姓 名:张鹏
性 别:男
研究方向:金属功能材料、表面处理技术、离子注入、金属生物医用材料、增材制造
邮 箱:tzhangpeng@jnu.edu.cn
职称及职务:副研究员
获奖情况:
(1)2021年度广东省科技进步二等奖(排名第2)
(2)2021年度中国有色金属工业科技进步一等奖(排名第2)
(3)2021年度广东省电子信息行业科学技术一等奖
(4)2021年度创新肇庆科学技术一等奖
近五年主持或参加的科研项目:
(1)广东省科技厅,广东省自然科学基金-面上项目,2021A1515012271,钛基金属表面纳米织构化仿生膜构建及其耐蚀抗磨机理研究,2021-01至2023-12,在研,主持
(2)广东省科技厅,广东省基础与应用基础研究基金-区域联合基金-重点项目,2020B1515120027,基于大数据和人工智能驱动的金属材料增材制造智能系统关键技术研究,2020-10至2023-09,100万元,主要完成人
(3)广东省科技厅,广东省基础与应用基础研究基金-区域联合基金-重点项目,2020B1515120078,植介入器械表界面仿生功能涂层及其摩擦学研究,2020-10至2023-09,100万元,在研,参与
(4)中华人民共和国科学技术部,国家重点研发计划任务(子课题),2018YFB2002001,替代电镀铬的绿色涂层设计与评价方法,2019-07至2022-06,在研,主持
(5)中华人民共和国科技部,国家重点研发计划(子课题),2017YFB0305104,煤炭采运用高耐磨钢板磨损机理与耐磨性评价技术研究,2017-07至2021-06,256万元,参与
(6)广州市科技创新委员会,广州市科技计划项目,201704030045,3D打印激光立体成型可吸收锌基血管支架的研制,2017-05至2020-04,100万元,参与
(7)广东省科技厅,广东省自然科学基金,2015A030310488,医用钛合金复合微纳米耐磨抑菌氧化膜的制备,2015-08至2018-08, 主持
(8)广东省科技厅,广东省科技计划产学研合作项目,2014B090901034,高硬化率奥氏体锰合金钢技术应用开发与产业化,2015-01至2017-12,100万元,主要完成人
(9)广东省科技厅,广东省科技计划产学研合作项目,2014B090907005,广东耐磨材料产业技术创新联盟及钢铁耐磨材料产业技术创新战略联盟建设,2015-01至2017-12,100万元,参与
(10)广东省科技厅,广东省科技厅协同创新与环境建设专项资金项目,2015A040404023,耐磨材料技术服务与转移中心,2015-11至2017-12,50万元,主持
(11)广东省科技厅,广东省重大科技专项,2014B090915003,高分辨显示设备用微纳米银粉及其可印刷浆体开发,2015-07至2017-12,500万元,子课题主持
(12)广东省科技厅,广东省科技计划产学研合作项目,2013B090500106,原位自生陶瓷增强耐热耐磨铁基合金复合材料关键技术研究,2014-12至2016-12,50万元,参与
(13)广东省科技厅,广东省科技计划项目,2014A040401031,《铸造磨辊与磨盘》国家标准研制,2015-01至2016-12,20万元,结题,参与
(14)广东省科技厅,广东省科技厅工业高新技术领域科技计划项目,2013B010403016,镁合金血管支架的制备和表面改性研究,2014-08至2016-12,主持
发表论文:
[1] Yanyu Chen, Xiao Wang, Huaijun Lin, Florian Vogel, Wei Li, Lin Cao*, Zhidan Lin*, Peng Zhang*. Low-density polyethylene-derived carbon nanotubes from express packaging bags waste as electrode material for supercapacitors [J]. Journal of Industrial and Engineering Chemistry, 2022
[2] Lin Cao, Junjie Yang, Jie Li, Dahai Zeng, Zhidan Lin, Zhentao Yu, Suyuan Hang, Wei Li, Qiwei Wang*, Shuangjian Li*, Peng Zhang*, Tantalum nanoparticles reinforced polyetheretherketone coatings on titanium substrates: Bio-tribological and cell behaviour [J]. Tribology International, 2022, Volume 175 107847.
