教育经历：

        2003/09–2009/06 湖南大学，材料科学与工程，博士

        1997/09–2000/03 湖南大学，高等教育学，硕士

        1995/09–1997/07 湖南教师进修学院，物理系，本科

工作经历：

        2018/09至今         湖南大学，信息科学与工程学院，副教授

        2014/02–2018/09  湖南大学，物理与微电子科学学院，副教授

        2010/03–2014/02  澳大利亚新南威尔士大学，材料科学与工程学院，访问学者、博士后/讲师

        2002/02–2010/02  湖南大学，物理与微电子科学学院，讲师、副教授

        2002/10–2003/02  深圳西风集团西风研究院，院长助理

        2001/08–2002/02  湖南西风科技有限公司，重大项目部经理

        2000/04–2001/07  湖南中智信息科技有限公司，项目经理

2010年-2014年，澳大利亚新南威尔士大学“Vice Chancellor’s postdoctoral research fellowship”

2014年湖南大学讲课比赛三等奖

2009年湖南大学讲课比赛三等奖

硕士：

2014级 沈震宇（学科教学(物理)），陈路路（教育技术学）

2017级  邓晓镇（物理学），靳晓旭（物理学），傅翠颖（现代教育技术）

2018级  黎丽萍（计算机科学），谌宇（现代教育技术），童宇轩（现代教育技术）

2019级  潘佳铭（计算机科学）

2020级  平申（计算机科学与技术），张忠阳（软件工程）

2021级 刘宇瑾（计算机科学与技术），韦峰（计算机技术），贾玉霜（计算机技术）

2022级 何宇峰（电子信息），周茜南（电子信息）

博士

2020级  姜骁（计算机科学与技术）

2022级 高瞻（能源动力），欧阳润秋（计算机科学与技术）

·        A novel methodfor structural analysis of amorphous system: development and application (FundCode: SIR50; Project ID: PS22949), 2011.1-2014.3, funded by University of NewSouth Wales, Australia

·        Simulationstudy on solidification processes and microstructure evolution of metalnanodroplets (Fund Code: SIR30; Project Number: PS27257), 2012.10-2013.10, fundedby University of New South Wales, Australia

1、  国家重点研发计划，面向新一代国产超算的高性能材料模拟软件的适配与优化, 2023.12-2026.11，任务负责人

2、  国家重点研发计划，2021YFB0300102，非晶结构分析软件适配与优化，2021.12-2023.11，课题完成人

3、  国家自然科学基金面上项目，62376091，金属玻璃微观结构量化分析及构效关系研究，2024.1.1-2027.12.31，主持

4、  壹仟零壹艺网络科技（北京）有限公司，2023.6.7-2026.6.6，建筑行业垂直大模型训练ALDGPT项目，主持

5、  湖南省自然科学基金面上项目，2022JJ30166、基于机器学习的金属玻璃微观结构与动力学相关性研究、2022.01.01-2024.12.31，主持。

6、  光合基金开放项目，GHfund A 20220201-6853，复杂体系微观结构分析软件的C86异构平台适配与应用，2022-4-12 至 2023-3-31，主持

7、  光合基金开放项目，GHfund B 20210702-0682，液态金属凝固过冷的微观结构起源研究，2021-7-15 至 2022-7-14，主持

8、  国家自然科学基金地区基金项目，51661005、非晶形成能力的拓扑密堆团簇表征研究2017.01-2020.12，主持

9、  国家自然科学基金联合项目（子项目），U1612442-6-6、喀斯特地区重金属污染综合防控体系大数据平台的构建及应用，2017.1.1-2021.12.31，主持

10、    企事业单位委托科技项目，Ti-H-He体系及Mo-Ti体系作用势的拟合2018.1.1-2018.12.31，主持

11、    湖南省自然科学基金面上项目，2016JJ2026、金属亚稳态的快凝捕获及稳定性模拟研究，2016.01-2018.12，主持

12、    湘江实验室重点项目， 22xj01011，面向新一代国产超算平台的AI高性能软件栈和支撑技术, 2023.1.1-2025.12.31，参与

13、    装备发展部，8091B042223，超算与人工智能融合计算，2022.12.31-2025.12.31，参与

14、    湖南大学重庆研究院横向项目，产前超声AI智慧云平台系统测试，2022.01-2026.12，参与

15、    国家重点研发计划项目，2022YFF0606303，胎儿智能超声标准参考图谱及实时评价关键技术研究（胎儿超声影像标准切面高效智能识别与检测），2022.10.01-2025.09.30，参与

