袁晨晨

姓名：袁晨晨

性别：女

党派：中国共产党

职称：副高

联系方式：yuancc@seu.edu.cn

研究方向:

1、金属玻璃机械超声振动微纳成型机理

2、亚稳态合金的降解、催化机理

3、稀土基高熵金属玻璃的磁致冷效应

4、金属玻璃复合柔性电容器

个人简介

2009.9~2012.7中国科学院，物理研究所，博士

2012.10~2014.12   德国宇航中心，空间材料物理研究所，DAAD学者

2015.01~2015.09   慕尼黑大学，地球与环境科学学院，访问学者

2016.02~至今东南大学，材料科学与工程学院，副教授

2017.11~2019.11   香港城市大学，物理系，“香江学者”访问学者

荣誉和奖励

2010      物理所所长奖学金

2011      物理所所长奖学金

2012      德国“DAAD”学者

2017      国家“香江学者”人才计划

2020     “至善学者”A类人才计划

从研经历

迄今在《Physics Review Letters》、《Materials Today》、《Advanced functional Materials》、《Acta Materialia》、《Corrosion science》、《Physics Review B》、《Applied Physics Letters》等权威国际期刊上发表学术论文近40篇，单篇最高SCI引用181次，申请发明专利多项，其中一项专利获选“2019年度非晶合金优秀专利”。多次应邀担任Journal of Non-Crystalline Solids、Journal of Alloys and Compounds，Journal of physics and chemistry of solids等学术期刊审稿人，在国际、国内学术会议上多次作邀请报告，参与组织国内外学术会议多次，2016年担任“非晶合金结构与性能研讨会(2016)”组委会秘书、“International Symposium on Microscopy & Microanalysis of Materials (ISMMM2016)”国际电镜会议组委会秘书，2017年担任“非晶合金结构与性能研讨会(2017)”组委会委员，2018年担任“Physics of Supercooled Liquids Workshop”国际非晶会议组委会秘书、“QENS-WINS”国际中子会议地方委员会委员。主持和参与多项国家自然科学基金、国家重点研发计划、军委科技委项目、江苏省自然科学基金。

教学经历

开设6门课程：计算材料学（本科）；智能化加工原理与技术（本科）；快速凝固法制备合金及其表面改性实验（本科）；磁性材料（本科）；非晶态物质概论（全英文课程）（本科）；科技论文写作与发表（全英文课程）（研究生），指导学生多次荣获省级和校级荣誉，已指导8项大学生科学研究训练项目(SRTP)，支持了40余名本科生利用实验室开展科技实践拓展训练。课题组设备网站：https://smse.seu.edu.cn/mmlab/24716/list.htm

代表性论文

(1)   Chenchen Yuan*, Fan Yang, Xuekui Xi, Chenglong Shi, Dirk Holland-Moritz, Maozhi Li, Feng Hu, Baolong Shen*, Xunli Wang, Andreas Meyer and Weihua Wang, Impact of hybridization on metallic-glass formation and design, Materials Today, 2020, 32: 26-34.（IF=28.3，国际顶级期刊）

(2)   Chenchen Yuan, Junfeng Xiang, Xuekui Xi*, Weihua Wang. NMR signature of evolution of ductile-to-brittle transition in Zr-based bulk metallic glasses, Physical Review Letters, 2011, 107(23): 236403 (IF =8.6，国际顶级期刊)

(3)   Zeliang Jian^#, Chenchen Yuan^#, Wenze Han, Xia. Lu, Lin Gu*, Xuekui Xi*, Yong-sheng Hu*, Hong Li, Wen Chen, Dongfeng Chen, Yuichi Ikuhara, and Liquan Chen, Atomic Structure and Kinetics of NASICON NaxV₂(PO4)₃ Cathode for Sodium-Ion Batteries, Advanced functional Materials, 2014, 24(27): 4265-4272 (IF=19，国际顶级期刊)