[3] Peng Zhang, Han Qiu, Lin Cao, Xiaohui Tu, Jie Cui, Helong Yu, Jie Li*, Qiwei Wang*, Junjie Yang, Wei Li, Huaijun Lin, Effect of TiC on the impact abrasive wear resistance of low alloy martensitic steel [J]. Tribology International, 2022, Volume 175, 107866
[4] Xiao Wang, Lin Cao, Congjie Xu, Bifeng Fan, Zhidan Lin*, Wei Li*, Peng Zhang*. Novel dual dynamic boronate ester bond regulated bio-based polymer with rapid self-healing and multiple recyclability [J]. Industrial Crops & Products, 189 (2022) 115855.
[5] Xiao Wang; Lin Cao; Bifeng Fan; Congjie Xu; Xiaoying Wang; Zhidan Lin*; Wei Li*; Peng Zhang*. Highly Sensitive, Ultrastretchable, and Degradable PCT-CNT Strain Sensor for Continuous Monitoring of Male Erectile Dysfunction [J]. IEEE Sensors Journal, 2022 (19) , pp.18961-18969
[6] Jun Liu, Shuangjian Li*, Chao Wang, Chunming Deng, Jie Mao, Xi Tan, Wei Li, Peng Zhang*, Qiwei Wang*, Self-lubricating design strategy for thermally sprayed ceramic coatings by in-situ synthesis of carbon spheres [J]. Surface and Coatings Technology, 2022, Volume 446, 128759
[7] Yuwen Liao, Lin Cao, Shuangjian Li, Zhidan Lin, Wei Li, Chuanyong Yu*, Peng Zhang*,Qiwei Wang*, Enhanced mechanical and tribological properties of epoxy-based coatings by in-situ synthesized silicon dioxide nanoparticles, Journal of Applied Polymer Science, 2022, Volume139
[8] Jinglin Zhang, Huakai Chen, Tongyao Lin, Fengjuan Yang, Jingxian Zhang, Xiang Cai, Yunhua Yang, Peng Zhang*, and Shaozao Tan*, Fabrication of a TiO2@Cu Core-Shell Nanorod Array as Coating for Titanium Substrate with Mechanical and Chemical Dual Antibacterial Property [J], ACS Applied Bio Materials, 2022, 5(7), 3349-3359
[9] Suyuan Huang, Lin Cao, Wei Li, Zhidan Lin*, Peng Zhang*, Evaluation of tribological and biological properties of TaB2/PEEK composite coatings prepared by electrodeposition [J]. Journal of Applied Polymer Science, 2022, 139 (25)e52265
[10] Wei Yang, Lin Cao, Wei Li, Xusheng Du, Zhidan Lin* & Peng Zhang*, Carbon Nanotube prepared by catalytic pyrolysis as the electrode for supercapacitors from polypropylene wasted face masks [J]. Ionics, 2022, 28, 3489–3500
[11] Huakai Chen, Jinglin Zhang, Fengjuan Yang, Tongyao Lin, Jingxian Zhang, Xiang Cai, Peng Zhang*, and Shaozao Tan*, Implanting a Copper Ion into a TiO2 Nanorod Array for the Investigation on the Synergistic Antibacterial Mechanism between Mechanical Cracking and Chemical Damage [J]. ACS Biomaterials Science and Engineering, 2022, 8, 4, 1464–1475
[12] Yuwen Liao, Lin Cao, Qiwei Wang, Shuangjian Li, Zhidan Lin, Wei Li, Peng Zhang*, Chuanyong Yu*. Enhanced tribological properties of PEEK-based composite coatings reinforced by PTFE and graphite [J]. Journal of Applied Polymer Science, 2022, e51878