16、    国家自然科学基金面上项目，62272159，知识与结构协同感知的胎儿超声实时质量控制关键技术研究，2023.01-2026.12，参与

17、    国家重点研发计划，2020YFB0704500，国家新材料数据库平台建设关键技术研究, 2020.09-2022.08，参与

18、    国家重点研发计划，2018YFB0704000，高通量多尺度材料模拟与性能设计平台, 2018.06-2022.05，参与

19、    国家自然科学基金面上项目，快凝条件下液态合金团簇结构遗传能力的比较与分析 , 51071065, 2011.01-2013.07，参与

20、    国家自然科学基金重点项目，过热金属熔体行为与非晶形成能力，50831003，2009.01-2012.12，参与

21、    国家自然科学基金面上项目，不同局域环境下迹量掺杂元素对Ni/Ni3Al相界强韧性的影响，50771044, 2008.01-2010.12，参与

22、    国家自然科学基金面上项目，金属凝固形成纳米团簇、纳米晶粒的不同形核演变机制的识别与表征研究，50571037，2006.01-2008.12，参与

23、    教育部重点基金，液态金属快速凝固过程中团簇结构遗传与选择遗传的电子机制，104139, 2004.01-2006.12，参与

24、    湖南省科技厅，液态金属快速凝固过程的模拟仿真与图文化研究， 04FJ3030，2005-01--2006-12，参与

25、    湖南省科技项目，Ni基单晶超合γ/γ’相界强韧化的模式化设计，06FJ4117 2005.07-2008.06参与

26、    湖南省自然科学基金，快速凝固非晶态合金纳米团簇结构及局域电子理论的计算， 05JJ30086，2005/01-2006/12，参与

27、国家自然科学基金面上项目，50271026，液态、非晶态金属结构中大团簇结构的识别、表征的模拟研究，2003/01-2005/12，参与

        i.     Journalpaper (peer review paper)

1.       XiaoJiang, Zean Tian,* Kenli Li, andWangyu Hu, Toward Interpreting the Thermally Activated β Dynamics in MetallicGlass Using the Structural Constraint Neural Network, The Journal of PhysicalChemistry Letters, J. Phys. Chem. Lett. 2024, 15, 3238?3248, https://pubs.acs.org/doi/10.1021/acs.jpclett.4c00280

2.       XiaoJiang, Zean Tian*, Kenli Li, andWangyu Hu, A geometry-enhanced graph neural network for learning the smoothnessof glassy dynamics from static structure, J. Chem. Phys. 159, 144504 (2023); https://doi.org/10.1063/5.0162463

3.       JiamingPan, Yushuang Jia, Kenli Li, Lei Liao, Liping Qiu, Fan Wu, and Zean Tian*, Does the GFA of AlloysDepend on the Atomic Size Ratio: A DT-Based ML Study, Crystal Growth & Design,   2023, 23, 5912-5918, https://pubs.acs.org/doi/pdf/10.1021/acs.cgd.3c00509

4.       Shen Ping, Xiao Jiang, Zean Tian*,Ronghui Cao, Weiming Chi, and Shenghong Yang;Cross-Modal Interaction Network for Video MomentRetrieva, InternationalJournal of Pattern Recognition and Artificial Intelligence, Vol. 37, No. 08, 2355010 (2023).https://doi.org/10.1142/S0218001423550108

5.       Zean Tian*,Zhongyang Zhang, Xiao Jiang, Feng Wei, Shen Ping and Fan Wu, LaSCA: AVisualization Analysis Tool for Microstructure of Complex Systems, Metals2023, 13(2), 415. https://doi.org/10.3390/met13020415

6.       Jiaming Pan, Xiao Jiang, ZeanTian*, Yikun Hu*, and Kenli Li. MLModel Optimization?Selectionand GFA Prediction for Binary Alloys, Cryst.Growth Des. 2022, 22, 4, 2462–2469, https://doi.org/10.1021/acs.cgd.1c01519

7.       Xiao?Xu Jin, Zean Tian*, Wangyu Hu*, Critical structural invariant during high?pressure solidification of copper, MRSCommunications (2022)12:45–50, https://doi.org/10.1557/s43579-021-00138-5.

