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上月  2019-04  下月
    谢国强

    通讯地址:广东省深圳市南山区西丽大学城哈工大校区D栋416室
    联系电话:13928432086

    个人简介

    哈尔滨工业大学(深圳)材料科学与工程学院教授、博士生导师主要从事先端材料(金属玻璃·高熵合金及其复合材料、生物医用金属材料、多孔材料等)的开发和应用研究粉末冶金工艺研究核材料研制辐照损伤以及材料表面改性等研究。在金属材料学、粉末冶金、材料辐照损伤等领域做出了多项原创性研究成果。作为项目负责人主持科研项目30余项,作为主要骨干成员参与重大科研项目15项。Advanced Energy MaterialsAdvanced Functional MaterialsSmallJournal of Materials Science & Technology等学术刊物上发表论文400多篇,其中300多篇为SCI收录论文。由Springer等世界著名的学术出版公司出版的合著专著15部(英文12部,日文3)申请发明专利23项,获科研成果奖励12项。

     

     

     

    研究方向

    Ø 先端材料(金属玻璃·高熵合金及其复合材料、生物医用金属材料、多孔材料等)的开发和应用研究

    Ø 粉末冶金工艺研究 

    Ø 核材料研制辐照损伤 

    Ø 材料表面改性 

    本课题组常年招收博士后研究人员:

    (一)应聘条件: 
    1. 已获得博士学位或者应届博士研究生,具有材料、物理、冶金等相关学科背景
    2. 具有良好的团队合作精神,热爱科研工作,吃苦耐劳、积极向上
    岗位待遇:
    提供丰厚的博士后薪资(深圳市、学校加实验室津贴),其他按照学校政策享受住房及其他相关待遇。另外,课题组将根据实际科研绩效(文章、专利、项目申请等)给予额外奖励;并根据情况可提供海外高校交流机会,条件特优者可以面谈,工作优秀者提供额外奖励。

    博士后主要待遇:
    1、工资待遇:
    1)广东省珠江人才博士后:年薪不低于50万元 + 12万(获评校优秀博士后)+ 五险一金 + 科研成果奖励 + 优惠租房 + 年节福利 + 体检费

    2)普通博士后:年薪不低于26万元 + 12万(获评校优秀博士后)+ 五险一金 + 科研成果奖励 + 优惠租房 + 年节福利 + 体检费

    2、国(境)外机构联合培养与交流(带薪):经本人申请,合作导师推荐,可带薪赴国(境)外机构进行联合研究。

    3、留校工作政策:在站期间同时获得以下成果条件的,可申请聘为学校研究序列教师岗。
    1) 在站期间,以第一作者在本学科高水平期刊发表论文5篇以上(含本学科顶级期刊论文3篇);

    2)在站期间,获得省部级及以上科研项目1项。

    对于特别优秀的博士后,出站时可申请学校青年拔尖计划,如入选将聘为教学科研序列教授岗。

    4、留深圳工作政策:认定为深圳市高层次人才或孔雀计划享受160-200万元免税补贴 + 30万元科研资助。

    应聘说明:
    1. 将详细个人简历(包括:个人基本情况、教育和工作经历;主要研究成果,如论文、专著、专利、成果证书或奖励等清单;联系方式等)以及能体现个人科研能力和学术水平的相关资料发送至我的邮箱。
    2. 邮件主题为:姓名-应聘博士后
    3. 我会及时回复应聘者邮件。

    联系方式:
    邮箱:xieguoqiang@hit.edu.cn
    联系电话:+86-13928432086

    欢迎有志青年加入课题组!

