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马薇

职位/职称:副教授

邮箱:iphymawei@163.com

办公地址:

主页地址:http://teacher.nxu.edu.cn/mawei1/zh_CN/index.htm

教育经历:

2010-2016 理学博士,凝聚态物理,304am永利集团物理研究所

2006-2010本科,物理学,复旦大学

2014.3-2014.11访问学者,物理学,美国加州州立大学北岭分校

2014.11-2015.2访问学者,物理学,美国哈佛大学

工作经历:

2017-2019,讲师,光伏材料重点实验室,永利集团

2019-至今,副教授,光伏材料重点实验室,永利集团

研究领域:

主要研究固体表面与纳米体系的量子相互作用与激发动力学过程,包括:

1.二维材料:对石墨烯、硼烯、MoS2、WS2等二维材料的修饰改性、理论计算以及应用探索研究;

2.新型太阳能电池:对钙钛矿太阳能电池、染料敏化太阳能电池的能量转化机制研究;

3.储能材料:锂离子、钠离子电池负极材料的设计和电化学性能研究。

讲授课程:

固体电子学 计算材料学

主要学术兼职:

美国物理学会APS、国际材料研究会MRS、美国化学学会ACS会员。Chemical Engineering Journal,Journal of Physical Chemistry Letters, Nano Letters, Applied Physics Letters等期刊特邀审稿人, Frontiers in Materials审稿编辑

荣誉与奖励:

2018第三届宁夏青年科技人才托举工程入选者

2020年入选304am永利集团“西部之光”青年学者

2021年优秀中国共产党党员永利集团

2021年第十六届宁夏自然科学优秀论文一等奖宁夏科学技术协会

2022年入选304am永利集团“西部之光”访问学者

学术成果:

[项目信息]:

(1)宁夏科技厅,宁夏自然科学基金优秀青年项目,2023AAC05002,MXene界面钝化提高钙钛矿太阳能电池的稳定性,2023-07至今,16万元,主持

(2)304am永利集团,西部之光人才培养计划, XAB2020AW06,二维材料界面工程优化钙钛矿太阳能电池的光伏性能, 2021-03至 今, 10万元,主持

(3)国家自然科学基金委员会,青年科学基金项目, 11704207,钙钛矿太阳能电池回滞现象的第一性原理研究, 2018-01-01至2020-12-31, 22万元,结题,主持

(4)宁夏科技厅,宁夏重点研发计划一般项目, 2018BEE03014,利用上转换机制提高非晶硅太阳能电池的效率, 2019-01至2021-12, 30万元,结题,主持

(5)宁夏回族自治区科学技术协会,第三批宁夏青年科技人才托举工程, TJGC2018006,钙钛矿太阳能电池回滞现象的第一性原理研究, 2018-09至2021-08, 4.5万元,结题,主持

(6)宁夏回族自治区人社厅,宁夏留学人员创新创业择优资助项目, NHR2018016,钙钛矿太阳能电池光稳定性的第一性原理研究, 2018-12至2020-12, 2.5万元,结题,主持

[发明专利]:

[代表性论文]:

(1)Lu Z, Kang Y, Du Y, Ma X, Ma W*, Zhang J*. Functionalizing Janus-structured Ti2B2 unveils exceptional capacity and performance in lithium-ion battery anodes [J]. Journal of Colloid and Interface Science, 2024, 661: 662-670

(2) Yang K, Kang Y, Meng S*, Zhang J*, Ma W*. Interlayer Carrier Dynamics in Two-Dimensional Perovskites Determined by the Length of Conjugated Organic Cations [J]. Nano Letters.

(3) Kang Y, Yang K, Fu J, Wang Z*, Li X, Lu Z, Zhang J*, Li H*, Zhang J*, Ma W*. Selective Interfacial Excited‐State Carrier Dynamics and Efficient Charge Separation in Borophene‐Based Heterostructures (Adv. Mater. 5/2024) [J]. Advanced Materials, 2024, 36(5): 2470039.

(4) Kang Y, Yang K, Fu J, Wang Z*, Li X, Lu Z, Zhang J*, Li H*, Zhang J*, Ma W*. Selective Interfacial Excited‐State Carrier Dynamics and Efficient Charge Separation in Borophene‐Based Heterostructures [J]. Advanced Materials: 2307591.

(5) Wu B, Wang A, Fu J, Zhang Y, Yang C, Gong Y, Jiang C, Long M, Zhou G, Yue S, Ma W*, Liu X. Uncovering the mechanisms of efficient upconversion in two-dimensional perovskites with anti-Stokes shift up to 220 meV [J]. Science Advances, 2023, 9(39): eadi9347.