8.       Xiao Jiang, ZeanTian*, Kenli Li, Senior Member, IEEE. AGraph-based Approach for Missing Sensor Data Imputation. IEEE sensors journal.2021, 21(20)1558-1748.

9.       Liping Li, ZeanTian*, Kenli Li, Ceng Chen. G-CNN andDouble-referenced Thresholding for Detecting Time Series Anomalies, Journal of Intelligent & Fuzzy Systems (ISSN:1064-1246), 40(2021)3969-3980;DOI:10.3233/JIFS-200175,

10.   Xiaozhen Deng, Lin Lang, Yunfei Mo, Kejun Dong,Zean Tian*, Wangyu Hu. Solid-solidphase transition of Tungsten induced by high pressure: a MD simulation study. Transactionsof Nonferrous Metals Society of China, 30(2020)11:2980-2993.

11.   XiaozhenDeng, Lin Lang, Yunfei Mo, Zean Tian*,Wangyu Hu. The phase transition of rapidly super-cooled Tungsten under 100 GPa.ChemicalPhysics Letters 755 (2020) 137789.

12.   LinLang, Keliang Yang, Zean Tian*,HUiqiu Deng, Fei Gao, Wangyu Hu*, Yunfei Mo. Development of a Ni-Mo interatomicpotential for irradiation simulation. Modelling and Simulation in MaterialsScience and Engineering, 27(2019)4: 045009.

13.   LinLang, Huiqiu Deng, Zean Tian*, FeiGao, Wangyu Hu*, Dadong Wen, Yunfei Mo. The effect of Mo addition on structureand glass forming ability of Ni-Zr alloys. Journal of alloys and compounds,775(2019)1184-1198. DOI:10.1016/j.jallcom.2018.10.184.

14.   Zhizhou Wu, Yunfei Mo, Lin Lang, Aibing Yu, Quan Xie,Rangsu Liu, and Zean Tian*.Topologically close-packed characteristic of amorphous Tantalum. PhysicalChemistry Chemical Physics, 20(2018)28088-28104. DOI:10.1039/C8CP05897K.

15.  Z.A. Tian,*K. J. Dong and A. B. Yu.LocalRotational Symmetry in the Packing of Uniform Spheres. Phys. Chem. Chem. Phys., 14 June. 2017, 19(22),14588 - 14595.

16.  Haitao Zhang,Yunfei Mo, Zean Tian,* Rangsu Liu,Lili Zhou, Zhaoyang Hou, The effect of pressure upon crystallization of rapidlysupercooled Zirconium melts.Phys. Chem.Chem. Phys., 2017, 19(19),12310 - 12320

17.  Y. F. Mo, Z. A. Tian*, Rang-su Liu, Zhao-yangHou, Li-li Zhou, Ping Peng, Hai-tao Zhang, Yong-chao Liang, Molecular dynamics study on microstructural evolutionduring crystallization of rapidly supercooled Zirconium melts, Journal of alloys and compounds, 688(2016):654-665.

18.  Y. F. Mo, Z. A. Tian*, R. S. Liu, Z. Y. Hou, C.C. Wang. Structural evolution during crystallization of rapidly super-cooledcopper melt, Journal of non-crystalline solids  421(2015)14-19.

19.  Z.A. Tian,Li-li Zhou*, Yun-fei Mo, Yong-chaoLiang, Rang-su Liu. Cooling rate dependence of the polymorph selection duringrapid solidification of liquid metal zinc, Transactionsof Nonferrous Metals Society of China 2015, 25(12):4072-4079.

20.  Liang Xu, Wei-QingHuang*, Liang-Ling Wang, Ze-An Tian,Wangyu Hu, Yanming Ma, Xin Wang, Anlin Pan, and Gui-Fang Huang. Insights intoEnhanced Visible-Light Photocatalytic Hydrongen Evolution of g-C3N4 and HighlyReduced Graphene Oxide Composite: The Role of Oxygen, Chemistry of Materials 2015, 27:1612-1621.

21.  Z.A. Tian,K. J. Dong, A. B. Yu. Structural evolutionin the crystallization of rapid cooling silver melt, Annals of Physics 2015, 354():499-510.

22.  Z.A. Tian,K. J. Dong, A. B. Yu. Structural evolutionin the packing of uniform spheres, PhysicalReview E 2014, 89(3):032202.

