020-08-25.

[24] 张斌, 贾倩, 张俊彦, 强力, 高凯雄. 一种通过自组装黑磷纳米片制备超滑含氢碳薄膜的方法. CN: CN111455325A, 2020-07-28.

[25] 张斌, 张俊彦, 贾倩, 强力, 高凯雄, 张兴凯. 一种超滑二硫化钨/含氢碳薄膜及其制备方法. CN: CN111455386A, 2020-07-28.

[26] 张俊彦, 张兴凯, 张斌, 高凯雄. 一种铜表面金石墨烯复合镀层的制备方法. CN: CN111455359A, 2020-07-28.

[27] 高凯雄, 高斌基, 张俊彦, 张斌, 王永富, 强力. 类富勒烯碳/类石墨烯氮化硼多层超滑薄膜的制备方法. CN: CN108203810B, 2020-05-26.

[28] 张斌, 王兆龙, 张俊彦, 贾倩, 牟志星, 强力, 高凯雄. 利用二氧化碳制备高硬减摩耐蚀TiCxOy涂层的方法. CN: CN111118463A, 2020-05-08.

[29] 张俊彦, 贾倩, 张斌, 孙磊, 高凯雄. 一种宏观超滑的硝酸银复合碳基薄膜的制备方法. CN: CN111074207A, 2020-04-28.

[30] 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. CN: CN108220911B, 2020-02-04.

[31] 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. CN: CN108220908B, 2019-11-05.

[32] 强力, 张俊彦, 张斌, 高凯雄, 白常宁. 低摩擦碳基固体润滑涂层及其制备方法和应用. CN: CN109627816A, 2019-04-16.

[33] 强力, 张俊彦, 张斌, 高凯雄, 白常宁. 机械增韧碳基固体润滑薄膜及其制备方法和应用. CN: CN109468612A, 2019-03-15.

[34] 张斌, 张俊彦, 高凯雄, 强力, 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. CN: CN105200383B, 2019-03-01.

[35] 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. CN: CN105200385B, 2019-02-01.

[36] 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. 中国: CN105779950B, 2018.10.12.

[37] 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. 中国: CN106011794B, 2018-10-23.

[38] 高凯雄, 张俊彦, 马巍, 张斌. 一种通过离子液和碳量子点来降低摩擦系数的方法. 中国: CN108246591A, 2018-07-06.

[39] 张斌, 张俊彦, 高凯雄, 强力, 王健. 具高功率脉冲离子源的磁控溅射装置. 中国: CN105220122B, 2018-06-29.

[40] 张斌, 张俊彦, 高凯雄, 强力, 王健. 阳极场辅磁控溅射镀膜装置. 中国: CN105200381B, 2018-06-12.

[41] 张斌, 张俊彦, 薛勇, 高凯雄, 杨保平, 崔锦峰. 一种快速制备碳纳米管薄膜的方法. 中国: CN106622921A, 2017-05-10.

[42] 张俊彦, 张斌, 薛勇, 高凯雄, 杨保平, 郭军红. 一种MoS 2 固体润滑薄膜的制备方法. 中国: CN106544668A, 2017-03-29.

[43] 张斌, 高凯雄, 张俊彦, 薛勇. 一种快速制备石墨烯或纳米石墨基薄膜的方法. 中国: CN106513282A, 2017-03-22.

[44] 张斌, 张俊彦, 高凯雄, 强力, 王健. 具高功率脉冲离子源的磁控溅射装置. 中国: CN205152323U, 2016.04.13.

[45] 张斌, 张俊彦, 强力, 高凯雄. MoS 2 /NbC/DLC多元纳米复合超润滑薄膜的制备方法. 中国: CN105779951A, 2016-07-20.

[46] 张斌, 张俊彦, 高凯雄, 强力, 王健. 阳极场辅磁控溅射镀膜装置. 中国: CN205152320U, 2016-04-13.

[47] 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. 中国: CN205152322U, 2016-04-13.

[48] 张斌, 张俊彦, 高凯雄, 强力, 王健. 栅极辅助柱状电弧离子镀膜装置. 中国: CN205152318U, 2016-04-13.

[49] 张斌, 张俊彦, 高凯雄, 强力. 一种类金刚石薄膜的磁靴增强磁控溅射镀膜装置. 中国: CN205152321U, 2016-04-13.

[50] 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. 中国: CN105220120A, 2016-01-06.

[51] 张斌, 张俊彦, 高凯雄, 强力. 一种类金刚石薄膜的磁靴增强磁控溅射镀膜装置及方法. 中国: CN105200384A, 2015-12-30.

[52] 张斌, 张俊彦, 高凯雄, 强力, 王健. 栅极辅助柱状电弧离子镀膜装置. 中国: CN105200378A, 2015-12-30.

[53] 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. 中国: CN104152849A, 2014-11-19.

[54] 张俊彦, 张斌. 柱塞表面类金刚石薄膜批量化沉积方法. 中国: CN103866251A, 2014-06-18.

