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导师队伍(硕士生)

袁度 湖湘学者

发布者:谭冰  发布时间:2020年11月19日 12:36

 

袁度:198210月生,博士,湖湘学者特聘岗,湖南省“团队百人计划”核心成员。20056月毕业于新加坡国立大学材料科学系,获荣誉应用理学学士学位。20127月毕业于新加坡国立大学材料科学与工程系,获博士学位。随后在新加坡国立大学、南洋理工大学进行博士后研究,从事材料表面科学与工程和先进储能材料的研究工作。202011月入职(中国)股份有限公司官网材料科学与工程学院,主要从事课可充金属电池、材料表面科学与工程的研发,期间参与多项新加坡国家研究基金委项目(累计6000万人民币)。

研究领域:以材料表面科学与工程及纳米材料合成与物理化学性质为基础,构建

新型水系可充金属电池;结合先进表征技术探索其反应机制与工作机理;研发高效低成本的储能器件。

1. 锌金属负极制备及表面保护:研究水系锌电池中锌枝晶生产机制、保护方法,推进高效锌金属电池、电容器研发;

2. 复合隔膜材料:生物质基隔膜材料;

3. 新型电解质:融盐、准固态电解质;

4. 可充多价金属电池、电容器:设计纳米复合电极材料并研究其在多价金属可充电池中的工作机理,探讨其应用价值;结合刺激-响应功能材料,推进智能型电池的研发。

已发表文章

    A cost-effective nafion/lignin composite membrane with low vanadium ion permeation for high performance vanadium redox flow battery, J. Ye, D. Yuan (co-first author), M. Ding, Y. Long, T. Long, L, Sun, and C. Jia, J. Power Sources, 2021, 482, 229023.

    Boosting Zn-Ion Storage Performance of Bronze-Type VO2 via Ni-Mediated Electronic Structure Engineering, Y. Cai, R. Chua, Z. Kou, H. Ren, D. Yuan, S. Huang, S. Kumar, V. Verma, P. Amonpattaratkit, and M. Srinivasan, ACS Appl. Mater. Interfaces 2020, 12, 36110.

    Highly Stable Vanadium Redox-Flow Battery Assisted by Redox-Mediated Catalysis, L. Xia, T. Long, W. Li, F. Zhong, M. Ding*, Y. Long, Z. Xu, Y. Lei, Y. Guan, D. Yuan, Y. Zhang, C. Jia*, L. Sun*, and Q. Sun. Small 2020, 2003321.

    Hierarchical porous carbon monolith derived from lignin for high areal capacitance supercapacitors, Hui Li, Yuhui Zhao, Siqi Liu, Pengcheng Li, Du Yuan*, and Chaobin He*, Micropor. Mesopor. Mat. 2020, 297, 109960.

    Bronze-type vanadium dioxide holey nanobelts as high performing cathode material for aqueous aluminium-ion batteries, Y. Cai, S. Kumar, R. Chua, V. Verma, D. Yuan, Z. Kou, H. Ren, H. Arora and M. Srinivasan. J. Mater. Chem. A, 2020, 8, 12716.

    A Cost-effective Nafion Composite Membrane as an Effective VanadiumIon Barrier for Vanadium Redox Flow Batteries, X. Lou, D. Yuan, Y. Yu, Y. Lei, M. Ding*, Q. Sun*, and C. Jia*, Chem. Asian J. 2020, 15, 2357.

    Codoped Holey Graphene Aerogel by Selective Etching for HighPerformance SodiumIon Storage, J. Zhao, Y. Zhang, J. Chen, W. Zhang, D. Yuan, R. Chua, H. N. Alshareef* and Y. Ma*, Adv. Energy Mater. 2020, 10, 2000099.

    Emerging rechargeable aqueous aluminum ion battery: Status, challenges, and outlooks, D. Yuan*, J. Zhao, W. Manalastas Jr, S. Kumar, and M. Srinivasan*, Nano Mater. Sci. 2019, 2020, 2, 248.

    Lignin@Nafion Membrane Enabled Zn SEI Formation Enhancing Cycle-life for Rechargeable Zinc Ion Battery, D. Yuan, W. Manalastas Jr, L. Zhang, J. Chan, S. Meng, Y. Chen, and M. Srinivasan, ChemSusChem, 2019, 12, 4889.

    High-performance flexible quasi-solid-state zinc-ion batteries with layer-expanded vanadium oxide cathode and zinc/stainless steel mesh composite anode, J. Zhao, H. Ren, Q. Liang, D. Yuan, S. Xi, C. Wu, W. Manalastas Jr, J. Ma, Wei Fang, Yun Zheng, C. Du, M. Srinivasan, and Q. Yan, Nano Energy, 2019, 62, 94.

    Water in Rechargeable MultivalentIon Batteries: An Electrochemical Pandora's Box, W. Manalastas Jr., S. Kumar, V. Verma, L. Zhang, D. Yuan, and M. Srinivasan, Chem. Sus. Chem, 2019, 12, 379.

    A green SPEEK/lignin composite membrane with high ion selectivity for vanadium redox flow battery, Jiaye Ye, Y. Cheng, L. Sun, M. Ding, C. Wu, D. Yuan, X. Zhao, C. Xiang, and C. Jia, J. Mem. Sci. 2019, 572, 110.