(4)   W. Li (在读博士), X.F. Zuo, R. Liu, C. M. Pang, F. Jin, W.W. Zhu, C.C. Yuan*, Multi-scale defects activation in Gd_18.33Tb_18.33Dy_18.34Co_17.5Al_27.5 high-entropy metallic glasses revealed by nanoindentation, International Journal of Plasticity, 2024, 174,103893. （IF=9.8，力学国际顶级期刊）

(5)   F. Jin (在读硕士), C. C. Yuan*, C. M. Pang, X. M. Wang, C. R. Cao, J. T. Huo, Entropy tailoring of thermodynamic behaviors and magnetocaloric effects in (GdTbDy)CoAl metallic glasses, Materials & Design, 238, 2024, 112653.（IF=8.4，材料类国际顶级期刊）

(6)   Chenchen Yuan*, Zhuwei Lv, Changmeng Pang, Xin Li, Rui Liu, Can Yang, Jiang Ma, Haibo Ke, Weihua. Wang, Baolong Shen*, Ultrasonic-assisted plastic flow in a Zr-based metallic glass, Science China Materials, 2021, 64(2): 448-459.（IF=8.1，材料类国际顶级期刊，国内卓越期刊）

(7)   B. Huang, Chenchen Yuan, Z.Q. Wang, Y. Tong, Q. Wang, J. Yi, G. Wang, Q.F. He, C.H. Shek, Y. Yang*, Influence of short- to medium-range electronic and atomic structure on secondary relaxations in metallic glasses, Acta Materialia, 2020, 196: 88-100.（IF=9.4，材料类国际顶级期刊）

(8)   Chenchen Yuan*, Fan Yang, Dirk Holland-Moritz, Florian Kargl, Giovanna G. Simeoni and Andreas Meyer, Atomic dynamics in Zr-(Co,Ni)-Al metallic glass-forming liquids, Physical Review B, 2015, 91(21): 21420.

(9)   Chenchen Yuan, Xi. Shen, Jie Cui, Lin Gu, Ri-cheng Yu, Xue Kui Xi*, Atomic and electronic structures of Zr-(Co, Ni, Cu)-Al metallic glasses, Applied Physics Letters, 2012, 101(2): 021902.

(10)Chenchen Yuan*, Rui Liu (在读硕士), Changmeng Pang, Xiaofei Zuo, Bofan Li, Sichao Song, Junyan Hu, Weiwei Zhu, Baolong Shen*，Anelastic and viscoplastic deformation in a Fe-based metallic glass，Journal of Alloys and Compounds, 2021, 853: 157233

(11)Chenchen Yuan*, Zhuwei Lv, Changmeng Pang, Xuelian Wu, Si Lan, Chenyv Lu, Liguang Wang, Haibin Yu, Junhua Luan, Weiwei Zhu, Genlei Zhang, Qi Liu, Xunli Wang and Baolong Shen*, Atomic-scale heterogeneity in large-plasticity Cu-doped metallic glasses, Journal of Alloys and Compounds, 2019, 798: 517-522.

(12)Chenchen Yuan*, Zhuwei Lv, Changmeng Pang, Weiwei Zhu, Xunli Wang and Baolong Shen*, Pronounced nanoindentation creep deformation in Cu-doped CoFe-based metallic glasses, Journal of Alloys and Compounds, 2019, 806: 246-253.

(13)Chenchen Yuan, Chuan Deng, Huaping. Zhang, Maozhi Li* and Baolong Shen*, Ab initio simulations of the atomic and electronic environment around B in Fe–Nb–B metallic glasses, Intermetallics, 2019, 112:106501.

