欧阳楚英

发布者:ldxy发布时间:2022-09-23浏览次数:3050


一、个人简介:

欧阳楚英,男,197612月生,19977月毕业于beplay官方网站官网物理专业,获学士学位。20007月毕业于beplay官方网站官网理论物理专业(导师:雷敏生教授),获硕士学位,并留校任教。20057月毕业于中科院物理所获凝聚态物理专业(导师:陈立泉院士),获博士学位。20058月至20088月于Swiss Federal Institute of Technology (at LausanneEPFL)做博士后研究(导师:Alfonso Baldereschi教授)。20101月至201012月于韩国科学技术研究院(KIST)做高级访问学者。

2010年入选江西省首届赣鄱英才555工程领军人才计划;2007年被评为江西省高等院校中青年学科带头人,并同时进入江西省百千万人才工程培养梯队。2006年开始担任“理论物理”和“凝聚态物理”方向硕士生导师,2016年开始担任“计算材料物理”方向硕士生导师。2012年开始担任“纳米材料物理与化学”方向博士生导师, 2022年开始担任“凝聚态物理”方向博士生导师。2011年开始担任物理学学科带头人,2012年被聘为beplay官方网站官网物理学首席教授。2013年被评为江西省优秀研究生指导老师。2014年获江西省人民政府特殊津贴。

主要从事新能源材料相关物理方面的研究工作。主持多项国家自然科学基金及其他科研项目,在National Science Review, Nature EnergyJ. Mater. Chem. A, Phys. Rev. B等国际物理类和能源材料类刊物上发表论文近200余篇,SCI他人引用6800多次,其中单篇引用超过200次的有9篇。2020年入选全球高被引学者(物理学)。先后三次获江西省自然科学奖。

二、联系方式:

Emailcyouyang@jxnu.edu.cn

三、研究方向:

1、新能源材料物理、锂离子电池材料、薄膜材料物理

2、计算凝聚态物理,计算材料学

3、材料计算方法设计,材料基因工程

四、研究生培养:

博士生

14

吴木生

纳米材料物理与化学

15

徐华兰

纳米材料物理与化学

16

罗文崴

纳米材料物理与化学

第二导师

18

胡伟

纳米材料物理与化学

硕士生

08

胡军平

凝聚态物理

北京理工大学博士

08

曾祥明

凝聚态物理

厦门大学博士

10

鄢慧君

凝聚态物理

北京大学博士

11

姚胡蓉

凝聚态物理

中科院化学所博士生

12

王志强

凝聚态物理

厦门大学博士

14

宁芳华

凝聚态物理

北京大学博士

16

郑路敏

计算材料物理

考取北京理工大学博士

17

倪地新

计算材料物理

考取南方科技大学博士

18

熊立新

凝聚态物理

考取南开大学博士

五、讲授课程:

序号

课程名称

授课对象

备注

1

纳米材料物理与化学前沿专题

纳米材料物理与化学(博士生)

2

物理专业英语

物理学各专业硕士研究生

3

凝聚态材料模拟

凝聚态物理专业硕士生

4

计算物理

物理学各专业硕士研究生

5

凝聚态物理前沿专题

理论物理和凝聚态物理专业硕士生

六、学生论文代表作(加粗为学生,加*为通信作者)

1. Lixin Xiong, Hewen Wang*, Shicheng Yu, Wan Xiong,Chuying Ouyang*, First-principles calculation identification of ultrahigh hydrogen storage capacity ing-Mg3N2,J. Alloy. Compound.,867, 158744 (2021).DOI: 10.1016/j.jallcom.2021.158744

2. Lixin Xiong, Dixing Ni, Wan Xiong, Hewen Wang,Chuying Ouyang*, The thermodynamics and electronic structure analysis of P-doped spinel Co3O4,Phys. Chem. Chem. Phys,23, 3588-3594 (2021).DOI: 10.1039/d0cp05284a