    本课题组每计划招收2-3名硕士研究生,1~2名博士研究生,推免生优先,有读博意愿和热爱科研的同学优先。有意向同学请将个人学习/工作经历以及学术成果等;个人陈述(如研究特长,研究兴趣,研究计划,职业规划等);及其他申请人认为必要的材料发到邮箱xieguoqiang@hit.edu.cn

     

     

     

    教育经历

    2000-2003    日本新潟大学, 材料生产开发科学专业, 工学博士

    1990-1993    中国核工业总公司研究生院, 材料专业, 工学硕士

    1983-1987    北京钢铁学院(现北京科技大学), 物理专业, 理学学士

      

     

     

    研究与工作经历

    2017-至今    哈尔滨工业大学(深圳), 材料科学与工程学院, 教授、博士生导师 

    2010-2016    日本東北大学, 金属材料研究所, 副教授

    2005-2010    日本東北大学, 金属材料研究所, 助理教授

    2003-2005    日本物质·材料研究机构, 超高压电镜中心, 研究员

    1998-2000    日本国立金属材料技术研究所(现:物质·材料研究机构), 超高压电镜中心, 研究员

    1996-1998    中国原子能科学研究院, 反应堆工程技术研究所, 副研究员

    1987-1996    中国原子能科学研究院, 反应堆工程技术研究所, 助理研究员 

      

     

     

    专业资质与学术兼职

    2021-至今     中国腐蚀与防护学会,医用金属材料腐蚀控制分会,第一届委员会委员

    2018-至今    《Science China Technological Sciences》、《中国科学-技术科学》期刊编委

    2017-至今    《Advances in Materials Science and Engineering》期刊编委

    2013-至今    《功能材料》期刊编委

    1996          中国核学会,核材料分会,第四届委员会委员

     

     

     

    科研项目

    2021.01-2023.12    广东省自然科学基金 面上项目,10万元,主持

    2021.07-2023.12    先进焊接与连接国家重点实验室自主研究课题25万元,主持  

    2019.01-2022.12    国家自然科学基金 面上项目,60万元,主持

    2019.03-2022.01    深圳市科创委 基础研究计划学科布局项目200万元,主持

    2019.03-2021.03    深圳市科创委 技术创新项目80万元,主持,结题 

    2018.07-2021.06    深圳市发改委战略性新兴产业发展专项资金2018年第一、二、三批扶持计划(绿色低碳产业类) 深圳铝基水解制氢材料研发工程研究中心,500万元,第一核心成员 

    2017.09-2020.12    哈尔滨工业大学(深圳)新教师科研启动项目,20万元,主持,结题  

    2017.08-2020.08    深圳市孔雀计划 引进高端人才科研启动经费,500万元,主持,结题 

     

     

     

    科研成果及奖励

    2012    日本粉末冶金工业会第10回粉末冶金研究促进展奖励賞

    2004    日中科学技術交流協会野上茂吉郎纪念研究奨励賞

     

     

     

    发明专利 

    已申请发明专利23项(8项已经获得授权)。其中:中国发明专利11项,日本发明专利11项,PCT发明专利1项。

    Ø 已授权发明专利

    1). 谢国强,李博华:一种Ti-Zr-Si块体金属玻璃合金及其制备方法中国国家发明专利、哈尔滨工业大学(深圳)、专利号:ZL 2021 1 1247473.8、申请时间:20211026日;授权公告日:20220628日,授权公告号:CN 113862586 B

    2). 谢国强、包伟宗、闫寒、陈洁:金属玻璃颗粒增强纳米晶铜合金复合材料及其制备方法中国国家发明专利、哈尔滨工业大学(深圳)、专利号:ZL 2021 1 0691841.1、申请时间:2021622日;授权公告日:20220211日,授权公告号:CN 113388750 B

    3). 谢国强,向涛:一种NbTaTiZr双相等原子比高熵合金及其制备方法中国发明专利、哈尔滨工业大学(深圳)、专利号:ZL 2021 1 0395245.9、申请日期:2021413

    4). 谢国强,成蹊,蔡泽云:一种兼备强度和塑性的氧固溶钛烧结材料及其制备方法中国国家发明专利、哈尔滨工业大学(深圳)、专利号:ZL 2020 1 0222063.7专利申请日:2020326日;授权公告日:2021323,授权公告号:CN 111424187 B