(6) Yang K, Kang Y, Li X, Ma X, Wang X, Lu Z, Li H*, Ma W*, Pan L*. Graphdiyne and its Composites for Lithium‐Ion and Hydrogen Storage [J]. Chemistry–A European Journal, 2023, 29(53): e202301722

(7) Shao Z, Wu B, Li P, Ma W*, Tan H*, Li H*. Mechanism of corrosion protection in reinforced Ti-6Al-4 V alloy by wire arc additive manufacturing using magnetic arc oscillation [J]. Materials Characterization, 2023, 199: 112844.

(8) Wang X, Zhuo S, Fu J, Li X, Zhao X, Jiang H, Lv G, Li P, Li J, Zhang W, Ma W*. Hybrid ligand polymerization for weakly confined lead halide perovskite quantum dots [J]. ACS Applied Materials & Interfaces, 2023, 15(16): 20208-20218.

(9) Wang T, Yang J, Wang H, Ma W*, He M*, He Y*, He X*. Promoting Reversibility of Co‐Free Layered Cathodes by Al and Cation Vacancy [J]. Advanced Energy Materials, 2023, 13(12): 2204241.

(10) Li P, Shao Z, Fu W, Ma W*, Yang K, Zhou H, Gao M*. Enhancing corrosion resistance of magnesium alloys via combining green chicory extracts and metal cations as organic-inorganic composite inhibitor [J]. Corrosion Communications, 2023, 9: 44-56.

(11) Fu J, Li M, Kang Y, Li H*, Zhang J*, Ma W*. Water dopant control of structural stability and charge recombination of perovskite solar cells: A first-principles study [J]. Applied Surface Science, 2023, 612: 155794.

(12) Kang Y, Ma X, Fu J, Yang K, Wang Z*, Li H*, Ma W*, Zhang J*. Substrate-Mediated Borophane Polymorphs through Hydrogenation of Two-Dimensional Boron Sheets [J]. The Journal of Physical Chemistry Letters, 2022, 13(43): 10222-10229.

(13) Wang X, Li W, Zhao X, Fu J, Zhang G, Ma W*, Zhang W, Choi H. Surface passivation of halide perovskite nanocrystals for stable and high purity color conversion [J]. Applied Physics Letters, 2022, 120(1).

(14) Wang, L.; Hao, Y.; Ma, W.*; Liang, S.* Improving Phase Transition Temperature of VO2 via Ge Doping: A Combined Experimental and Theoretical Study. Rare Metals 2021, 40 (5), 1337–1346.

(15) Liang, T.; Fu, J.; Li, M.; Li, H.; Hao, Y.; Ma, W.*Application of Upconversion Photoluminescent Materials in Perovskite Solar Cells: Opportunities and Challenges.Materials Today Energy2021, 100740.

(16) Zhang, Z.; Huang, Q.; Ma, W.; Li, H.* Interfacial Engineering of Polyhedral Carbon@ Hollowed Carbon@ SiO2 Nanobox with Tunable Structure for Enhanced Lithium Ion Battery. Applied Surface Science 2021, 538, 148039.

(17) Huang, Q.; Li, H.; Ma, W.* Enabling Enhanced Lithium Ion Storage Performance of Graphdiyne by Doping with Group-15 Elements: A First-Principles Study. ACS omega 2021, 6 (2), 1456–1464.

(18) Li, M.; Li, H.; Fu, J.; Liang, T.; Ma, W.* Recent Progress on the Stability of Perovskite Solar Cells in a Humid Environment. The Journal of Physical Chemistry C 2020, 124 (50), 27251–27266.

(19) Ma, W.#; Jiao, Y.#; Li, H.; Guo, H.; Kaxiras, E.*; Meng, S.* Role of Explicitly Included Solvents on Ultrafast Electron Injection and Recombination Dynamics at TiO2/Dye Interfaces. ACS Applied Materials & Interfaces 2020, 12 (43), 49174–49181.

(20) Du, Y.; Ma, W.*; Li, H.* In Situ Growth of CoP3/Carbon Polyhedron/CoO/NF Nanoarrays as Binder‐Free Anode for Lithium‐Ion Batteries with Enhanced Specific Capacity. Small 2020, 16 (11), 1907468.

(21) Ma, W.; Zhang, X.; Xu, Z.; Guo, H.; Lu, G.*; Meng, S.* Reducing Anomalous Hysteresis in Perovskite Solar Cells by Suppressing the Interfacial Ferroelectric Order. Acs Applied Materials & Interfaces 2020, 12 (10), 12275–12284.