3. Jiahao Qiu, Musheng Wu*, Wenwei Luo, Bo Xu*, Gang Liu,Chuying Ouyang*, Insights into bulk properties and transport mechanisms in new ternary halide solid electrolytes: First-principles calculations,J. Phys. Chem. C,125, 23510-23520 (2021).DOI: 10.1021/acs.jpcc.1c07347

4. Zhiqiang Wang, Da Wang#, Zheyi Zou, Dixing Ni, Zhenzhu Li, Xuecheng Shao, Wanjian Yin, Yanchao Wang, Wenwei Luo, Musheng Wu, Bo Xu, Siqi Shi*,C. Y. Ouyang*, Liquan Chen, Efficient potential-tuning strategy through p-type doping for designing ultrahigh energy density cathodes,National Science Review,7, 1768-1775 (2020).DOI: 10.1093/nsr/nwaa174

5. W. Hu, H. W. Wang*, M. Luo, D. Y. Jiang,C. Y. Ouyang*,Hydrogen solution in tungsten (W) under different temperatures and strains: a first principles calculation study,Phys. Chem. Chem. Phys.,22, 19623-19639 (2020).DOI: 10.1039/D0CP02878A

6. D. X. Ni, S. D. Liu, M. S. Wu*, X. L. Lei, B. Xu, S. C. Jun,C. Y. Ouyang*,Strong Jahn-Teller effect at NiO4tetrahedron in NiCo2O4spinel,Phys. Lett. A384,126114(2020).DOI: 10.1016/j.physleta.2019.126114

7. W. Xiong, W. W. Luo, L. X. Xiong, M. S. Wu, B. Xu,C. Y. Ouyang*,The effectof thickness on the Li-ion adsorption behaviorsof 2DTin+1Cnmulti-layers fromfirst-principles calculations,Thin Solid Films,704, 138019 (2020).DOI: 10.1016/j.tsf.2020.138019

8. W. W. Luo, H. W. Wang, Z. Q. Wang*, G. Liu, S. Q. Liu,C. Y. Ouyang*, First-principles study of chi(3)-borophene for charge-modulated switchable CO2capture,Phys. Chem. Chem. Phys.,22, 8864-8869 (2020).DOI:10.1039/d0cp01020k

9. Muqin Wang, Zhe Peng*,Wenwei Luo, Qiang Zhang, Zhengdong Li, Yun Zhu, Huan Lin, Liangting Cai, Xiayin Yao,Chuying Ouyang*, Deyu Wang*, Improving the interfacial stability between lithium and solid-state electrolyte via dipole-structured lithium layer deposited on graphene oxide,Adv. Sci.,7, 2000237 (2020).DOI: 10.1002/advs.202000237

10. Qianyu Zhang, Chaofeng Zhang,Wenwei Luo, Lifeng Cui, Yan-Jie Wang,* Tengyue Jian, Xiaolin Li, Qizhang Yan, Haodong Liu,Chuying Ouyang, Yulin Chen, Chun-Long Chen,* Jiujun Zhang*, Sequence-defined peptoids with -OH and -COOH groups as binders to reduce cracks of Si nanoparticles of lithium-ion batteries,Adv. Sci.,7, 2000749 (2020).DOI: 10.1002/advs.202000749

11. M. S. Wu, B. Xu*,W. W. Luo, B. Z. Sun,C. Y. Ouyang*,Interfacial properties and Li-ion dynamics between Li3OCl solid electrolyte and Li metal anode for all solid state Li metal batteries from first principles study,Electrochimica Acta,334, 135622 (2020).DOI: 10.1016/j.electacta.2020.135622

12. M. S. Wu, B. Xu*,W. W. Luo, B. Z. Sun,J. Shi,C. Y. Ouyang*,First-principles study on the structural, electronic, and Li-ion mobility properties of anti-perovskite superionic conductor Li3OCl (100) surface,Appl. Surf. Sci.,510, 145394 (2020).DOI: 10.1016/j.apsusc.2020.145394