    5). 邱华军、方刚、高姣姣、谢国强、刘兴军:纳米多孔高熵合金及其制备方法、中国国家发明专利、哈尔滨工业大学(深圳)、专利号:ZL 2019 1 0731439.4、专利申请日:201988日;授权公告日:202161日,授权公告号:CN 110484764 B

    6). G.Q. Xie, A. Inoue, D.V. Louzguine, H. Kimura and S. Li: “Metallic glass composites and the fabrication process of the metallic glass composites”, Patent Application Number: P2009-107145. Filing Date: April 24, 2009; Open Number: P2010-255053, Open Date: November 11, 2010; Patent Number: 5574144 (July 11, 2014).(日本发明专利

    7). K.S. Nakayama, Y. Yokoyama, G.Q. Xie, M.W. Chen, Q.S. Zhang, T. Sakurai and A. Inoue: “Nanosize metallic glass structure”, Patent Application Number: P2008-183080, Filing Date: July 14, 2008; Open Number: P2010-18878, Open Date: January 28, 2010; Patent Number: 5224514 (March 22, 2013). (日本发明专利

    8). G.Q. Xie, A. Hasegawa, K. Mitsuishi and K. Furuya: “Fabrication process of nanostructures in the pores of porous membranes”, Patent Application Number: P2004-20668, Filing Date: January 29, 2004; Open Number: P2005-212018, Open Date: August 11, 2005; Patent Number: 3861156 (October 6, 2006).(日本发明专利

     

     

     

    论文及著作

    Advanced Energy MaterialsAdvanced Functional MaterialsSmallJournal of Materials Science & Technology等学术刊物上发表论文400多篇,其中300多篇为SCI收录论文。

    2022

    1. Z.Y. Cai, J.Y. Chen, Z. Zhang, K. Li, X.X. Yang and G.Q. Xie*: “Microstructure regulation of titanium-oxygen alloy with high strength and excellent ductility for biomedical applications”, Intermetallics, 148 (2022) 107648 (7 pages).

    2. Z.W. Zhang, H.H. Yao, Q. Wang, W. Xue, Y. Wang*, L. Yin, X.Y. Wang, X.F. Li, C. Chen, J.H. Sui, X. Lin, Y. Chen, X.J. Liu, J. Mao*, G.Q. Xie*, Q. Zhang*: “Achieving high thermoelectric performance in severely distorted YbCd2Sb2, Advanced Functional Materials, 2022, 2205215 (7 pages).

    3. T. Xiang, P. Du, W.Z. Bao, Z.Y. Cai, K. Li and G.Q. Xie*: “Bimodal grain size structure design to optimize the mechanical properties of TiZrNbTa high entropy alloys/Ti composites”, Materials Science and Engineering A, 849 (2022) 143488 (9 pages).

    4. J.Y. Chen, Z.Y. Cai, T. Xiang, P. Du and G.Q. Xie*: “A titanium-nitrogen alloy with ultrahigh strength by ball milling and spark plasma sintering”, Materials Science and Engineering A, 848 (2022) 143465 (10 pages).

    5. Z.Y. Cai, J.Y. Chen and G.Q. Xie*: “Mechanical properties and corrosion resistance of large-size biodegradable Ca-Mg-Zn bulk metallic glasses fabricated via powder metallurgy”, Intermetallics, 148 (2022) 107633 (6 pages).

    6. X.R. Lin, Y.X. Hu, K.L. Hu*X. LinG.Q. XieX.J. LiuK.M. Reddy and H.J. Qiu*: “Inhibited surface diffusion of high-entropy nano-alloys for the preparation of 3D nanoporous graphene with high amounts of single atom dopants”, ACS Materials Letters, 4 (2022) 978-986,

    7. W.Z. Bao, J. Chen and G.Q. Xie*: “Optimized strength and conductivity of multi-scale copper alloy/metallic glass composites tuned by a one-step spark plasma sintering (SPS) process”, Journal of Materials Science & Technology, 128 (2022) 22-30.