(14)Chenchen Yuan*. Bonding nature and the origin of ductility of metallic glasses, ACTA PHYSICA SINICA, 2017, 66: 17 （物理学报，综述，国内学科最高级期刊）

(15)Chenchen Yuan, Yifeng Yang, Xuekui Xi*. Atomic and Electronic Structure of Ni-Nb metallic glasses, Journal of Applied Physics, 2013, 114(21): 213511

(16)Chenchen Yuan, Xingxiang Xia, Kaihou Jiang, Deqian Zhao, Xuekui Xi*, Effect of Sn Additions on the Damage Tolerance of a ZrCuNiAl Bulk Metallic Glass, Metallurgical and Materials Transactions A, 2013, 44A(2): 819-826

(17)Chenchen Yuan, Jiang Ma, Xuekui Xi*. Understanding the correlation of plastic zone size with characteristic dimple pattern length scale on the fracture surface of a bulk metallic glass, Material Science and Engineering A, 2012, 532: 430-434

(18)Chenchen Yuan, Yi-feng. Yang, Xuekui Xi*, Jie Cui, Junfeng Xiang. Solid state ²⁷Al NMR investigation of Knight shift tensors of LnAl2 (Ln = Y, La and Lu) and correlation with DFT calculations, Solid State NMR, 2012, 41: 28-31

(19)Chenchen Yuan and Xuehui Xi*. On the correlation of Young’s modulus and the fracture strength of metallic glasses, Journal of Applied Physics, 2011, 109(3): 033515.

(20)C. C. Yuan*, Z. W. Lv, X. Li, C. M. Pang, R. Liu, C. Yang, J. Ma, W.W. Zhu, B. Huang, H. B. Ke, Ultrasonic-promoted defect activation and structural rejuvenation in a La-based metallic glass, Intermetallics, 153, 2023, 107803. 

(21)F.Jin,C. M.Pang,X. M.Wang, C. C.Yuan*, The role of rare earth elements in tailorable thermal and magnetocaloric properties of RE-Co-Al (RE = Gd, Tb, and Dy) metallic glasses, Journal of Non-Crystalline Solids, 600, 2023, 121992.

(22)M. D. Ruiz-Martín, D. Holland-Moritz*, F. Yang*, C.C. Yuan, G.G. Simeoni, T.C. Hansen, U. Rütt, O. Gutowski, J. Bednarcík, A. Meyer, Microscopic structure and dynamics of glass forming Zr2Co melts and the impact of different late transition metals on the melt properties，Journal of Non-Crystalline Solids：X, 16, 2022, 100131.

(23)Zhuwei Lv (毕业硕士), Chenchen Yuan*, Haibo Ke, Baolong Shen*, Defects activation in CoFe-based metallic glasses during creep deformation,Journal of materials science & technology，2021, 69: 42–47（IF=10.9，材料类国际顶级期刊）

(24)Zhuwei Lv (毕业硕士), Yuqiang Yan, Chenchen Yuan*, Bo Huang, Can Yang, Jiang Ma*, Junqiang Wang, Lishan Huo, Zhiqiang Cui, Xunli Wang, Weihua Wang, Baolong Shen*, Making Fe-Si-B amorphous powders as an effective catalyst for dye degradation by high-energy ultrasonic vibration, Materials and Design, 2020, 194: 108876.（IF=8.4，材料类国际顶级期刊）

(25)Changmeng Pang (在读硕士), Chenchen Yuan*, Lei Chen, Hao Xu, Kai Guo, Jincan He, Yan Li, Mingshuai Wei, Xinming Wang, Juntao Huo, and Baolong Shen*, Effect of Yttrium addition on magnetocaloric properties of Gd-Co-Al-Ho high entropy metallic glasses, Journal of Non-Crystalline Solids, 2020, 549:120354.

(26)Changmeng Pang (在读硕士), Lei Chen, Hao Xu, Wei Guo, Zhuwei Lv, Juntao Huo, Mingjuan Cai, Baolong Shen*, Xunli Wang, Chenchen Yuan*,Effect of Dy, Ho, and Er substitution on the magnetocaloric properties of Gd-Co-Al-Y high entropy bulk metallic glasses, Journal of Alloys and Compounds, 2020, 825:154101.

(27)Feng Hu, Chenchen Yuan*, Qiang Luo, Weiming Yang and Baolong Shen*， Effects of Ho addition on thermal stability, thermoplastic deformation and magnetic properties of FeHoNbB bulk metallic glasses, Journal of Alloys and Compounds, 2019, 807: 151675.