13. Shicheng Yu, Zhiqiang Wang*, Lixin Xiong, Wan Xiong,Chuying Ouyang*, Interpenetrating graphene network bct-C40: a promising anode material for Li ion batteries,Phys. Chem. Chem. Phys.,21, 23485-23491 (2019).DOI: 10.1039/c9cp04499j

14. S. D. Liu, K. S. Hui,D. X. Ni, Y. Yin, K. N. Hui*,C. Y. Ouyang*, S. C. Jun*,New insight into the effect of fluorine doping and oxygen vacancies onelectrochemical performance of Co2MnO4for flexible quasi-solid-stateasymmetric supercapacitors,Energy Storage Materials,22, 384-196(2019).DOI: 10.1016/j.ensm.2019.02.014

15. S. D. Liu, Y. Yin,D. X. Ni, K. S. Hui, K. N. Hui*, S. Lee,C. Y. Ouyang*,S. C. Jun*, Phosphorous-containing oxygen-deficient cobalt molybdate as an advanced electrode material for supercapacitors,Energy Storage Materials,19, 186-196(2019).DOI: 10.1016/j.ensm.2018.10.022

16. Muqin Wang, Zhe Peng*,Wenwei Luo, Feihong Ren, Zhengdong Li, Qiang Zhang,Chuying Ouyang*, Deyu Wang*, Tailoring lithium deposition via a SEI-functionalized membrane derived from LiF decorated layered carbon structure,Adv. Energy Mater.,9(12), 1802912 (2019).DOI: 10.1002/aenm.201802912

17. L. X. Xiong, J. P. Hu*, S. C. Yu, M. S. Wu, B. Xu,C. Y. Ouyang*, Density functional theory prediction of Mg3N2as a high-performance anode material for Li-ion batteries,Phys. Chem. Chem. Phys.,21, 7053-7060(2019).DOI: 10.1039/C8CP07398H

18. D. X. Ni, J. Shi*, W. Xiong, S. Y. Zhong, B. Xu,C. Y. Ouyang, The effect ofprotons on the Mg2+migration in an α-V2O5cathode for magnesium batteries:a first-principle investigation,Phys. Chem. Chem. Phys., 21, 7406-7411 (2019).DOI: 10.1039/c9cp00528e

19. M. Luo, D. Y. Jiang, S. Q. Liu,C. Y. Ouyang*, Effect of interstitial hydrogen on the mechanical and thermal properties of tungsten: A first-principles study,J. Phys. Chem. C,123, 1913-1921(2019).DOI: 10.1021/acs.jpcc.8b10659

20. L. M. Zheng, Z. Q. Wang, M. S. Wu, B. Xu,C. Y. Ouyang*,Jahn-Teller type small polaron assisted Nadiffusion in NaMnO2as cathode material for Na-ion batteries,J. Mater. Chem. A,7, 6053-6061(2019).DOI: 10.1039/c8ta11955d

21. S. D. Liu, K. S. Hui,M. S. Wu, Y. Yin, K. N. Hui*,C. Y. Ouyang*, S. C. Jun*, Phosphorus-mediated MoS2nanowires as a high-performance electrode material for quasi-solid-state sodium-ion intercalation supercapacitors,Small,15 (4), 1803984 (2019).DOI: 10.1002/smll.201803984

22. H. L. Xu, R. Liu, S. Q. Zhang, M. Deng, K. Y. Han, B. Xu,C. Y. Ouyang*, S. L. Zhong*,Scandium molybdate microstructures with tunable phase and morphology: Microwave synthesis, theoretical calculations and photoluminescence properties,Inorganic Chemistry, 58, 2491 (2019).DOI: 10.1021/acs.inorgchem.8b03056

23. Z. J. Zhao, J. P. Yao, B. Z. Sun*, S. Y. Zhong, X. L. Lei, B. Xu,C. Y. Ouyang, First-principles identification of spinel CaCo2O4as a promising cathode material for Ca-ion batteries,Solid State Ionics, 326, 145-149 (2018).