23.  Z.A. Tian,K. J. Dong, A. B. Yu*. A method for structural analysis of disordered particle systems. AIPConf. Proc. 2013, 1542:373-376.

24.  Z.A. Tian, R. S. Liu, K. J. Dong, and A. B. Yu ; A new method for analyzing the local structures of disordered systems.EPL,2011, 96(3), 36001.

25.  Z.A. Tian, R. S. Liu, P. Peng, Z. Y. Hou,H. R. Liu, C X. Zheng, K. J. Dong, A. B. Yu. Freezing structures of free silver nanodroplets: A molecular dynamicssimulation study. Phys. Lett. A,2009, 373(18-19):1667-1671.

26.  Z.A. Tian, R. S. Liu, C. X. Zheng, H. R.Liu, Z. Y. Hou, and P. Peng. Formationand Evolution of Metastable bcc Phase during Solidification of Liquid Ag: AMolecular Dynamics Simulation Study. J.Phys. Chem. A, 2008, 112 (48): 12326-12336. 

27.   Z. A Tian, R. S. Liu, H. R. Liu, C. X. Zheng, Z. Y. Hou, P. Peng. Molecular dynamics simulation for coolingrate dependence of solidification microstructures of silver. J. Non-Cryst. Solids, 2008, 354:3705- 3712.

Year 2024

28.   MengtingLi, Weifu Cen, Zean Tian* , First-principlesstudy of the magnetic and optical properties of PtSe2 doped with halogenelements F, Cl, and Br. Phys. Scr. 99 (2024) 045508,  https://doi.org/10.1088/1402-4896/ad2e58

29.   YunfeiMo, Zean Tian*, Lili Zhou, YongchaoLiang, Kejun Dong* , Xiefu Zhang, Haitao Zhang, Ping Peng, Rangsu Liu, Thedynamic competition mechanism between the topologically close-packed and BCCstructures during crystallization of undercooled zirconium, Chemical Physics 581(2024) 112238, https://doi.org/10.1016/j.chemphys.2024.112238

30.   WeifuCen, Zean Tian*, Improving themagnetic moment of Ca2Ge and promoting the conversion of semiconductors todiluted magnetic semiconductors using Mn-doping, RSC Advances, 2024, 14, 6930 – 6937,DOI: 10.1039/d3ra07294k

31.   MengtingLi, Weifu Cen, Zean Tian*, QuanZheng, First Principles Calculation of Gas Sensitive Properties of Pd3-ModifiedMonolayer PtSe2 to SF6 Decomposition Products. Phys. Status Solidi RRL 2024,2300367, https://doi.org/10.1002/pssr.202300367

32.   FurongXu, Songli Dai, Weifu Cen, Qinghua Zeng and Zean Tian?,Study on the piezoelectric properties and the mechanism of strainregulatedpiezoelectricity in flexible Janus monolayers Cr2X3Y3 (X/ Y = Cl, Br, I), Phys.Scr. 99 (2024) 025987

Year 2023

33.  Qiao Wang, Chenyang Hu, Zean Tian* , Xianming Wu, Haiwei Sang,Zhongwei Cui; A 3D memristor-based chaotic system with transition behaviors ofcoexisting attractors between equilibrium points, Results in Physics56(2024)107201; https://doi.org/10.1016/j.rinp.2023.107201

34.   Weifu Cen, Zhiwen Lin, Mengting Li, Xiefu Zhang, Zean Tian*; Enhancement of magnetic stability and absorption propertiesof monolayer NiZr magnetic semiconductor by electric field modulation, Resultsin Physics 54 (2023) 107130

35.   YangchuanZeng, Zean Tian^*, Quan Zheng, Mingxiang Jiang, Yikun Peng,Prediction of glass-forming ability based on multi-model fusion, Journalof Non-Crystalline Solids, 623 (2024) 122693;https://doi.org/10.1016/j.jnoncrysol

36.   Can-LingJian, Ze-An Tian* , Bo Liang ,Chen-Yang Hu , Qiao Wang , and Jing-Xi Chen, Rucklidge-based memristive chaoticsystem: Dynamic analysis and image encryption, Chin. Phys. B 32, 100503(2023), https://doi.org/10.1088/1674-1056/acdac3

37.   ZhanGao, Zean Tian, Bin Pu, Shengli Li,Kenli Li?, Deep endpoints focusing network undergeometric constraints for end-to-end biometric measurement in fetal ultrasoundimages, Computers in Biology and Medicine 165 (2023) 107399, https://doi.org/10.1016/j.compbiomed.2023.107399

