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基本信息 The basic information
姓名: 马越

学院: 材料学院


学历: 博士研究生毕业

学位: 哲学博士


职称: 教授

职务: 副主任


学科: 材料科学与工程-材料学,材料科学与工程-材料物理与化学





教育经历 Education Experience




2005.09—2009.06南京大学化学化工学院 学士
2009.07—2013.08新加坡国立大学整合科学与工程（NGS项目）博士

2013.11—2015.08 瑞典乌普萨拉大学结构化学系 博士后研究员











工作经历 Work Experience
2015.09—2017.10瑞典先进电池中心独立研究员

2015.10—2017.06 西北工业大学纳米能源中心研究员
2017.07—至今 西北工业大学纳米能源中心教授,博士生导师





荣誉获奖 Awards Information



社会兼职 Social Appointments
主持国家自然科学基金青年科学基金、中瑞国际合作（NSFC-STINT）基金、西部大开发环境工程重点预研项目、陕西省能源化工基建重点项目以及瑞典能源部（Energimyndigheten）的电池专项基金（Batterifonden）等。担任的学术兼职包括10 余本国际新能源期刊的独立审稿人和仲裁人，SCI期刊International Journal of Electrochemistry、Journal of Nanotechnology的客座编辑。



科学研究 Scientific Research
通过探索关键储能材料的可控制备及界面改性方法，利用多种原位/在线监测技术揭示电化学体系中电极电子结构、晶体结构以及表界面反应的动态变化规律和电池储能机制。主要研究方向包括：
1. 锂（钠、锌）离子电池正负极电极材料、锂（钠）金属电池负极、固态电解质
2.同步辐射光电子能谱技术及原位XRD检测技术
3. 柔性全固态储能体系设计
4. 硅碳负极材料产业化技术







学术成果 Academic Achievements
基于锂电池储能系统，纳米复合功能材料，原位相变技术表征等领域的研究经历，迄今为止发表论文50余篇，包括：Adv. Mater, Adv. Funct. Mater, ACS Nano, Nano Energy, Energy Storage Materials, Chem. Mater, J. Mater. Chem. A , Chemical Engineering Journal等，文章总引用超过2000余次。

Publications:
2021
【30】Single Crystal Metal-Organic Framework Constructed by Vertically Self-Pillared Nanosheets and Its Derivative for Oriented Lithium Plating. Chinese J. Catal., 2021, 42, 0-0. Xiaomin Jia, Shaowen Li, Tu Sun, Yanzhi Wang, Yaqi Fan, Chaochao Zhang, Yang Xu, Zuozhong Liang, Haitao Lei, Wei Zhang, Yuye Zhou, Yanhang Ma, Haoquan Zheng*, Yue Ma*, Rui Cao*
【29】Alloying-Triggered Heterogeneous Nucleation for the Flexible Sodium Metallic Batteries. Energy Storage Materials, 2021, 38, 499-508.Miao Bai, Yujie Liu,Yue Ma*.
【28】Engineering Vanadium Pentoxide Cathode for the Zero-Strain Cation Storage via a Scalable Intercalation-Polymerization Approach.Adv. Funct. Mater.2021, .Zhiqiao Wang, Xiaoyu Tang,Yue Ma*.

【27】Metal Organic Frameworks Enabled Rational Design of Multifunctional PEO-Based Solid Polymer Electrolytes.Chem. Eng. J.2021, 414, 128702.Changchun Sun,Abdulmalik Yusuf, Shaowen Li,Xiao-Lin Qi,Yue Ma*,De-Yi Wang*.
【26】Enabling High-Performance Sodium Metal Anodeviaa Presodiated Alloy-Induced Interphase. Chem.Eng. J. 2021,417,128997. Siyuan Liu, Miao Bai, Yue Ma*.

【25】Macromolecule-Level Polymer Brush Layer Enabling the Geometric Customizationof the Lithium Deposits.Cell Rep. Phys. Sci.,2021, 2,100324. Min Zhang, Helin Wang,Yue Ma*.