(22)郝禹齐;梁天宇;马薇*.稀土上转换发光材料在太阳能电池中的应用.信息记录材料2020, 2.

(23) Liu, Z.; Ma, W.; Li, H.* Elucidating the Capacitive Desalination Behavior of NaxCoO2: The Significance of Electrochemical Pre-Activation. Nanoscale 2020, 12 (14), 7586–7594.

(24) Zhang, J.; Lian, C.; Guan, M.; Ma, W.; Fu, H.; Guo, H.; Meng, S.* Photoexcitation Induced Quantum Dynamics of Charge Density Wave and Emergence of a Collective Mode in 1 T-TaS2. Nano letters 2019, 19 (9), 6027–6034.

(25)马薇*;师小伟;郝禹齐.面向功能材料属性预测的机器学习方法初探.长沙大学学报2019, 2.

(26) Meng, L.; Zhang, F.; Ma, W.; Zhao, Y.; Zhao, P.; Fu, H.; Wang, W.; Meng, S.*; Guo, X.* Improving Photovoltaic Stability and Performance of Perovskite Solar Cells by Molecular Interface Engineering. The Journal of Physical Chemistry C 2018, 123 (2), 1219–1225.

(27) Du, Y.; Gao, T.; Ma, W.; Li, H.* Capacity Fading of Nanoporous Carbon Electrode Derived from ZIF-8 during Insertion-Desertion of Lithium Ions. Chemical Physics Letters 2018, 712, 7–12.

(28) Lu, S.#; Ma, W.#; Jin, G.; Zeng, Q.; Feng, X.; Feng, T.; Liu, H.; Meng, S.*; Redfern, S. A.; Yang*, B. A Combined Experimental and Theoretical Investigation of Donor and Acceptor Interface in Efficient Aqueous-Processed Polymer/Nanocrystal Hybrid Solar Cells. Science China Chemistry 2018, 61 (4), 437–443.

(29) Gao, T.; Zhou, F.; Ma, W.; Li, H.* Metal-Organic-Framework Derived Carbon Polyhedron and Carbon Nanotube Hybrids as Electrode for Electrochemical Supercapacitor and Capacitive Deionization. Electrochimica Acta 2018, 263, 85–93.

(30) Jia, C#.; Ma, W.#; Guan, J.; Gu, C.; Li, X.; Meng, L.; Gong, Y.; Meng, S.; Guo, X. High‐Efficiency Photovoltaic Conversion at Selective Electron Tunneling Heterointerfaces. Advanced Electronic Materials 2017, 3 (11), 1700211.

(31) Ding, Z.; Yan, L.; Li, Z.; Ma, W.; Lu, G.; Meng, S.* Controlling Catalytic Activity of Gold Cluster on MgO Thin Film for Water Splitting. Physical Review Materials 2017, 1 (4), 045404.

(32) Zhang, J.; Hong, H.; Lian, C.; Ma, W.; Xu, X.; Zhou, X.; Fu, H.; Liu, K.; Meng, S.* Interlayer‐state‐coupling Dependent Ultrafast Charge Transfer in MoS2/WS2 Bilayers. Advanced science 2017, 4 (9), 1700086.

(33) Wei, L.#; Ma, W.#; Lian, C.; Meng, S.* Benign Interfacial Iodine Vacancies in Perovskite Solar Cells. The Journal of Physical Chemistry C 2017, 121 (11), 5905–5913.

(34) Zhao, Y.; Zhou, W.; Ma, W.; Meng, S.; Li, H.; Wei, J.; Fu, R.; Liu, K.; Yu, D.; Zhao, Q.* Correlations between Immobilizing Ions and Suppressing Hysteresis in Perovskite Solar Cells. ACS Energy Letters 2016, 1 (1), 266–272.

(35) Jia, C.#; Ma, W.#; Gu, C.; Chen, H.; Yu, H.; Li, X.; Zhang, F.; Gu, L.; Xia, A.; Hou, X.; Meng, S.*; Guo, X.* High-Efficiency Selective Electron Tunnelling in a Heterostructure Photovoltaic Diode. Nano Letters 2016, 16 (6), 3600–3606.

(36) Zhou, L.; Zhang, J.; Zhuo, Z.; Kou, L.; Ma, W.; Shao, B.; Du, A.; Meng, S.; Frauenheim, T.* Novel Excitonic Solar Cells in Phosphorene–TiO2 Heterostructures with Extraordinary Charge Separation Efficiency. The journal of physical chemistry letters 2016, 7 (10), 1880–1887.