    SPEEK membrane of ultrahigh stability enhanced by functionalized carbon nanotubes for vanadium redox flow battery, M. Ding, X. Ling, D. Yuan, Y. Cheng, C. Wu, Z. Chao, L. Sun, C. Yan, and C. Jia, Front Chem. 2018; 6: 286.

    H. Li, J. Sun, C. Wang, S. Liu, D. Yuan, X. Zhou, J. Tan, P. Ludger and C. He, High modulus, strength, and toughness polyurethane elastomer using lignin as sole polyol, ACS Sustainable Chem. Eng., 2017, 5, 4972.

    H. Li, D. Yuan (co-first author), C. Tang, S. Wang, J. Sun, Z. Li, T. Tang, F. Wang, H. Gong and C. He, Lignin-derived Interconnected Hierarchical Porous Carbon Monolith with Large Areal/volumetric Capacitance for Supercapacitor, Carbon, 2016, 100, 151.

    Z. Li, D. Yuan (co-first author), G. Jin, B. H. Tan, and C. He, Facile Layer-by-Layer Self-assembly towards Enantiomeric PLA Stereocomplex Coated Magnetite Nanocarrier for Highly Tunable Drug Deliveries, ACS Appl. Mater. Interfaces, 2016, 8, 1842.

    J. Sun, C. Wang, J. C. C. Yeo, D. Yuan, H. Li, L. P. Stubbs and C. He, Lignin Epoxy Composites: Preparation, Morphology, mechanical property and toughening mechanism, Macromolecular Materials and Engineering, 2016, 301, 328.

    J. Sun, H. Li, C. Wang, D. Yuan, L. P. Stubbs and C. He, The Effect of Residual Solvent N,N-Dimethylformamide on the Curing Reaction and Mechanical Properties of Epoxy and Lignin Epoxy Composites, Macromolecular Chemistry and Physics, 2016, 217, 1065.

    W. Thitsartarn, X. Fan, Y. Sun, JCC Yeo, D. Yuan, and C. He, Simultaneous Enhancement of Strength and Toughness of Epoxy using POSS-Rubber Core-Shell Nanoparticles, Composites Science and Technology, 2015, 118, 63.

    D. Yuan, Z. Li, W. Thitsartarn, X. Fan, J. Sun, H. Li and C. He, β Phase PVDF-hfp Induced by Mesoporous SiO2 Nanorods: Synthesis and Formation Mechanism, J. Mater. Chem. C, 2015, 3, 3708.

    Z. Li, D. Yuan, X. Fan, B. H. Tan and C. He, Poly(ethylene glycol) conjugated Poly(lactide) based Polyelectrolytes: Synthesis and Formation of Stable Self-Assemblies Induced by Stereocomplexation, Langmuir, 2015, 31, 2321.

    X. Fan, Z. Wang, D. Yuan, Y. Sun, Z. Li and C. He, Novel linear-dendritic-like amphiphilic copolymers: synthesis and self-assembly characteristics, Polym. Chem., 2014, 5, 4069.

    D. Yuan, Z. Liu, S. W. Tay, X. Fan, X. Zhang and C. He, An amphiphilic-like fluoroalkyl modified SiO2 nanoparticle@Nafion proton exchange membrane with excellent fuel cell performance, Chem. Comm., 2013, 49, 9639.

    X. Fan, M. Wang, D. Yuan and C. He, Amphiphilic Conetworks and Gels Physically Cross-Linked via Stereocomplexation of Polylactide, Langmuir, 2013, 29, 14307.

    M. Wang, D. Yuan, X. Fan, N. Sahoo and C. He, Polymer Nanocomposite Hydrogels Exhibiting Both Dynamic Restructuring and Unusual Adhesive Properties, Langmuir, 2014, 29, 7087.

    D. Yuan, M. C. Tan, R. E. Riman and G. M. Chow, Comprehensive Study on the Size Effects of the Optical Properties of NaYF4:Yb,Er Nanocrystals, J. Phys. Chem. C, 2013, 117, 13297.

    H. Zhang, N. Bao, D. Yuan and J. Ding, Nanomagnetism study of highly-ordered iron oxide nanocrystal assemblies fabricated by the LangmuirBlodgett technique, Phys. Chem. Chem. Phys., 2013, 15, 14689.

    H.Y. Si, D. Yuan, J.S. Chen and G.M. Chow, Synthesis of PbS nanocrystals from sulfuramine solutions at room temperature, RSC Adv., 2011, 1, 817.

    H.Y. Si, D. Yuan; J.S. Chen, G.M. Chow and H.L. Zhang, Facile fabrication of imaging near-infrared photographic films, J. Colloid Interface Sci., 2011, 353, 569.

    L.P. Qian, D. Yuan, G.S. Yi and G.M. Chow, Critical shell thickness and emission enhancement of NaYF4:Yb,Er/NaYF4/silica core/shell/shell nanoparticles, J. Mater. Res., 2009, 24, 3559.

    D. Yuan, G.S. Yi and G.M. Chow, Effects of size and surface on luminescence properties of submicron upconversion NaYF4:Yb,Er particles, J. Mater. Res., 2009, 24, 2042.

著作章节:

    D. Yuan, Y. Zhu and C. Jia, Carbon Nanotube-Polymer Composites for Energy Storage Applications, Carbon Nanotubes - Current Progress of their Polymer Composites, ISBN 978-953-51-2470-2.

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联系方式:Email: yuandu@csust.edu.cn

通讯地址:湖南省长沙市天心区(中国)股份有限公司官网云塘校区新能源大楼3B-502