2020
【24】Spatially Anchoring the Lithiophilic Composites within the Mixed-Conducting Phase: AHybrid Storage Mechanism Enabled by the Al-Si@AlSiO_x Composite.

Chem. Eng. J. 2020,In Press. Shaowen Li, Peie Jiang.Yue Ma*.
【23】A Flexible, Integrated Film Battery Configuration forUltrafast Sodium Ion Storage.J. Mater. Chem. A.2021, 9, 1252-1259. Wenyu Zhao, Helin Wang.Yue Ma*.
【22】Honeycomb Inspired Lithiophilic Scaffold for Ultra-Stable, High-Areal-Capacity Metallic Deposition.Energy Storage Materials, 2021, 35,378–387.Shaowen Li, Shu Zhang,Yue Ma*.
【21】Encasing Prelithiated Silicon Species in the Graphite Scaffold: AnEnabling Anode Design for the Highly Reversible, Energy-Dense CellModel. ACS Appl. Mater. Interfaces,2020, 12, 47490-47502. Miao Bai, Liyan Yang, Yue Ma*.
【20】Towards the high-energy-density battery with broader temperature adaptability: Self-discharge mitigation of quaternary nickel-rich cathode. Energy Storage Materials, 2020, 33, 239–249. Xiaoyu Tang, Qiurong Jia, Yue Ma*.
【19】Construction of the Na_0.92Li_0.40Ni_0.73Mn_0.24Co_0.12O₂ sodium-ion cathode with balanced high-power/energy-densities. Energy Storage Materials, 2020, 27, 252–260. Changchun Sun, Shaowen Li, Yue Ma*.
【18】A Lightweight, Adhesive, Dual-Functionalized Over-Coating Interphase towards Ultra-Stable High-Current Density Lithium Metal Anodes.Energy Environ. Mater., 2020, in press. DOI: 10.1002/eem2.12103. Shaowen Li, Yue Ma*, Bingqing Wei*.
2019
【17】Probing the Dynamic Evolution of Lithium Dendrites: A Review of the In-situ/Operando Characterizations for the Lithium Metallic Batteries.Nanoscale, 2019,11, 20429-20436. Yue Ma*,Shaowen Li, Bingqing Wei*.
【16】Synthesis of 2D Li₄Ti₅O₁₂ Nanosheets via the“Insertion-Exfoliation-Lithiation” ProcessACS Appl. Energy Mater.2019, 2, 10, 7321-7329.Weiwei Wu,Changqing Lin, Yingchun Cheng*,Yue Ma*
【15】In operando Raman investigation of Fe doping influence on catalytic NiO intermediates for enhanced overall water splitting Nano Energy.2019, 66, 104118 DOI:10.1016/ j.nanoen.2019.104118. ZhenQiu,Yue Ma*,Tomas Edvinsson*
【14】An Integrated, Flexible Lithium Metal Battery with Improved Mechanical and Electrochemical Cycling Stability.ACS Appl. Energy Mater.2019, 2, 5, 3642-3650.S. W. Li,Y. Ma*, B. Q. Wei*
【13】Investigation of the self-discharge behaviors of the LiMn₂O₄cathode at elevated temperatures: in situ X-ray diffraction analysis and a co-doping mitigation strategy.J. Mater. Chem. A.2019, 7(21), 13364-13371. X. Y. Tang, J. Zhou,Y. Ma*
【12】Integrated Thin Film Battery Design for Flexible Lithium Ion Storage: Optimizing the Compatibility of the Current Collector-Free Electrodes.Adv. Funct. Mater.2019, **.W. Y. Zhao, M. Bai, S. Yuan*,Y. Ma*
【11】Ternary Anode Design for Sustainable Battery Technology: An Off-Stoichiometric Sn/SnSiO_x+2@C Composite Recycled from Biomass.ACS Sustainable Chemistry & Engineering2019,7, 12563-12573.M. Bai, X. Y. Tang,Y. Ma*



