【曾宇乔导师】招生“材料科学与工程学院”研究生介绍
曾宇乔
教授
硕,博士生导师
女
材料科学与工程学院
材料科学与工程
纳米晶和非晶材料研究,脱合金法制备纳米多孔材料,分级多孔高熵涂层制备及其在能源领域的应用
zyuqiao@seu.edu.cn
四川彭州人,教授,博士生导师,华英学者,国家自然科学基金面上项目函评专家,蒋建清课题组(东南大学先进材料研究中心)成员。长期从事金属玻璃、纳米晶材料和纳微多孔材料的研究。在Acta Materialia, ScriptaMaterialia,Journal of Alloys and Compounds、Surface & Coatings Technology,Applied Physics Letters等国际权威期刊上发表论文40余篇,申请专利34项;2008年开发出了世界上最大尺寸镍基金属玻璃; 2007-2010年期间3次获日本东北大学GCOE特别奖励费, 共500万日元;近期开展的关于纳米多孔金属材料的工作, 已获国家自然科学面上项目基金、青年基金和华英基金等多项基金资助;2010年入选东南大学优秀青年教师资助项目;与华为、宝钢金属等公司开展研发合作。
欢迎有材料、物理、化学背景的同学加入!
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科研项目
1. “基于记忆合金的驱动力装置研究技术合作项目”,华为技术有限公司,参与,(2020)
2. “高性能冷镦钢丝皮膜评价及热处理新工艺的研发”,宝钢金属有限公司,参与,(2020)
3. “纳微复合结构超黑新材料的可控制备及光学性能调控研究”(51771052),国家自然科学基金面上项目,承担,(2018-2021)
4. “金属玻璃脱合金化制备燃料电池用纳米多孔催化剂”(51001026),国家自然科学基金青年基金,承担
5. “金属玻璃脱合金法制备无酶电流型葡萄糖传感材料”(6812000013),教育部留学回国人员科研启动基金,承担
6. “金属玻璃脱合金法制备新型葡萄糖传感材料”(104.205.2.5),东南大学重大指导专向基金,承担
7. “金属玻璃脱合金法制备新型葡萄糖传感材料”(7912000011),南京市留学人员科技活动项目择优资助项目,承担
8. “ 纳米复合硬质涂层中非晶组织的控制与致韧机理研究”(51201033),国家自然科学基金青年基金, 参与
9. “高活性纳米碳球的可控合成及应用”,丽港稀土公司,承担
10. “高活性纳米碳球的后处理技术”,丽港稀土公司,参与
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研究成果
发表论文:
1. Cui P., Wang T., Zhang X., Ba C., Wu Y., Peng K., Zeng Y., Jiang, J., NiCoCuP foam with a 3D hierarchical porous structure as all-pH efficient and stable HER electrocatalyst,INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,48 (2023):16725-16732
2. Bai, X., et al., Effect of ion control strateaies on the deposition rate and properties of copper films in bipolar pulse high power impulse magnetron sputtering. Journal of Materials Science, 2023. 58(3): p. 1243-1259.
3. Bai, X., et al., In-situ crystalline TiNi thin films deposited by HiPIMS at a low substrate temperature. Surface and Coatings Technology, 2023. 455: p. 129196.
4. Zhang, Z., et al., Electrocatalytic oxygen evolution performance of high entropy FeCoNiMoCr Alloy thin film electrode. Chinese Journal of Materials Research, 2021. 35(3): p. 193-200.
5. Y. Q. Zeng, J. S. Yu, Y. Tian, A. Hirata, T. Fujita, X. H. Zhang, N. Nishiyama, H. Kato, J. Q. Jiang, A. Inoue,M.W. Chen,Response to the commentary by Robert Tournier and Michael Ojovan on our publication entitled "Improving glass forming ability of off-eutectic metallic glass formers by manipulating primary crystallization reactions". Scripta Materialia, 2021. 205.