[13] Peng Zhang, Lin Cao, Xiaoming Wang, Jie Cui, Zhidan Lin, Sieglind Ngai, Florian Vogel, Huihui Wang, Wei Li, Shuangjian Li*, Qiwei Wang*, Improvement of electrochemical performance of titania nanowires for supercapacitor electrodes by in-situ growth of polyaniline nanoparticles [J]. Ceramics International, Volume 48, Issue 2, 2022, Pages 1731-1739
[14] Jiahui Zhao, Lin Cao, Fenglin Lai, Xiao Wang, Suyuan Huang, Xusheng Du, Wei Li, Zhidan Lin* & Peng Zhang*, Double-cross-linked polyaniline hydrogel and its application in supercapacitors [J]. Ionics, 2022, 28, 423–432
[15] P. Zhang, J. Li*, H.L. Yu, X.H. Tu, W. Li, An experimental study on the fretting wear behavior of Inconel 600 and 690 in pure water [J]. Wear, 2021, Volumes 486–487, 203995
[16] P. Zhang, J.X. Chen, J. Li*, H.L. Yu, X.H. Tu, W. Li*, Microstructure evolution mechanism of carbides-free bainite steel during impact abrasive wear [J]. Wear, 2021, Volumes 486–487, 204074
[17] Lin Cao, Suyuan Huang, Fenglin Lai, Zeming Fang, Jie Cui, Xusheng Du, Wei Li, Zhidan Lin, Peng Zhang* & Zhenrui Huang, Sucrose in situ physically cross-linked of polyaniline and polyvinyl alcohol to prepare three-dimensional nanocomposite hydrogel with flexibility and high capacitance [J], Ionics, 2021, 27, 3431–3441
[18] Zhongzhan Xu, Peng Zhang*, Wei Wang*, Qian Shi, Hongzhi Yang, Di Wang, Yue Hong, Lei Wang, Chaoqian Guo, Songsheng Lin, Mingjiang Dai, AlCoCrNiMo high-entropy alloy as diffusion barrier between NiAlHf coating and Ni-based single crystal superalloy [J]. Surface and Coatings Technology, 2021, Volume 414, 127101
[19] Caiyun Qin, Lin Cao, Zeming Fang, Fenglin Lai, Mengru Yao, Zhidan Lin* & Peng Zhang*, Preparation of 3D carbon conductive composite derived from nitrogen-rich resin/MWCNT and its application in supercapacitors [J]. Ionics, 2021, 27, 1757–1767
[20] Kaiyao Wu, Yuying Meng, Xin Li, Jiang Ma, Peng Zhang*, Wei Li, Lishan Huo, Huai-Jun Lin*, Improved alkaline hydrogen evolution performance of a Fe78Si9B13 metallic glass electrocatalyst by ultrasonic vibrations [J]. Intermetallics, 2020, Volume 125, 106820
[21] Lin CAO, Peng ZHANG, Shuang-jian LI, Qi-wei WANG, Da-hai ZENG, Chuan-yong YU, Qing-yang LI, Yu-wen LIAO, Zhi-dan LIN*, Wei LI*, Effects of TaN nanoparticles on microstructure, mechanical properties and tribological performance of PEEK coating prepared by electrophoretic deposition [J]. Transactions of Nonferrous Metals Society of China, 2022, Volume 32, Issue 10, Pages 3334-3348,
[22] Fenglin Lai, Zeming Fang, Lin Cao, Wei Li, Zhidan Lin* & Peng Zhang*, Self-healing flexible and strong hydrogel nanocomposites based on polyaniline for supercapacitors [J]. Ionics, 2020, 26(6), 3015–3025