38.   ZechaoLu, Zean Tian*, Modulation ofBAs/graphene Schottky junction barrier by electric field and vertical strain, MaterialsToday Communications, 36(2023)106474, https://doi.org/10.1016/j.mtcomm.2023.106474

39.   Quan Zheng, Zean Tian*, Tinghong Gao, Yongchao Liang, Qian Chen, Quan Xie,Effect of graphene on solid-liquid coexistence in Cu nanodroplets, Applied Surface Science,2023,637,157952.  https://doi.org/10.1016/j.apsusc.2023.157952 

40.   Qiao Wang, ChenyangHu, Zean Tian?, Xianming Wu and Haiwei Sang, A new3D hidden conservative chaotic system with multistability and its circuitimplementation, (Physica Scripta) Phys. Scr. 98 (2023) 075223, https://doi.org/10.1088/1402-4896/acdda8

41.   CanLeng, Zhuo Tang*, Yi-Ge Zhou, Zean Tian,Wei-Qing Huang, Jie Liu, Keqin Li, Kenli Li*, Fifth Paradigm in Science: A CaseStudy of an Intelligence-Driven Material Design, Engineering, 24(2023)126-137, https://doi.org/10.1016/j.eng.2022.06.027

42.   BeibeiLiu, Yangchun Chen, Long Guo, Xiaofan Li, Kun Wang, Huiqiu Deng, Zean Tian, Wangyu Hu, Shifang Xiao* ,Dingwang Yuan*, Phase transition in yttrium under shock compression byatomistic simulations, International Journal of Mechanical Sciences,250(2023)108330. Available online 20 March 2023, https://doi.org/10.1016/j.ijmecsci.2023.108330

43.  Yikun Peng, Zean Tian*, Lulu Liu, Quan Zheng, Autonomous identification ofLindemann atoms based on deep learning, Materials Today Communications, 35(2023) 106053. https://doi.org/10.1016/j.mtcomm.2023.106053

44.  YikunPeng,Zean Tian*, Quan Zheng, Quan Xie,Tinghong Gao, Effect of graphene substrate on melting of Cu nanoparticles, Physica B:Condensed Matter,657(2023)414817.  Availableonline 16 March 2023, https://doi.org/10.1016/j.physb.2023.414817

45.  Zhiwen Lin, Zean Tian*, Weifu Cen, Qinghua Zeng, Monolayer black phosphorus: Tunable band gap andoptical properties, Physica B:Condensed Matter, 657(2023)414780-8.15 May 2023. https://doi.org/10.1016/j.physb.2023.414780 

46.   Bo Liang, Chenyang Hu, Zean Tian*, Qiao Wang, Canling Jian, A 3D chaotic system with multi-transient behaviorand its application in image encryption, PhysicaA: Statistical Mechanics and its Applications, 616(2023)128624-17, https://doi.org/10.1016/j.physa.2023.128624

47.   WeifuCen, Yinye Yang and Zean Tian*,Effect of stress on electronic structure and optical properties of cubic Ca₂Ge,SemiconductorScience and Technology (Semicond.Sci. Technol.) 38 (2023) 035013(9pp)

Year 2022

48.   Xueting Zhai,Xuan Li, Zheng Wang,Lina Hu*, Kaikai Song,Zean Tian*, Yuanzheng Yue*, The connection between the fragile-to-strongtransition and the liquid-liquid transition in a binary alloy system, ActaMaterialia 239(2022)118246. 15 October 2022 published.

49.   ChengkunLi, Zhiwei Luo, Zean Tian*, KejunDong, The concealed solid-solid structural phase transition of Fe70Ni10Cr20under high pressure, Materials Today Communications 33(2022) 104499-10, https://doi.org/10.1016/j.mtcomm.2022.104499

50.   ChenyangHu, Zean Tian* , Qiao Wang, XiefuZhang, Bo Liang, Canling Jian, Xianming Wu, A memristor-based VB2 chaoticsystem: Dynamical analysis, circuit implementation, and image encryption, Optik- International Journal for Light and Electron Optics 269 (2022) 169878.

51.   ChenyangHu, Qiao Wang, Xiefu Zhang, Zean Tian*,Xianming Wu. A new chaotic system with novel multiple shapes of two-channelattractors. Chaos, Solitons and Fractals 162 (2022) 112454.