6. Y. Q. Zeng, J. S. Yu, Y. Tian, A. Hirata, T. Fujita, X. H. Zhang, N. Nishiyama, H. Kato, J. Q. Jiang, A. Inoue,M.W. Chen,Improving glass forming ability of off-eutectic metallic glass formers by manipulating primary crystallization reactions,Acta Materialia 200 (2020) 710–719
7. Yuqiao Zeng, Baorong Ji, Zhou Lv, Xinjian Zheng, Xingmei Yang, Peng Cui, Yan Dong, Xuhai Zhang, Jianqing Jiang, Rapid synthesis of porous Pt-Ni-Cu coatings with a wide composition range, tunable structures and enhanced electrocatalytic properties. Journal of Alloys and Compounds, 835(2020). 155402
8. Yuqiao Zeng, Bernard Gaskey, Ellen Benn, Ian McCue, Gina Greenidge,Kenneth Livi, Xuhai Zhang, Jianqing Jiang, Jonah Elebache,Electrochemical dealloying with simultaneous phase separation,Acta Materialia 171 (2019) 8-17
9. Xuhai Zhang, Juan Li, Jingcai Xiao, Jinhong Pi, Guangyu He, Long Chen, Yuqiao Zeng, Jianqing Jian,Effects of Si addition on structure and mechanical properties of TiAlSiCN coatings,Surface & Coatings Technology 362 (2019) 21-26
10. Yuqiao Zeng, Yunxi Zhen, Jianyong Bian, Jiamin Zhang, Jinhong Pi, Guangyu He,,Aiqun Xu, Xuhai Zhang, Jianqing Jiang,Cubic AlN with high thermal stabilities in TiN/AlN multilayers,Surface & Coatings Technology 364 (2019) 317-322
11. X. H. Zhang, Y. Q. Zeng, L. Yin, J. Q. Jiang,, Y. Pan, R. Li, L. Liu, K.C. Chan, Formation of micro/nano pits with high catalytic activity on Fe80B20 amorphous alloy, Corrosion Science 141(2018) 109-116
12. 5.Jianliang Lin, Xuhai Zhang, PeterLee, Ronghua Wei, Thick diamond like carbon coatings deposited by deep oscillation magnetron sputtering,Surface & Coatings Technology 315 (2017) 294-302
13. 6.Jian Chen,Xiangru Shi, Ben D. Beake, Xinli Guo, Zengmei Wang, Yao Zhang, Xuhai Zhang, and Stephen R. Goodes. An investigation into the dynamic indentation response of metallic materials, J. Mater. Sci. 2016, 51(18):8310-8322
14. 7.Jianliang Lin, Xuhai Zhang, Yixiang Ou, Ronghua Wei. The structure, Oxidation resistance, mechanical and tribological properties of CrTiAlN coatings. Surface & Coatings Technology. 277 (2015): 58-66
15. 8.Sheng-chen Yang, Mei-ping He, Yu-Qiao Zeng, Xuhai Zhang, Jianqing Jiang, Akihisa Inoue, Effects of metallic precursors on the catalytic performance of nanoporous metals. Materials research. 18 suppl.1 (2015):110-114
16. Yuqiao Zeng, Zheng Tan, Lichu Zhou, Meiya Jiang, YuedongQiu, Feng Fang, Haibo Huang, Xuhai Zhang, Jianqian Jiang. Effect of bias voltage on FeN films prepared by magnetron sputtering, Materials Research. 18 Suppl.1(2015):115-119
17. Yuqiao Zeng, Shengchen Yang, Hua Xiang, Xiaozhen Dong, Luyang Chen, Mingwei Chen, Akihisa Inoue, Xuhai Zhang, Jianqing Jiang. “Multicomponent nanoporous metals prepared by dealloying Pd80-xNixP20 metallic glasses. Intermetallics. 61 (2015): 66-71
18. YuqiaoZeng,YuedongQiu, Xiangyang Mao, Shuyong Tan, Zhen Tan, Xuhai Zhang*, and Jianqing Jiang,“SuperhardTiAlCN coatings prepared by RF Magnetron sputtering”,Thin Solid Film, 584(2015):283-288
19. Sheng-chen Yang, Mei-ping He, Yu-Qiao Zeng*, Xuhai Zhang, Jianqing Jiang, Akihisa Inoue, Effects of metallic precursors on the catalytic performance of nanoporous metals. Materials research. 18 suppl.1 (2015):110-114
20. Yuqiao Zeng, Hua Xiang, Chunlei Yang, Shengchen Yang, Luyang Chen, Mingwei Chen, Akihisa Inoue, Xuhai Zhang and Jiangqing Jiang,“Pd based nanoporous metals with superior catalytic activity”,Advances in Materials Science and Engineering,(2014) 263681,
21. Yuqiao Zeng*, Junna Zhang, Xiaozhen Dong , Xuhai Zhang and Jianqing Jiang,“Pd-based multicomponent nanoporous metals with enhanced electrocatalytic performance prepared by dealloying metallic glass”,Rare Metal Materials & Engineering,44 (2015):54-57