[23] Zeming Fang, Lin Cao, Fenglin Lai, Debin Kong, Xusheng Du, Huaijun Lin, Zhidan Lin*, Peng Zhang*, Wei Li, Carbon nano bowl array derived from a corncob sponge/carbon nanotubes/polymer composite and its electrochemical properties [J]. Composites Science and Technology, 2019, 183, 107792
[24] Xiao-he,Bai,Wei,Li,Xu-sheng,Du,Peng,Zhang*,Zhi-dan,Lin*, Synthesis of spherical silver particles with micro/ nanostructures at room temperature [J]. Composites Communications, 2017, 4, 54-58
[25] Zhichao Wu, Shuangjian Li*, Peng Zhang, Chao Wang, Chunming Deng, Jie Mao, Wei Li, Xiaohui Tu*, Controllable in-situ synthesis of MoS2/C in plasma-sprayed YSZ coatings: Microstructure, mechanical and tribological properties [J]. Surface and Coatings Technology, 2022, Volume 448, 128895
[26] Chuanyong Yu, Yuwen Liao, Peng Zhang, Bin Li, Shuangjian Li*, Qiwei Wang*, Wei Li, Polyimide-based composite coatings for simultaneously enhanced mechanical and tribological properties by polyhedral oligomeric silsesquioxane [J]. Tribology International, 2022, Volume 171, 107521
[27] Zipeng Guan, Peng Zhang, Vogel Florian, Zhichao Wu, Dahai Zeng, Jun Liu, Binbin Wang, Xiaohui Tu*, Shuangjian Li*, Wei Li,Preparation and tribological behaviors of magnesium silicate hydroxide-MoS2 nanoparticles as lubricant additive [J]. Wear, 2022, Volumes 492–493,204237
[28] Jinbin Zou, Xingyao Wang, Peng Zhang, Xusheng Du*, Ultrafast flame coating of carbon and chemical vapor deposition of graphene on NiTi alloy to enhance its corrosion resistance [J]. Diamond and Related Materials, 2022, Volume 128, 109231
[29] Fei Chu, Bin Han, Kaveh Edalati, Jiang Ma, Yuying Meng, Chao Wang, Fan Yang, Peng Zhang, Huai-Jun Lin*, Severe plastic deformed Pd-based metallic glass for superior hydrogen evolution in both acidic and alkaline media [J]. Scripta Materialia, 2021, Volume 204,114145
[30] Kaiyao Wu, Daqian Cai, Kaimei Shao, Tuguang Xue, Peng Zhang, Wei Li and Huai-Jun Lin*, Effect of CeH2.73-CeO2 Composites on the Desorption Properties of Mg2NiH4 [J]. Frontiers in Chemistry2020, 8, 293
[31] Cheng Xu, Huai-Jun Lin*, Yunlei Wang, Peng Zhang, Yuying Meng, Yao Zhang, Yana Liu, Jiguang Zhang, Liquan Li, Qian Shi, Wei Li, Yunfeng Zhu, Catalytic effect of in situ formed nano-Mg2Ni and Mg2Cu on the hydrogen storage properties of Mg-Y hydride composites [J]. Journal of Alloys and Compounds, 2019, Volume 782, 242-250
专利:
[1] 涂小慧(#); 张鹏(#); 邓淑玲; 林志丹; 李卫,一种金属材料耐冲击腐蚀磨损的试验机 , 2017.7.19, 中国, CN201710591771.6 (专利)
[2] 林怀俊(#);张鹏(#); 张治国; 李卫,铈及化合物在提高氨化物#氢化物体系储氢性能中的应用, 2017.7.25, 中国, CN201710613093.9 (专利)
[3] 王小健; 赵雪阳; 张鹏; 李卫,一种激光制备钛合金含氮化钛涂层织构化表面的方法, 2017.6.7, 中国, CN201710423651.5 (专利)
[4] 张鹏; 林志丹; 柏晓鹤,一种触屏导电层用纳米银墨水的制备方法2016.4.11, 中国, CN201610220216.8 (专利)
[5] 涂小慧; 张鹏; 邓淑玲; 林志丹; 李卫,一种可用于腐蚀磨损的测试方法2017.7.19, CN201710590205.3 (专利)