    8. G.Q. Xie* and Z.W. Huang: “Optimizing mechanical and electrical properties of Cu-coated Cu-Zr-Al bulk metallic glass composites by adjusting glassy powder size”, Intermetallics, 146 (2022) 107570 (10 pages).

    9. B.B. Yang, C.Y. Shi, R.L. Lai, D.F. Shi, D.K. Guan, G.M. Zhu, Y.J. Cui*, G.Q. Xie, Y.P. Li*, A. Chiba, J. Lorca*: “Identification of active slip systems in polycrystals by slip trace-modified lattice rotation analysis (ST-MLRA)”, Scripta Materialia, 214 (2022) 114648 (7 pages),

    10. Y.Y. Zhang, X.X. Yang, Y.X. Hu, K.L. Hu, X. Lin, X.J. Liu, K. M. Reddy*, G.Q. Xie*, H.J. Qiu*: “Highly strengthened and toughened Zn-Li-Mn alloys as long-cycling life and dendrite-free Zn anode for aqueous zinc-ion batteries”, Small, 2022, 2200787 (7 pages),

    11. P. Du, T. Xiang, Z.Y. Cai and G.Q. Xie*: “The influence of porous structure on the corrosion behavior and biocompatibility of bulk Ti-based metallic glass”, Journal of Alloys and Compounds, 906 (2022) 164326 (8 pages).

    12. T. Xiang, P. Du, Z.Y. Cai, K. Li, W.Z. Bao, X.X. Yang and G.Q. Xie*: “Phase-tunable equiatomic and non-equiatomic Ti-Zr-Nb-Ta high-entropy alloys with ultrahigh strength for metallic biomaterials”, Journal of Materials Science & Technology, 117 (2022) 196-206.

    13. Z.F. Yao, T. Yang, M.J. Yang, X. Jia, C.L. Wang, J.X. Yu, Z. Li, H.Y. Han, W.H. Liu, G.Q. Xie, S.Y. Yang, Q. Zhang, C.P. Wang*, S. Wang*, X.J. Liu*: “Martensite colony engineering: a novel solution to realize the high ductility in full martensitic 3D-printed Ti alloys”, Materials & Design, 215 (2022) 110445 (11 pages).

    14. P. Du, T. Xiang, X.X. Yang and G.Q. Xie*: “Enhanced mechanical and antibacterial properties of Cu-bearing Ti-based bulk metallic glass by controlling porous structure”, Journal of Alloys and Compounds, 904 (2022) 164005 (11 pages).

    15. W.Z. Bao, J. Chen, X.X. Yang, T. Xiang, Z.Y. Cai, G.Q. Xie*: “Improved strength and conductivity of metallic-glass-reinforced nanocrystalline CuCrZr alloy”, Materials & Design, 214 (2022) 110420 (9 pages).

    16. Z.W. Zhang, H.H. Yao, X. Jia, X.Y. Wang, X.F. Li, C. Chen, X. Lin, J.H. Sui, X.J. Liu, J. Mao*, G.Q. Xie*, Q. Zhang*: “Band convergence and phonon engineering to optimize the thermoelectric performance of CaCd2Sb2”, Applied Physics Letters, 120 (2022) 041901 (5 pages).

    17. P. Du, K. Li, B. Zhu, T. Xiang and G.Q. Xie*: “Development of non-toxic low-cost bioactive porous Ti-Fe-Si bulk metallic glass with bone-like mechanical properties for orthopedic implants”, Journal of Materials Research and Technology, 17 (2022) 1319-1329. 

    18. J. Chen, B.H. Li, W.Z. Bao, Z.Y. Cai, G.Q. Xie*: “Achieving high strength and high conductivity of bulk metallic glass composites by controlled milling process”, Journal of Alloys and Compounds, 902 (2022) 163849 (9 pages).