[55] 张俊彦, 张斌, 强力. 在活塞表面制备复合薄膜技术. 中国: CN103866252A, 2014-06-18.

[56] 张俊彦, 郑愉, 张斌. 多层多元素耐高温类金刚石纳米复合薄膜材料. 中国: CN103866234A, 2014-06-18.

[57] 张俊彦, 张斌, 强力. 模具钢表面多层梯度纳米复合类金刚石薄膜的制备方法. 中国: CN103160781A, 2013-06-19.

[58] 张俊彦, 张斌, 杨涛, 强力, 郑愉. 在碳素钢或球墨铸铁表面制备类金刚石薄膜的方法. 中国: CN103160794A, 2013-06-19.

[59] 张俊彦, 张斌, 张克金, 强力, 魏晓川, 安宇鹏, 武斌. 凸轮轴表面多层纳米复合类金刚石薄膜的制备方法. 中国: CN103160780A, 2013-06-19.

[60] 张俊彦, 张斌, 强力. 在钢铁表面制备类金刚石薄膜的方法. 中国: CN103160796A, 2013-06-19.

[61] 张俊彦, 卜银忠, 王琳, 张斌. 在钛合金表面制备生物活性复合薄膜的方法. 中国: CN103160790A, 2013-06-19.

[62] 张俊彦, 张斌, 张克金, 强力, 魏晓川, 安宇鹏, 武斌. 在汽车发动机气门挺柱表面制备类金刚石涂层的方法. 中国: CN103160782A, 2013-06-19.

[63] 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. 中国: CN103160801A, 2013-06-19.

[64] 张俊彦, 张斌. 一种含氢纳米结构CNx梯度薄膜的制备方法. 中国: CN101768722A, 2010-07-07.

[65] 张俊彦, 王舟, 宋仕永, 张斌. 在不锈钢上制备薄膜的方法. 中国: CN101768724A, 2010-07-07.

   

[1] Journal of Applied Physics. 2024, 第 5 作者
[2] 赵燕春, 何瑞芳, 张斌, 王欣, 许春玲, 高凯雄. 离子注渗复合表面改性技术研究进展. 表面技术[J]. 2024, 第 3 作者53(5): 18-30, http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=7675041&detailType=1.
[3] 张丽红, 张斌, 高凯雄, 于元烈, 唐宏亮, 张俊彦. 氮流量对六方氮化硼（hBN）薄膜结构和力学性能的影响. 表面技术[J]. 2024, 第 2 作者53(5): 52-59, http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=7675044&detailType=1.
[4] Chemical Physics Letters. 2024, 第 2 作者
[5] Nano Energy. 2024, 第 3 作者
[6] ACS Applied Materials & Interfaces. 2024, 第 4 作者
[7] Applied Surface Science. 2023, 第 6 作者
[8] Materials Today Nano. 2023, 第 3 作者
[9] 吕建祥, 张斌, 朱永明, 陈丽. 金属双极板导电耐蚀涂层的研究进展. 真空与低温[J]. 2023, 第 2 作者29(4): 327-338, https://doi.org/10.3969/j.issn.1006-7086.2023.04.002.
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（1） Super-Lubricious, Fullerene-like, Hydrogenated Carbon Films, Intech Open, 2018-04, 第 1 作者
（2） Fullerene-Like Structure Hydrogenated Carbon Film: One Way to the Industrial Scale Supelubricity, India: Vide Leaf., 2020-05, 第 2 作者

   

（ 1 ） 青年促进会会员, 主持, 部委级, 2017-01--2020-12
（ 2 ） 高压共轨系统喷油器偶件低摩擦碳基薄膜技术, 主持, 部委级, 2015-01--2017-12
（ 3 ） xxxx表面高结合力超滑薄膜制备, 主持, 国家级, 2015-01--2018-12
（ 4 ） 柴油机高压共轨系统关键部件及系统集成, 主持, 部委级, 2018-01--2019-12
（ 5 ） 低摩擦固体润滑碳薄膜薄膜工艺装备集成及产业化, 主持, 国家级, 2019-01--2022-12
（ 6 ） 注渗表面梯度复合涂层制备及使役行为研究, 主持, 国家级, 2020-08--2024-12
（ 7 ） 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, 主持, 国家级, 2019-01--2020-12
（ 8 ） 固液耦合超滑新体系及作用机制, 主持, 国家级, 2020-12--2025-12
（ 9 ） 中组部“WR计划”青年拔尖人才项目, 主持, 国家级, 2021-01--2023-12

已指导学生

高凯雄  博士研究生  080502-材料学  

现指导学生

邢朝阳  硕士研究生  085600-材料与化工  

赖振国  博士研究生  080502-材料学  

王新飞  硕士研究生  085600-材料与化工  

高海洋  博士研究生  080502-材料学  

王政德  博士研究生  080502-材料学  

朱永明  博士研究生  080502-材料学  

江礼林  硕士研究生  085600-材料与化工