2013---2018 Selected Publications
【10】Multiscale Interfacial Strategy to Engineer Mixed Metal-Oxide Anodes toward Enhanced Cycling Efficiency.ACS Applied Materials & Interfaces.2018, 10 (23), 20095–20105.Yue Ma*, Cheuk-Wai Tai, Shaowen Li, Kristina Edstrm*, and Bingqing Wei*
【9】Fe-Doped MnxOy with Hierarchical Porosity as a High-Performance Lithium-ion Battery Anode.Advanced Materials.2013, 25, 4646-4652.Yue Ma,Chunliu Fang, Jim Yang Lee*
【8】Carbon-encapsulated F-doped Li₄Ti₅O₁₂as a high rate anode material for Li⁺ batteries.ACS Nano.2013, 7, 10870-10878.Yue Ma,Bo Ding, Jim Yang Lee*
【7】Encasing Si particles within a versatile TiO₂-xFx layer as an extremely reversible anode for high energy-density lithium-ion battery.Nano Energy.2016, 745-755.Yue Ma*, Habtom Desta Asfaw, Kristina Edstrm
【6】Constraining Si Particles within Graphene Foam Monolith: Interfacial Modification for High-Performance Li⁺ Storage and Flexible Integrated Configuration.Advanced Functional Materials.2016，26，6797-6806. Yue Ma*, Reza Younesi, Kristina Edstrm
【5】A General Method to Fabricate Free-Standing Electrodes: Sulfonate Directed Synthesis and their Li+ Storage Properties.Chemistry of Materials.2015, 27, 3957-3965. Yue Ma*, Habtom Desta Asfaw, Kristina Edstrm
【4】Iron Doping in Spinel NiMn₂O₄: Stabilization of the Mesoporous Cubic Phase and Kinetics Activation toward Highly Reversible Li⁺,Chemistry of Materials.2015, 27, 7698-7709. Yue Ma*, Cheuk-Wai Tai, Jim Yang Lee, Kristina Edstrm
【3】N-doped carbon encapsulation of ultrafine silicon nanocrystallites for high performance lithium ion storage.Journal of Materials Chemistry A. 2013, 1, 13625-13631. Yue Ma, Ge Ji, Jim yang Lee*
【2】Three-dimensional carbon foam supported tin oxide nanocrystallites with tunable size range: Sulfonate anchoring synthesis and high rate lithium storage properties.Journal of Power Sources.2015, 294, 208-215. Yue Ma*, Habtom Desta Asfaw, Kristina Edstrm
【1】Recycled PVA Sponge for Carbon Encapsulation of Size-Tunable SnO₂Nanocrystalline Composites: Flash Synthesis and Li⁺ Storage Properties.ChemSusChem.2015, 8, 2084-2092, Yue Ma*, Cheuk-Wai Tai, Kristina Edstrm



招生信息 Admission Information
招生与招聘：
1. 欢迎全国高校志于学、勤与学、笃于学的优秀同学保送/报考硕士、博士
2. 招收相关研究领域的博士后（待遇优厚），具体的博士后待遇按照西北工业大学博士后管理规定提供工资和福利待遇，基础年薪为12-23万，缴纳医疗、养老保险和公积金。详见学校博士后管理网站：http://renshi.nwpu.edu.cn/bshwz/index.htm


课题组研究条件：
常规材料制备与表征：FTIR，UV-Vis，SEM， XRD，双温区CVD炉1台；TGA/DSC同步热分析，接触角，拉伸测试仪，台阶仪，粒度分析仪，BET，静电纺丝，ALD。
特殊表征设备：SEM，Raman-AFM联用（四个激光器， AFM外罩手套箱惰性气氛保护）
锂/钠/锌电池研究：新威电池通道，电化学工作站，原位XRD结合电化学循环测试，电池的高温测试烘箱。







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