    19. Z.Y. Jin, J. Lyu, K.L. Hu, Z.H. Chen, G.Q. Xie, X.J. Liu, X. Lin, H.J. Qiu*: “Eight-component nanoporous high-entropy oxides with low Ru contents as high-performance bifunctional catalysts in Zn-air batteries”, Small, JAN 2022, 2107207 (9 pages).

    20. T.T. Yu, Y.Y. Zhang, Y.X. Hu, K.L. Hu, X. Lin, G.Q. Xie, X.J. Liu, K.M. Reddy*, Y. Ito, H.J. Qiu*: “Twelve-component free-standing nanoporous high-entropy alloys for multifunctional electrocatalysis ”, ACS Materials Letters, 4 (2022) 181-189.

    21. K. Li, B.H. Li, P. Du, T. Xiang, X.X. Yang, G.Q. Xie*: “Effect of powder size on strength and corrosion behavior of Mg66Zn30Ca4 bulk metallic glass”, Journal of Alloys and Compounds, 897 (2022) 163219 (8 pages).

    22. K. Li, L.X. Liang, P. Du, Z.Y. Cai, T. Xiang, H. Kanetaka, H. Wu* and G.Q. Xie*: “Mechanical properties and corrosion resistance of powder metallurgical Mg-Zn-Ca/Fe bulk metal glass composites for biomedical application”, Journal of Materials Science & Technology, 103 (2022) 73-83. (封面论文)

    23. Y.Y. Zhang, X.P. Kong, X.R. Lin, K.L. Hu*, W.W. Zhao*, G.Q. Xie, X. Lin, X.J. Liu, Y. Ito, H.J. Qiu*: “Enhanced bifunctional catalytic activities of N-doped graphene by Ni in a 3D trimodal nanoporous nanotubular network and its ultralong cycling performance in Zn-air batteries”, Journal of Energy Chemistry, 66 (2022) 466-473.

    24. B.B. Yang, C.Y. Shi, X.J. Ye, J.W. Teng, R.L. Lai*, Y.J. Cui*, D.F. Shi, D.K. Guan, G.Q. Xie, Y.P. Li* and A. Chiba: “A novel strategy to strengthen the hexagonal closepacked (HCP) alloys”, Journal of Alloys and Compounds, 893 (2022) 162346 (11 pages).

     

    2021

    25. K. Li, Z.Y. Cai, P. Du, T. Xiang, X.X. Yang and G.Q. Xie*: “Core-shell Mg66Zn30Ca4 bulk metallic glasses composites reinforced by Fe with high strength and controllable degradation”, Intermetallics, 138 (2021) 107334 (9 pages).

    26. J.J. Gao, Y.X. Hu, Y. Wang, X.R. Lin, K.L. Hu, X. Lin, G.Q. Xie, X.J. Liu, K.M. Reddy, Q.H. Yuan*, H.J. Qiu*: “MOF structure engineering to synthesize Co-N-C catalyst with richer accessible active sites for enhanced oxygen reduction”, Small, NOV 2021, 2104684 (9 pages).

    27. Y.Y. Zhang, J. Lyu, Y.L. Zhao, K.L. Hu, Z.H. Chen, X. Lin, G.Q. Xie, X.J. Liu, H.J. Qiu*: “In situ coupling of Ag nanoparticles with high-entropy oxides as highly stable bifunctional catalysts for wearable Zn-Ag/Zn-air hybrid batteries”, Nanoscale, 13 (2021) 16164-16171.  

    28. T.J. Zhou, Y. Guo, G.Q. Xie*, S.U. Rehman, R.H. Liu*, J.R. Liu, P.P. Qu and M.F. Li: “Coercivity and thermal stability enhancement of NdFeB magnet by grain boundary diffusion Tb80Al20 alloys”, Intermetallics, 138 (2021) 107335 (5 pages).

    29. W.Z. Bao, H. Yan, J. Chen and G.Q. Xie*: “High strength conductive bulk Cu-based alloy/metallic glass composites fabricated by spark plasma sintering”, Materials Science and Engineering A, 825 (2021) 141919 (9 pages).