(37) Zhang, F.#; Ma, W.#; Guo, H.*; Zhao, Y.; Shan, X.; Jin, K.; Tian, H.; Zhao, Q.; Yu, D.; Lu, X.; Lu, G.*; Meng, S.* Interfacial Oxygen Vacancies as a Potential Cause of Hysteresis in Perovskite Solar Cells. Chemistry of Materials 2016, 28 (3), 802–812.

(38) Ma, W.; Zhang, J.; Yan, L.; Jiao, Y.; Gao, Y.; Meng, S.* Recent Progresses in Real-Time Local-Basis Implementation of Time Dependent Density Functional Theory for Electron–Nucleus Dynamics. Computational Materials Science 2016, 112, 478–486.

(39) Chen, H.; Cheng, N.; Ma, W.; Li, M.; Hu, S.; Gu, L.; Meng, S.; Guo, X. *Design of a Photoactive Hybrid Bilayer Dielectric for Flexible Nonvolatile Organic Memory Transistors. ACS nano 2016, 10 (1), 436–445.

(40) Wu, Z.#; Ma, W.#; Meng, S.; Li, X.; Li, J.; Zou, Q.; Hua, J.*; Tian, H.* New Sensitizers Containing Amide Moieties as Electron-Accepting and Anchoring Groups for Dye-Sensitized Solar Cells. RSC advances 2016, 6 (78), 74039–74045.

(41) Zhang, H.; Chen, H.; Ma, W.; Hui, J.; Meng, S.; Xu, W.; Zhu, D.; Guo, X.* Photocontrol of Charge Injection/Extraction at Electrode/Semiconductor Interfaces for High-Photoresponsivity Organic Transistors. Journal of Materials Chemistry C 2016, 4 (23), 5289–5296.

(42) Zhang, H.; Meng, S.; Yang, H.; Li, L.; Fu, H.; Ma, W.; Niu, C.; Sun, J.; Gu, C.* Tuning Magnetic Splitting of Zigzag Graphene Nanoribbons by Edge Functionalization with Hydroxyl Groups. Journal of Applied Physics 2015, 117 (11), 113902.

(43) Zhang, F.; Ma, W.; Jiao, Y.; Wang, J.; Shan, X.; Li, H.; Lu, X.; Meng, S.* Precise Identification and Manipulation of Adsorption Geometry of Donor− π–Acceptor Dye on Nanocrystalline TiO2 Films for Improved Photovoltaics. ACS applied materials & interfaces 2014, 6 (24), 22359–22369.

(44) Ma, W.; Jiao, Y.; Meng, S.* Predicting Energy Conversion Efficiency of Dye Solar Cells from First Principles. The Journal of Physical Chemistry C 2014, 118 (30), 16447–16457.

(45) Ma, W.; Zhang, F.; Meng, S.* Dye-Sensitized Solar Cells: Atomic Scale Investigation of Interface Structure and Dynamics. Chinese Physics B 2014, 23 (8), 086801.

(46) Ma, W.; Meng, S.* Modeling Recombination Processes and Predicting Energy Conversion Efficiency of Dye Sensitized Solar Cells from First Principles; 2014; Vol. 2014, pp Q1-006.

(47) Jiao, Y.; Ma, W.; Meng, S.* Quinoid Conjugated Dye Designed for Efficient Sensitizer in Dye Sensitized Solar Cells. Chemical Physics Letters 2013, 586, 97–99.

(48) Zhang, F.; Shi, F.; Ma, W.; Gao, F.; Jiao, Y.; Li, H.; Wang, J.; Shan, X.; Lu, X.; Meng, S.* Controlling Adsorption Structure of Eosin Y Dye on Nanocrystalline TiO2 Films for Improved Photovoltaic Performances. The Journal of Physical Chemistry C 2013, 117 (28), 14659–14666.

(49) Feng, J.; Jiao, Y.; Ma, W.; Nazeeruddin, Md. K.; Grätzel, M.; Meng, S. First Principles Design of Dye Molecules with Ullazine Donor for Dye Sensitized Solar Cells.* The Journal of Physical Chemistry C 2013, 117 (8), 3772–3778.

(50) Ma, W.; Jiao, Y.; Meng, S. Modeling Charge Recombination in Dye-Sensitized Solar Cells Using First-Principles Electron Dynamics: Effects of Structural Modification. Physical Chemistry Chemical Physics 2013, 15 (40), 17187–17194.

(51)马薇;焦扬;丁子敬;孟胜*.纳米尺度上的表面电子动力学.现代物理知识2012, 1

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