52.   HuaXu, Weifu Cen, Zean Tian*, QuanZheng, Tinghong Gao, Yongchao Liang, Quan Xie. A first principles study of thesurface electronic properties of Mo2C, Solid State Communications 353(2022) 114867.

53.   MingxiangJiang, ZeanTian*, QuanXie, Tinghong Gao, Yongchao Liang, Qian Chen, Numericalrecognition of C15 unit in rapid solidification Ni₇₀Ag₃₀ nanoparticles.Acta Phys. Sin., 71(2022)17:176402-8. doi: 10.7498/aps.71.20220662

54.   Yuxi Luo, ZeanTian*, Quan Zheng, Lin Hu, Kejun Dong*. Crystallization insights revealed by simulationsolidification study of Fe63Ni33Co4 alloy melt at subcritical cooling rate, Journalof Non-Crystalline Solids 586 (2022) 121557. https://doi.org/10.1016/j.jnoncrysol.2022.121557

55.   Xiangyan Luo, Yixin Wang, ZeanTian,* Jiajun Ma, Hong Yu, and Quan Xie*.Atomic Correlation between Bilayer Graphene and Double-Walled Carbon Nanotubes,J.Phys. Chem. C 2022, 126, 4030?4036. https://doi.org/10.1021/acs.jpcc.1c09523

56.   Qiao Wang, ZeanTian*, Xianming Wu and Weijie Tan,Coexistence of Multiple Attractors in a Novel Simple Jerk Chaotic Circuit withCFOAs Implementation. Frontiers in Physics,2022,10,835188-12

Year 2021

57.   Lin Hu, ZeanTian*, Yongchao Liang, Tinghong Gao, QianChen, Quan Zheng, Yuxi Luo, Quan Xie. The role of TCP structures in glassformation of Ni₅₀Ag₅₀ alloys, Journal of Alloys and Compounds,897(2022) 162743 https://doi.org/10.1016/j.jallcom.2021.162743.

58.   Yunfei Mo, ZeanTian*, Lili Zhou, Yongchao Liang, Lin Lang, Kejun Dong, Rangsu Liu, PingPeng. Competition between TCP and crystallineclusters during phase transition of rapidly super-cooled aluminum, Journalof Non-Crystalline Solids, 576(2022)121271,DOI:10.1016/j.jnoncrysol.2021.121271.

59.   Guo-Cui Wei, Ze-AnTian*, Molecular dynamics simulation ofrapid solidification of Cu64Zr36 nanodrops of different sizes, ActaPhysica Sinica, 70, 246401 (2021) DOI: 10.7498/aps.70.20211235.

60.   Can Leng, Kenli Li,Zean Tian*, Yubing Si*, HuangHuang, Junfeng Li, Jie Liu1,Wei Qing Huang & Keqin Li*, Theoretical studyof cellulose II nanocrystals with different exposed facets, scientificreports, 11(2021)21871, DOI10.1038/s41598-021-01438-5.

61.   Li-li Zhou, Jia-ming Pan, Lin Lang, Ze-an Tian*, Yun-fei Mo, Ke-jun Dong, Atomic structure evolutions andmechanisms of the crystallization pathway of liquid Al during rapid cooling, RSCADVANCES, 2021,11(63)39829-39837, DOI10.1039/d1ra06777j

62.   Xuan Li, ZeanTian*, Quan Xie, Kejun Dong. Thetopologically close-packed Fe₇₀Cu₁₅Ni₁₅nanoparticles- A simulation study. Vacuum,2021,193,110523, DOI:10.1016/j.vacuum.2021.110523

63.   Li-Li Zhou, Ze-AnTian*, Yong-Chao Liang, Yun-Fei Mo,Cun-Jing Wang, Fang-Zuo Li, Correlation between the topologically close-packedstructure and the deformation behavior of metallic Cu64.5Zr35.5, Physicalchemistry chemical physics, 2021,23(45) 25933-25943, https://doi.org/10.1039/D1CP03758G

64.   Xiefu Zhang, Zean Tian*, Jian Li, Xianming Wu and Zhongwei Cui, A Hidden ChaoticSystem with Multiple Attractors, Entropy,2021,23(10)1341, DOI: 10.3390/e23101341