    30. Z.Y. Cai, J.Y. Chen, P. Du, T. Xiang, J. Chen and G.Q. Xie*: “Mechanical behavior and microstructure control of the low-cost titanium-oxygen alloy prepared by ball milling and spark plasma sintering”, Journal of Alloys and Compounds, 887 (2021) 161349 (9 pages).

    31. P. Du, B. Zhu, X.X. Yang and G.Q. Xie*: “Toxic elements-free low-cost Ti-Fe-Si metallic glass biomaterial developed by mechanical alloying”, Journal of Alloys and Compounds, 886 (2021) 161290 (8 pages).

    32. K.L. Hu*, T.T. Yu, Y.Y. Zhang, X.R. Lin, Y.L. Zhao, G.Q. Xie, X.J. Liu, X. Lin, J.I. Fujita, H.J. Qiu* and Y. Ito*: “Inhibiting surface diffusion to synthesize 3D bicontinuous nanoporous N-doped carbon for boosting oxygen reduction reaction in flexible all-solid-state Al-air batteries”, Advanced Functional Materials, 2021, 2103632 (7 pages). (Back Cover).   

    33. W.Z. Bao, T. Xiang, Z.Y. Cai, J. Chen, L.K. Bao and G.Q. Xie*: “A first-principles prediction of electronic, mechanical and thermodynamic properties of α-LuAlB4 and β-LuAlB4 ceramics”, Vacuum, 191 (2021) 110375 (12 pages).  

    34. P. Du, Z.W. Wu, K. Li, T. Xiang and G.Q. Xie*: “Porous Ti-based bulk metallic glass orthopedic biomaterial with high strength and low Young's modulus produced by one step SPS”, Journal of Materials Research and Technology, 13 (2021) 251-259.

    35. T. Xiang, Z.Y. Cai, P. Du, K. Li, Z.W. Zhang and G.Q. Xie*: “Dual phase equal-atomic NbTaTiZr high-entropy alloy with ultra-fine grain and excellent mechanical properties fabricated by spark plasma sintering”, Journal of Materials Science & Technology, 90 (2021) 150-158.  

    36. Z.Y. Jin, J. Lyu, Y.L. Zhao*, H.L. Li*, Z.H. Chen, X. Lin, G.Q. Xie, X.J. Liu, J.J. Kai and H.J. Qiu*: “Top-down synthesis of noble metal particles on high-entropy oxide supports for electrocatalysis”, Chemistry of Materials, 33 (2021) 1771-1780. 

    37. Z.W. Wu, P. Du, T. Xiang, K. Li and G.Q. Xie*: “Ti-based bulk metallic glass implantable biomaterial with adjustable porosity produced by a novel pressure regulation method in spark plasma sintering”, Intermetallics, 131 (2021) 107105 (7 pages).

    38. Y.H. Li, X.J. Jia, W. Zhang*, Y. Zhang, G.Q. Xie, Z.Y. Qiu, J.H. Luan, Z.B. Jiao: “Formation and crystallization behavior of Fe-based amorphous precursors with pre-existing α-Fe nanoparticles- structure and magnetic properties of high-Cu-content Fe-Si-B-Cu-Nb nanocrystalline alloys”, Journal of Materials Science & Technology, 65 (2021) 171-181.

    39. T.J. Zhou, P.P. Qu, W.M. Pan, R.H. Liu, M.F. Li, S.U. Rehman, Z.C. Zhong* and G.Q. Xie*: “Sintered NdFeB magnets with Tb-Dy double-layer core/shell structure were fabricated by double alloy method and grain boundary diffusion”, Journal of Alloys and Compounds, 856 (2021) 158191 (7 pages).

     

    2020

    40. Z.Y. Jin, J. Lyu, Y.L. Zhao, H.L. Li*, X. Lin, G.Q. Xie, X.J. Liu, J.J. Kai and H.J. Qiu*: “Rugged high-entropy alloy nanowires with in situ formed surface spinel oxide as highly stable electrocatalyst in Zn-air batteries”, ACS Materials Lett., 2020, 2, 1698-1706.