24. W. W. Luo, H. W. Wang*, J. P. Hu, S. Q. Liu,C. Y. Ouyang*,Curvature induced improvement of Li/Na storage in Ca2N nanotubes,Appl. Surf. Sci., 459, 406-410 (2018).

25. L. M. Zheng, H. W. Wang, M. Luo, G. Q. Wang, Z. Q. Wang*,C. Y. Ouyang*,Na2MnO3as cathode materials for Na ion batteries: From first-principles investigations,Solid State Ionics, 320, 210-214 (2018).

26. M. S. Wu, B. Xu, X. L. Lei, K. Huang,C. Y. Ouyang*,Bulk properties andtransport mechanismsof solid state antiperovskite Li-ion conductor Li3OCl: Insights from first principles calculations,J. Mater. Chem. A, 6, 1150-1160 (2018).

27. S. D. Liu,D. X. Ni, H. F. Li, K. N. Hui*,C. Y. Ouyang*, S. C. Jun*, Effect of cation substitution on pseudocapacitive performance of spinel cobaltite MCo2O4(M = Mn, Ni, Cu, and Co),J. Mater. Chem. A, 6, 10674-10685 (2018).

28. H. W. Wang,M. S. Wu#, X. L. Lei, Z. F. Tian, B. Xu, K. Huang*,C. Y. Ouyang*,Siligraphene as a promising anode material for lithium-ion batteries predicted from first-principles calculations,Nano Energy,49, 67-76 (2018).

29. F. H. Ning, B. Xu*, J. Shi, H. B. Su, M. S. Wu,C. Y. Ouyang*,Ab initioinvestigation of Jahn-Teller distortion tuned Li-ion migration in λ-MnO2,J. Mater. Chem. A, 5, 9618 (2017).

30. H. R. Yao, P. F. Wang, Y. Gong, J. N. Zhang, X. Q. Yu, L. Gu,C. Y. Ouyang, Y. X. Yin, E. Y. Hu, X. Q. Yang, E. Stavitski, Y. G. Guo*, L. J. Wan, Designing Air-Stable O3-Type Cathode Materials by Combined Structure Modulation for Na-Ion Batteries,J. Am. Chem. Soc., 139, 8840 (2017).

31. M. S. Wu, B. Xu,C. Y. Ouyang*, Further discussions on geometry and fast diffusion of AlCl4cluster intercalated in graphite,Electrochimica Acta, 223, 137 (2017).

32. H. L. Xu, R. Liu, B. Xu, X. W. Li,C. Y. Ouyang*, S. L. Zhong*, Preparation and temperature-dependent photoluminescence properties of ScF3:Eu3+submicroparticles,New J. Chem., 41, 7915 (2017).

33. H. L. Xu, B. Xu, R. Liu, X. W. Li, S. Q. Zhang,C. Y. Ouyang*, S. L. Zhong*,Facile microwave synthesis of ScPO4·2H2O flowerlike superstructures: morphology control, electronic structure and multicolor tunable luminescent properties,CrystEngComm, 19, 5787-5796 (2017).

34. M. S. Wu, B. Xu, L. Q. Chen,C. Y. Ouyang*,Geometry and fast diffusion of AlCl4cluster intercalated in graphite,Electrochimica Acta,195, 158 (2016).

35. M. S. Wu, B. Xu,C. Y. Ouyang*,The strain-induced manipulation of spin-flip in Co3O4: A first principles study,J. Mater. Sci.,51, 4691 (2016).

36. F. H. Ning, B. Xu*, J. Shi, M. S. Wu, Y. Q. Hu,C. Y. Ouyang,Structural, electronic and Li migration properties of RE-doped (RE = Ce, La) LiCoO2for Li-ion batteries: A first-principles investigations,J. Phys. Chem. C, 120, 18428 (2016).