(28)袁晨晨, 非晶态物质概论双语课程的教学改革研究, 课程教育研究, 2018, 28: 229-230.

代表性工作介绍：

超声应力振荡，让非晶合金废料旧颜换新貌！

——作为高效合金催化剂降解合成染料废液

Materials and Design, 194, 2020, 108876. https://doi.org/10.1016/j.matdes.2020.108876

详见https://mp.weixin.qq.com/s/v9S6ddt6ZYhGYvcvSzdliQ，https://mp.weixin.qq.com/s/7bYaAEWvazqyZGCj8qb9DA

其他合作论文

(1)   C. Jia, B.B. Zhu, C.M. Pang, C.C. Yuan, P.F. Xu, B. Xu, J. Bai, L. Tao, F. Xue, G.D. Tang, High thermoelectric performance in ZrNiSn through electron injection and boosting carrier mobility, Materials Today Physics, 33, 2023,101039.（IF=11.5，材料类国际顶级期刊）

(2)   Meng Gao, Baoan Sun, Chenchen Yuan, Jiang Ma, Weihua Wang*. Hidden order in the fracture surface morphology of metallic glasses, Acta Materialia, 2012, 60: 6952-60.（IF=9.4，材料类国际顶级期刊）

(3)   Hongzhen Li, Zhen Li, Jian Yang, Hai Bo Ke, Baoan Sun, Chen Chen Yuan, Jiang Ma*, Jun Shen, Wei Hua Wang, Interface design enabled manufacture of giant metallic glasses, Science China Materials, 64, 2021, 964–972.（IF=8.1，材料类国际顶级期刊，国内卓越期刊）

(4)   Feng Hu, Chenchen Yuan, Qiang Luo, Weiming Yang and Baolong Shen*, Effects of heavy rare-earth addition on glass-forming ability, thermal, magnetic, and mechanical properties of Fe-RE-B-Nb (RE = Dy, Ho, Er or Tm) bulk metallic glass, Journal of Non-Crystalline Solids, 2019, 525: 119681.

(5)   Dandan Xu, Bingling. Zhou, Qianqian Wang, Jing Zhou, Weiming Yang, Chenchen Yuan, Lin Xue, Xingdu Fan, L. Q. Ma and Baolong Shen*. Effects of Cr addition on thermal stability, soft magnetic properties and corrosion resistance of FeSiB amorphous alloys, Corrosion science, 2018, 138: 20-27. (IF=8.3，腐蚀类国际顶级期刊)

(6)   Florian Kargl*, Chenchen Yuan, George Neville Greaves, Aerodynamic Levitation: Thermophysical Property Measurements of Liquid Oxides, International Journal of Microgravity Science and Application, 2015, 32 (2): 320200.

(7)   Q. Q. Wang, G. L. Zhang, J. Zhou, C. C. Yuan, B. L. Shen*, Effects of Ni substitution for Fe/Co on mechanical and magnetic properties of Co-based bulk metallic glasses, Journal of Alloys and Compounds, 2020, 820:153105.

(8)   J. Zhou, W. M. Yang, C. C. Yuan, B. A. Sun, B. L. Shen*, Ductile FeNi-based bulk metallic glasses with high strength and excellent soft magnetic properties, Journal of alloys and compounds, 2018, 742: 318-324.

(9)   J. Li, L. Xue, W.M. Yang, C.C. Yuan, J.T. Huo, B.L. Shen*. Distinct Spin Glass Behavior and Excellent Magnetocaloric Effect in Er₂₀Dy₂₀Co₂₀Al₂₀RE₂₀ (RE = Gd, Tb and Tm) High-entropy Bulk Metallic Glasses,Intermetallics 96, 2018, 90-93.

(10)X.D. Fan, M. Li, T. Zhang, C.C. Yuan, B.L. Shen*. Effect of magnetic field annealing on soft magnetic properties of Co71Fe2Si14-xB9+xMn4 amorphous alloy with low permeability, AIP ADVANCES, 2018, 8: 056105.