    41. S.Y. Li, J.Q. Wang, X. Lin, G.Q. Xie, Y. Huang*, X.J. Liu and H.J. Qiu*: “Flexible solid-state direct ethanol fuel cell catalyzed by nanoporous high-entropy Al-Pd-Ni-Cu-Mo anode and spinel (AlMnCo)3O4 cathode”, Advanced Functional Materials, 2020, 2007129.

    42. S.Y. Li, X.Y. Zhou, G. Fang, G.Q. Xie, X.J. Liu, X. Lin* and H.J. Qiu*: “Multicomponent spinel metal oxide nanocomposites as high-performance bifunctional catalysts in Zn-air batteries”, ACS Applied Energy Materials, 3 (2020) 7710-7718.

    43. Z.W. Zhang, Y. Yan, X.F. Li, X.Y. Wang, J. Li, C. Chen, F. Cao, J. Sui, X. Lin, X.J. Liu, G.Q. Xie*, Q. Zhang*: “A dual role by incorporation of magnesium in YbZn2Sb2 Zintl phase for enhanced thermoelectric performance”, Advanced Energy Materials, 2020, 200122.  

    44. Z.W. Huang, Z.W. Wu, X. Cheng, Z.W. Zhang, G.Q. Xie*: “Bulk metallic glass composites with high strength and electrical conductivity by sintering Cu-coated CuZrAl glassy powder”, Journal of Alloys and Compounds, 841 (2020) 155723 (8 pages).

    45. P. Du, K.L. Hu, J. Lyu, H.L. Li*, X. Lin, G.Q. Xie, X.J. Liu, Y. Ito*, H.J. Qiu*: “Anchoring Mo single atoms/clusters and N on edge-rich nanoporous holey graphene as bifunctional air electrode in Zn−air batteries”, Applied Catalysis B: Environmental, 276 (2020) 119172 (8 pages).

    46. J.J. Gao, X.W. Tang, P. Du, H.L. Li*, Q.H. Yuan*, G.Q. Xie and H.J. Qiu*: “Synergistically coupling ultrasmall PtCu nanoalloys with highly porous CoP nanosheets as an enhanced electrocatalyst for electrochemical hydrogen evolution”, Sustainable Energy & Fuels, 4(5) (2020) 2551-2558.

    47. Z.Y. Cai, K. Li and G.Q. Xie*: “Optimizing strength and ductility of titanium alloys by oxygen: review and prospect”, Chinese Journal of Structural Chemistry, 39 (4) (2020) 615-622. 

    48. G. Fang, J.J. Gao, J. Lv, H.L. Jia, H.L. Li*, W.H. Liu, G.Q. Xie, Z.H. Chen, Y. Huang, Q.H. Yuan, X.J. Liu, X. Lin, S.H. Sun, H.J. Qiu*: “Multi-component nanoporous alloy/(oxy)hydroxide for bifunctional oxygen electrocatalysis and rechargeable Zn-air batteries”, Applied Catalysis B: Environmental, 268 (2020) 118431 (9 pages).

    49. S.Y. Li, X.W. Tang, H.L. Jia, H.L. Li*, G.Q. Xie, X.J. Liu, X. Lin and H.J. Qiu*: “Nanoporous high-entropy alloys with low Pt loadings for high-performance electrochemical oxygen reduction”, Journal of Catalysis, 383 (2020) 164-171.

    50. Z. Wang*, M.S. Xie, W.W. Zhang, C. Yang, G.Q. Xie and D.V. Louzguine: “Achieving super-high strength in an aluminum based composite by reinforcing metallic glassy flakes”, Materials Letters, 262 (2020) 127059 (3 pages).

     

     

     

    任教和任导师经历

    1. 材料学院 硕士生学位课 《论文写作与学术规范

    2. 材料学院 本科生课程:《结构材料学》,《生物材料》