37. M. S. Wu, B. Xu,C. Y. Ouyang*,The strain-induced manipulation of spin-flip in Co3O4: A first principles study,J. Mater. Sci.,51, 4691 (2016).

38. Z. Q. Wang, M. S. Wu, B. Xu,C. Y. Ouyang*,Improving the electrical conductivity and structural stability of theLi2MnO3via P doping,J. Alloys Compound., 658, 818 (2016).

39. M. S. Wu, B. Xu,C. Y. Ouyang*,Physics of electron and lithium ion transport in electrode materials for Li ion batteries(Invited Topic Review Article),Chin. Phys. B,25, 018206 (2016).

40. J. P. Hu, B. Xu, S. Y. Yang, S. Guan,C. Y. Ouyang,and Y. G. Yao*, 2-D electrides as promising anode materials for Na-ion batteries from first-principles study,ACS Appl. Mater. Inter., 7, 24016 (2015).

41. Y. Li, M. S. Wu,C. Y. Ouyang*,The structural and electronic properties of spinel MnCo2O4bulk and low-index surfaces: From first principles studies,Appl. Surf. Sci., 349, 510 (2015).

42. X. Gong, S. S. Liu,C. Y. Ouyang, P. Strasser, R. Z. Yang*, Nitrogen and phosphorus doped biocarbon with enhanced electrocatalytic activity for oxygen reduction,ACS Catalysis, 5, 920 (2015).

43. Q. Y. Zhang,H. S. Lu, H. X. Zhong, X. D. Yan,C. Y. Ouyang*, L. Z. Zhang*,W6+& Br_codoped Li4Ti5O12anode with super rate performance for Li-ion batteries,J. Mater. Chem. A, 3, 13706 (2015).

44. F. H. Ning, S. Li, B. Xu,C. Y. Ouyang*, Strain tuned Li diffusion in LiCoO2material for Li ion batteries: A first principles study,Solid State Ionics, 263, 46 (2014).

45. Z. Q. Wang, Y. C. Chen,C. Y. Ouyang*, Polaron states and migration in F-doped Li2MnO3,Phys. Lett. A, 378, 2449 (2014).

46. J. P. Hu, B. Xu,C. Y. Ouyang, S. Y. A. Yang, Y. G. Yao, Investigations on V2C and V2CX2(X=F, OH) mono-layer as a promising anode material for Li ion batteries from first-principles calculations,J. Phys. Chem. C, 118, 24274 (2014).

47. C. Y. Ouyang, L. Q. Chen, Physics towards next generation Li secondary batteries materials: A short review from computational materials design perspective,SCIENCE CHINA, Physics, Mechanics & Astronomy,56(12), 2278 (2013).

48. H. J. Yan, B. Xu, S. Q. Shi,C. Y. Ouyang*,First-principles study of the oxygen adsorption and dissociation on graphene and nitrogen doped graphene for Li-air Battery,J. Appl. Phys.,112, 104316 (2012).

49. Y. L. Du,C. Y. Ouyang*, S. Q. Shi, M. S. Lei,Ab initiostudies on atomic and electronic structures of black phosphorus,J. Appl. Phys,107, 093718 (2010).

50. Z. Y. Zhong,C. Y. Ouyang*, S. Q. Shi, and M. S. Lei,Ab initiostudies of Li4+xTi5O12(0 ≤x≤ 6) as anode material for lithium ion batteries,ChemPhysChem,9, 2104 (2008).