(11)L.Xue, J. Li, W.M. Yang, C.C. Yuan, B.L. Shen*. Effect of Fe substitution on magnetocaloric effects and glass-forming ability in Gd-based metallic glasses, Intermetallics, 2018, 93: 67-71.

(12)G. L. Zhang, Q.Q. Wang, C.C. Yuan, W.M. Yang, J. Zhou, L. Xue, F. Hu, B.A. Sun, B.L. Shen*. Effects of Cu additions on mechanical and soft-magnetic properties of CoFeBSiNb bulk metallic glasses, Journal of alloys and compounds, 2018, 737: 815-820.

(13)S. N. Liu, W. X. Dong, C. Y. Lu, Z. W. Lu, J. C. Ge,C. C. Yuan, B. A. Sun, T. Feng, X. L. Wang, S. Lan. Effects of casting current on structure and properties of a nanostructured Zr-Cu-Fe-Al bulk metallic glass, Journal of Iron and Steel Research International, 2018, 25: 630.

(14)F. Yang*, D. Holland-Moritz, J. Gegner, P. Heintzmann, F. Kargl, C.C. Yuan, G.G. Simeoni and A. Meyer. Atomic dynamics in binary Zr-Cu liquids, Europhysics Letters, 2014, 107: 46001.

(15)J.N. Deng, Y.L. Yang, Y.D. Wang*, J.G. Chen, R.L. Peng, C.C. Yuan, E. Bouzy and J.J. Fundenberger. Texture evolution in heavily cold-rolled FeCo-2V alloy during annealing,Journal of materials science & technology, 2009, 25: 219-24.（IF=10.9，材料类国际顶级期刊，国内卓越期刊）

主持或参与的主要科研项目及人才计划

(1)国家自然科学基金面上项目，“非晶合金流变单元的电子结构特征及演化机制”，2021-2024；

(2)国家自然科学基金青年科学基金项目，“铁磁性非晶合金宏观塑性的电子结构起源”，2017-2019；

(3)江苏省基础研究计划（自然科学基金）面上项目，“高Bs铁基非晶合金的液态和非晶态结构调控及力学性能优化”2017- 2020；

(4)国家重点研发计划“特种软磁合金及应用” 的子课题“特种软磁合金设计及工程化集成技术开发”，2016-2020；

(5)国家自然科学基金重点项目，“高性能铁磁性块体非晶合金的探索与结构性能研究”，2017-2021；,

(6)军委科技项目“增材制造先进非晶合金武器装备项目构想建议”，2017-2019；

(7)中央高校基本科研业务费-基础科研扶持项目，非晶合金形变单元的键态特征及其与液态结构、动力学不均匀性的关系，2020；

(8)东南大学教学改革项目，《非晶态物质概论》双语课程的教学改革研究与实践，2018-2019；

(9)香江学者计划，“液态金属玻璃结构弛豫与相变”2017-2019；

(10) 中央高校基本科研业务费-基础科研扶持项目，2017；

(11) 中央高校基本科研业务费-基础科研扶持项目，合金在凝固/重熔和熔化/再凝过程中的显微组织演化，2016；

(12) DLR-DAAD programme，“Electrostatic Levitation under Pressure”，2012-2014；

项目成果科普性介绍或展示网站

https://mp.weixin.qq.com/s/_4Qg7Dm4ZeEdYBY85MIbqw

http://bmgchina.com/shownew.aspx?id=937

https://www.thepaper.cn/newsDetail_forward_4999313

https://rsc.seu.edu.cn/2019/1101/c19993a293436/page.htm

https://mp.weixin.qq.com/s/v9S6ddt6ZYhGYvcvSzdliQ

https://mp.weixin.qq.com/s/hMwgUqvqwUMFGPRdDzVf0g

https://smse.seu.edu.cn/2016/0316/c2590a152707/page.htm

https://mp.weixin.qq.com/s/7bYaAEWvazqyZGCj8qb9DA