65.   Yu-Qin Wu, Ze-anTian*, Fang Liu, Zi-Hou Yuan, Wei Chen,Chi Zhang, Cheng-Xin Li.  Effect ofmagnetic field on microstructure and property of Ag-Sn solder alloys. MaterialsLetters 303 (2021) 130515. DOI10.1016/j.matlet.2021.130515

66.   Quan Zheng, Ting Xiao, ZeanTian*, Tinghong Gao, Yongchao Liang, QianChen, Quan Xie. Hidden State of Si₅₀Ge₅₀ NanoparticlesDuring Rapid Solidification. Crystal Growth & Design.Accepted: 30/06/2021. Cryst. Growth Des. 2021, 21, 4746?4756. https://doi.org/10.1021/acs.cgd.1c00586.

67.   Ruijie Wang, ZeanTian*, Qingquan Xiao, Weifu Cen, QuanZheng. The effect of Ni/Co-doping on electronic structures and opticalproperties of cubic Ca2Ge. Optik -International Journal for Light and Electron Optics 243 (2021) 167422.

68.   Xiefu Zhang, ZeanTian*, Jian Li and Zhongwei Cui. A SimpleParallel Chaotic Circuit Based on Memristor. Entropy 2021, 23, 719-14.https://doi.org/10.3390/e23060719.

69.   Zhiwei Luo, ZeanTian*, Yongchao Liang, Quan Xie.Crystallization behavior of Fe70Ni10Cr20 during rapid solidification underdifferent cooling rates. MaterialsToday Communications 27 (2021) 102255.https://doi.org/10.1016/j.mtcomm.

70.   Siyuan Wang, Kejun Dong*, Quan Xie, Zean Tian*. Inconsistency ofneighborhood based on Voronoi tessellation and Euclid distance. Journalof alloys and compounds, 854(2021)156983.

71.   LiliZhou, Yunfei Mo, Zean Tian*, FangzuoLi, Xiaolu Xie, Rangsu Liu. Pressure effect on structure and properties ofrapidly-cooled Mg₇₀Zn₃₀ alloy. Journal of Materials Science,56(2021)4420-4432. https://doi.org/10.1007/s10853-020-05505-6.

72.   JingjingLI, Zean TIAN*. Structural Origin ofthe Second Peak Split of FeCuNi Metallic Glass, Low. Temp. Phys. Lett.,2(2020):0081-0089. DOI: 10.13380/j.ltpl.2020.02.004.

73.   YunfeiMo, Zean Tian*, Lin Lang, Lili Zhou,Yongchao Liang, Haitao Zhang, Rangsu Liu, Ping Peng, Dadong Wen. Differentstructural transitions of rapidly supercooled Tantalum melt under pressure. PhysicalChemistry Chemical Physics, 22(2020)18078-18090, DOI:10.1039/D0CP01432J.

74.   Min Li, Quan Xie*, Xiangyan Luo and Zean Tian*. Molecular dynamicssimulation of carbon nanotubes and silicon nanowire composites. ModernPhysics Letters B, 34(2020)31:2050355-13.

75.   Jingjing Li, Zean Tian*, Quan Xie, Shixian Xiong. Component effect onmicrostructure of rapidly cooled FeCuNi alloys. Chemical Physics Letters,753 (2020) 137630. Published 21 May 2020.

76.  Yu, BY; Liang, YC*; Tian, ZA*; Liu, RS; Gao, TH; Xie, Q;Mo, YF. MD simulationon crystallization mechanisms of rapidly supercooled Fe-Ni alloys. JOURNALOF CRYSTAL GROWTH，535(2020)125533

77.   XiaoJiang, Gui-Bin Bian, Zean Tian,Removal of Artifacts from EEG Signals: A Review. Sensors. 19(2019)5: 987.

78.   Bang-yi Yu, Yong-chao Liang*, Ze-an Tian*, Yue-hong Zhang, Quan Xie,Ting-hong Gao,Yun-fei Mo. MD study on topologically close-packed andconfiguration entropy of Mg40Al60 metallic glasses under rapid solidification. Journalof Non-Crystalline Solids. 522(2019): 119578.

79.  Y. F. Mo, Z. A. Tian*, L. Lang, R. S. Liu, L. L. Zhou, Z. Y. Hou, P. Peng, T.Y. Zhang. The short-range order in liquid and A15 crystal of zirconium. Journalof Non-Crystalline Solids. 513(2019), 111-119.