七、科研课题:

1. 《尖晶石结构电极材料中的离子和电荷序问题及其对锂离子电池性能的影响》,国家自然科学基金,(编号:12174162),主持人,直接经费49万。

2. 《电位调控技术研究与锂离子电池电极材料设计》,国家自然科学基金,(编号:51962010),主持人,直接经费40万。

3. XXXXXX正极材料的物化性质及掺杂&包覆改性研究》,企业合作项目,合作单位:宁德时代新能源科技股份有限公司。主持人,经费80万。

4. 《锂离子在固相材料中的迁移动力学问题研究》,国家自然科学基金,(编号:11564016),主持人,经费54.96万。(已结题)

5. 《基于材料基因工程的高性能材料设计、制备与表征技术》,863重点项目,(编号:2015AA0342012015-2017,子课题负责人(总排名第5),本单位经费92.88万(总经费931万元)。(已结题)

6. 《利用材料科学系统工程方法研究设计锂离子电池材料》,江西省自然科学基金重点项目,(编号:20133ACB21010)主持人,经费20万。(已结题)

7. 下一代锂离子电池材料物理问题研究》,国家自然科学基金重点基金。(编号:11234013),排名第二(和中科院物理所、电子科技大学合作项目,beplay官方网站官网负责人),经费310万(其中beplay官方网站官网经费77.5万)。(已结题)

8. 应用计算材料科学方法研究锂离子电池电极材料中的几个物理问题》,国家自然科学基金。(编号:11064004),主持人,经费32万。(已结题)

9. 《计算材料学研究XXXXXX的物理化学机制和改性方法》,企业合作项目,合作单位:东莞新能源科技有限公司。主持人,经费100万。(已结题)

10. 《氧化物基底对吸附铱原子团簇的物理化学性质的影响》,江西省自然科学基金(编号:2010GZW0028),主持人,经费3万。(已结题)

11. 《锂离子电池电极材料深度嵌锂和表面特性研究》,教育部留学回国人员科研启动基金,主持人,经费3.5万。(已结题)

12. 《应用计算材料科学方法研究设计锂离子电池正极材料》,国家自然科学基金,(编号:10604023),主持人,经费31万。(已结题)

八、科研奖励:

1. 徐波,欧阳楚英,刘刚,胡军平,《二维层状材料的物理与储能特性的第一性原理研究》,2018年度江西省自然科学三等奖,2019. 9(证书编号:Z-18-3-24-R02

2. 施思齐*,高健,刘悦*,赵彦、武曲,琚王伟,欧阳楚英*,肖睿娟*,《Multi-scale computation methods: Their applications in lithium-ion battery research and development, Chin. Phys. B, 25, 018212 (2016),中国物理学会2019年度最有影响论文奖一等奖

3. 吴木生,徐波,刘刚,欧阳楚英,CrW掺杂的单层MoS2电子结构的第一性原理研究,物理学报201362, 037103,中国物理学会“2018年度最有影响论文奖

4. 欧阳楚英,徐波,雷敏生,《应用计算材料学方法研究设计锂离子电池电极材料》,2015年度江西省自然科学三等奖,2016. 6(证书编号:Z-15-3-07-R01

5. Chuying Ouyang, LiMn2O4as cathode material for lithium ion battery: From first principles calculations.Best Presentation Award, The 1stinternational symposium on Advanced Nanostructured Materials for clean Energy. Organized by AIST (National institute of Advanced Industrial of Science and Technology) and JSPS (Japan Society for the Promotion of Science), Mar. 8-10, 2011 , Osaka , Japan .

6. 欧阳楚英,雷敏生,《计算材料学研究设计锂离子电池电极材料》,2009-2010年度江西省高等院校优秀科技成果二等奖,2011. 8(证书编号:J1102023

7. 欧阳楚英,施思齐,雷敏生,熊志华,《锂离子电池电极材料动力学特性相关基础研究》,2008年度江西省自然科学三等奖,2009. 5(证书编号:Z- 08-3-01 -R01

8. 施思齐,欧阳楚英,雷敏生,唐为华,《锂离子电池电极材料相关基础研究》,2009年度浙江省高校科研成果二等奖,2009. 12

9. 欧阳楚英,钟志勇,雷敏生,《提高锂离子电池负极材料Li4Ti5O12容量相关基础研究》,2007-2008年度江西省高等院校优秀科技成果三等奖,2009. 8(证书编号:J090329


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