22. Qiu Yuedong,Zeng Yuqiao, Tan Zhen,Zhang Xuhai,Shao Qiyue,Tan Shuyong, Jiang Jianqing,Effect of N2 Flow Rate on Microstructures and Properties of TiAlCN Coatings,Chinese Journal of Vacuum Science and Technology,2015, 35(7)
23. Guo Lan, ZhiqiangXie, Zhengwei Huang, Shengchen Yang, XuhaiZhangm, Yuqiao Zeng* and Jiangqing Jiang, “Amorphous Alloy: Promising Precursor to Form Nanoflowerpot”,Advances in Materials Science and Engineering,(2014) 263681
24. Chun-Lei Yang, Xu-Hai Zhang, Guo Lan, Lu-Yang Chen, Ming-Wei Chen, Yu-Qiao Zeng*, Jian-Qing Jiang,“Pd-based nanoporous metals for enzyme-free electrochemical glucose sensors”,Chinese Chemical Letters,(2014) 518641
25. 杨春雷,项桦,杨圣晨,张旭海,曾宇乔(*),蒋建清,纳米多孔金的制备及其对葡萄糖催化性能研究,稀有金属材料与工程,2014.9.15,(S1):230-234
26. 崔志强,项桦,董承浩,保国强,张旭海,曾宇乔(*),蒋建清,改良电沉积法制备硝酸根高敏传感铜簇,功能材料,2015.9.15,(17):17127~17130
27. Xuhai Zhang, YuedongQiu, Zheng Tan, Jianliang Lin, Aiqun Xu, Yuqiao Zeng*, J.J. Moore, Jianqing Jiang,“Effect of Al content on structure and properties of TiAlCN coatings prepared by magnetron sputtering”,Journal of Alloys and Compounds,(2014) 617
28. Ye Pan, Yuqiao Zeng, Lijun Jing, Lu Zhang, Jinhong Pi,“Composition design and mechanical properties of ternary Cu–Zr–Ti bulk”, Materials and Design 55 (2014) 773–77
29. Zhang Xuhai, Dong Xiaozhen, Yang Chunlei Zeng Yuqiao*, Jiang jianqing, “Multi component nanoporous palladium with enhanced catalytic activity prepared by dealloying metallic glass” (in Chinese).Journal of Functional Materials. 2013: 44(24): 3634-3639
30. Junna Zhang, Xinyue He, Guosheng Dai, Chunlei Yang, Xiaozhen Dong, Yuqiao Zeng, Jianqing Jiang, “Advance of Pd catalyst for fuel cell”, Modern Metallurgy, 2013 41(4):1-5
31. Nobuyuki Nishiyama,Kana Takenaka,Haruko Miura, Noriko Saidoh,Yuqiao Zeng,Akihisa Inoue,”The world’s biggest glassy alloy ever made”, Intermetallics, 2012(30): 19-24
32. Y.Q. Zeng, A. Inoue, N. Nishiyama, M.W. Chen,“Ni-rich Ni-Pd-P bulk metallic glasses with significantly improved glass-forming ability and mechanical properties by Si addition”,Intermetallics, 18(2010) 1790-1793
33. Yuqiao Zeng, Chunling Qin, Nobuyuki Nishiyama, Akihisa Inoue,“New Nickel-based Bulk Metallic Glasses with Extremely High Nickel Content”,Journal of Alloys and Compounds, 489 (2010) 80–83
34. Yuqiao Zeng, Akihisa Inoue, Nobuyuki Nishiyama and Mingwei Chen,“Remarkable effect of minor boron doping on the formation of the largest size Ni-rich bulk metallic glasses”,ScriptaMaterialia, 60 (2009) 925-928
35. Yuqiao Zeng, Nobuyuki Nishiyama, Tokujiro Yamamoto and Akihisa Inoue,“Ni-Rich Bulk Metallic Glasses with High Glass-Forming Ability and Good Metallic Properties”,Materials Transactions, Vol. 50, No. 10 (2009):2441- 2445
36. Zeng Yuqiao, Nobuyuki Nishiyama and Akihisa Inoue, Development of “Ni-Pd-P-B Bulk Metallic Glasses with High Glass-Forming Ability”, Materials Transactions, Vol. 50, No. 6 (2009): 1243- 1246
37. A. Kawashima, Y. Zeng, M. Fukuhara, H. Kurishita, N. NIshiyama, H. Miki and A. Inoue: “ Mechanical properties of a Ni60Pd20P17B3 bulk glassy alloy at cryogenic temperatures”, Material Science and Engineering A, 498 (2008), 475-481 (SCI).
38. K. Wang, T. Fujita, Y. Zeng, N. Nishiyam, A. Inoue and M.W. Chen: “Micromechanisms of serrated flow in a Ni50Pd30P20 bulk metallic glass with a large compression plasticity”,ActaMaterialia, 56 (2008), 2834-2842 (SCI).
39. Y. Zeng, L. Louzguine, N. Nishiyama and A. Inoue: “Role of nanocrystals in ductile Ni-Pd-P metallic glass”, Journal of Alloys and Compounds 441 (2007) 131-134 (SCI).
40. Y. Zeng, N. Nishiyama, and A. Inoue: “Formation of a Ni-Based glassy alloy in Centimeter Scale”, Materials Transactions 48 (2007) 1355-1358 (SCI).