80.  Ting Xiao, Zean Tian*, Tinghong Gao,Xiaotian Guo, Yunfei Mo, Lin Lang, Yao Zhou, Yongchao Liang. Microstructuralevolution of SiGe Nano-droplet during rapid solidification process at differentcooling rate. Low Temperature Physical Letters. 6(2018):42-49.

81.   Yongchao Liang, Yuehong Zhang, Bangyi Yu, Rangsu Liu,Quan Xie, Zean Tian*. Thedeformation and transformation of icosahedron in Mg70Zn30 metallic glasses. ChemicalPhysics Letters, 703(2018)39-43.

82.   XiZhao, Chunzhen Wang, Haijiao Zheng, ZeanTian* and Lina Hu*, The Role of Liquid-liquid Transition in Glass Formationof CuZr Alloys. Physical Chemistry Chemical Physics, 2017, 19(24) 15962-15972.DOI: 10.1039/C7CP02111A

83.  Li-li Zhou, Run-yu Yang,Ze-an Tian*, Yun-fei Mo, Rang-suLiu. Molecular dynamics simulation on structural evolution duringcrystallization of rapidly super-cooled Cu₅₀Ni₅₀ alloy, Journalof alloy and compounds. 2017, 690:633-639

84.  X. C. Jiang, S. X.Xiong, Z. A. Tian, C. Y. Chen, W. M.Chen, and A. B. Yu Twinned Structure andGrowth of V-Shaped Silver Nanowires Generated by a Polyol-Thermal Approach.J. Phys. Chem. C, 2011, 115(5): 1800-1810.

     ii.           conferencesubmissions (e.g. papers, invitedpresentations and posters);

1.       Z.A. Tian, A. B. Yu. Hierarchicalstructure analysis for disordered systems. Invited report, the 4th China- Australia Symposium forMaterials Science (CASMS2013), 20-24^th October 2013, Zhuhai China.

2.      Z. A. Tian, A. B. Yu. Local gap and phasetransition in the packing of uniform spheres. Oral report, UK-ChinaInternational Particle Technology Forum IV (UCIPTF IV), 15^th -19^thOctober 2013, Shanghai China.

3.      Z. A. Tian, A. B. Yu. Microstructures of Metal Nanoparticles. The 8^th International Conferenceon Surfaces, Coatings and Nano-Structured Materials (NANOSMAT), 22^th-25^thSeptember 2013, Granada, Spain.

4.      Z. A. Tian, K. J. Dong, A. B. Yu. A method for structural analysis ofdisordered particle systems. Poster,Powders and Grains 2013, 8^th – 12^th July 2013,Sydney NSW, Australia.

5.      Z. A. Tian, A. B. Yu, K. J. Dong. Surfaceisomers: novelty metal nano-particles. Oral report, APMC10, ICONN2012 &ACMM22, 5^th -9^th February 2012, Perth WA, Australia.

6.      Z. A. Tian, K. J. Dong, A. B. Yu. A new method for analyzing the localstructures of disordered systems. Oral report, the 3th China- AustraliaSymposium for Materials Science (CASMS2011), 19-23^th November, 2011,Gold Coast QLD, Australia.

7.      Z. A. Tian, K. J. Dong, A. B. Yu. Simulationstudy on the cooling processes of nano-droplets. Oral report, the thirdAustralia-China Joint Symposium on Science, Technology and Education. 6^th-8^thOctober, 2010, Melbourne Convention and Exhibition Centre, Melbourne, Victoria,Australia. 

8.   Z. A. Tian, P. Peng, R. S. Liu. Simulation studyand structural analysis of the solidification of free silver nano-droplets.Oral report, China Materials Conference, Chinese Materials Research Society. 20^th-24^thNovember 2008, Canton, Guangdong province, P. R. China.

1.      专利名：一种全集成电动车闪光器驱动芯片；发明人：郑权、田泽安、曾承伟、李湘春、蓝龙伟、徐兴；专利号：ZL201911016062.0；授权日：2021年04月30日

2.      专利名：基于深度学习的多元时间序列多层次时空依赖建模方法；发明人：田泽安、黎丽萍、潘佳铭、李肯立；专利号：ZL202010495285.8；授权日：2021年10月08日

3.      专利名：一种无参数局域结构识别方法；发明人：田泽安、潘佳铭、李肯立、余艾冰、董科军；专利号：ZL202010261050.0；授权日：2022年04月12日