41. Y. Zeng, N. Nishiyama, T. wada, and A. Inoue: “Ni-rich Ni-Pd-P glassy alloy with high strength and good Ductility”, Materials Transactions 47 (2006) 175-178 (SCI).
42. Y. Zeng, Y. Dong, C. Zhang and J.Q. Jiang: The research status of green silicate phosphor for PDP” (In Chinese),Modern Metallurgy, 6 (2003):675-678.
43. D.V. Louzgine-Luzgin, Y. Zeng, A. Deny, N. Nishiyama, H. Kato, J. Saida and A. Inoue: “ Deformation behavior of Zr- and Ni-based bulk glassy alloys”, Journal of Materials Research, 22 (2007), 1087-1092 (SCI).
44. Z. Long, B. Shen, Y. Shao, C. chang, Y. Zeng and A. Inoue: “Corrosion behavior of [(Fe0.6Co0.4)(0.75)B0.2Si0.05](96)Nb4 bulk glassy alloy in sulphuric acid solutions” Materials Transaction 47 (2006) 2566-2570 (SCI).
45. Y. Dong, J.Q. Jiang, M.T. Sun and Y. Zeng, J. Yu: “Effect of accelerant on the forming process and the powder shape of α-Al2O3 for phosphor” (In Chinese), Journal of Southeast University, 34 (2004) 2.
46. X.Z. Hu, J. Yu, C. Liang, Y. Zeng, J.Q. Jiang: “Effect of rare earth on the performance of Al-Ti-C master alloy” (In Chinese), Journal of the Chinese Rare Earth Society 22 (2004) 247-251.
47. C. Liang, J.Q. Jiang, Y. Dong, M.T. Sun and Y. Zeng: “Recent development of PDP phosphor printing technology” (In Chinese), Journal of Functional Materials, 6 (2004) 675-678.
48. X.Z. Hu, R.S. Tan, C. Liang, J. Yun, Y. Zeng, J.Q. Jiang: “effect of various preparation ways on the organization and performance of Al-Ti-C master alloy” (In Chinese), Foundry, 3(2003) 243-246.
专利:
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2. 一种形状记忆合金弹簧疲劳循环测试系统CN202210490977.0
3. 一种高温合金耐热磷化膜、其制备方法及应用CN202210491928.9
4. 一种高催化活性TiXN/Pt复合膜电极及其制备方法CN202110490099.8
5. 一种高催化活性TiN/Pt复合膜电极及其制备方法CN202110490266.9
6. 一种中碳合金钢的加工方法CN113151654A
7. 一种高形成能的Ni基大块非晶及其制备方法CN111621724A 授权
8. 一种高活性水解制氢用三元高熵泡沫及其制备方法CN202010572634.X 授权
9. 一种高催化活性的超级晶胞及其制备方法CN202010572939.0 授权
10. 一种高活性电解水用四元高熵泡沫及其制备方法CN202010572610.4授权
11. 一种铜纳米线及其制备方法CN201910401737.7 授权
12. 一种长波段超黑多孔复合材料及其制备方法CN201910403992.5 授权
13. 一种具有高催化活性的Pd基钝化膜及其制备方法CN201910401743.2 授权
14. 一种铜修饰氮掺杂二氧化钛材料及其制备方法和应用CN201811485533.8
15. 一种高电阻率合金薄膜材料及其制备方法和应用CN201810711099.4 授权
16. 一种超厚立方AlN薄膜的制备方法CN201810261965.4
17. 一种高催化活性Pt基复合纳米枝晶及其制备方法CN201810262084.4
18. 一种低应力致密涂层的制备方法CN201810261975.8
19. 超黑纳米多孔Fe及其制备方法CN201710003628.0
20. 一种超黑纳米柱状Co及其制备方法CN201710003629.5 授权
21. 一种Cu掺杂Fe-N软磁薄膜及其制备方法CN201610279081.2 授权
22. 一种铜修饰氮掺杂二氧化钛薄膜的制备方法CN201610151195.9 授权
23. 枝晶状三维石墨烯及其制备方法CN201510903375.3 授权
24. 球壳状三维石墨烯及其制备方法CN201510904410.3 授权
25. 一种微纳石墨烯片的制备方法CN201510243280.3 授权
26. 用于镍基合金紧固件表面的抗高温粘结涂层及其制备方法CN201210397910.9 授权
27. 用于宽温域自适应的润滑涂层及其制备方法CN201210132248.4
28. 一种致密氮化物陶瓷涂层及其制备方法CN201210110473.8 授权
29. 一种氮掺杂二氧化锡薄膜的制备方法CN201210103874.0
30. Pd基过渡金属掺杂二元纳米多孔材料及其制备方法CN201110456763.3 授权
31. PdNiCu三元纳米多孔金属及其制备与应用CN201110455123.0 授权
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