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个人简介

王方舟,男,1990年4月,中共党员,工学博士 现任哈尔滨工业大学(威海)新能源学院 副教授,硕士生导师 工作经历 哈尔滨工业大学(威海)新能源学院 副教授 2022.12—今 哈尔滨工业大学(威海)新能源学院 硕士研究生导师 2021.05—今 哈尔滨工业大学(威海)新能源学院 讲师 2019.06-2022.12 教育经历 2015.08-2019.05 机械工程 The University of Kansas 博士 2012.09-2015.07 电工理论与新技术 中国科学院电工研究所 硕士 2008.09-2012.07 热能与动力工程 哈尔滨工业大学(威海) 本科 荣誉称号 第一届课程思政教学竞赛决赛三等奖 2021.07 哈尔滨工业大学(威海) 优秀思想政治工作者 2020.12 哈尔滨工业大学 线上教学优秀教师 2021.01 哈尔滨工业大学(威海)新能源学院 3rd Place Award of the 11th Annual Graduate Research Presentation Competition 2018.04 The University of Kansas 培训经历 2018.07-2018.08, 20th National School on Neutron and X-ray Scattering in Argonne National Lab and Oak Ridge National Laboratory, Chicago, IL, USA 2016.05, Micro-CT Training in Bioengineering Research Center, University of Kansas. Lawrence, KS, USA 2015.10, Scanning Electron Microscopy Training in Microscopy and Analytical Imaging (MAI) Lab, University of Kansas. Lawrence, KS, USA

研究领域

海水电池及海洋设备供能。利用图像处理技术重建多孔介质内部结构;纳米孔隙尺度计算多孔结构内部有效扩散系数;高性能碳电极的制备及海水电池电化学性能测试。同时,海水电池可应用于海上无人值守电能补给平台,研发高效耐久的海水电池发电系统及其运行策略;研究海水电池-锂电池储电系统。 多孔介质内部传质机理研究。主要包括利用Micro-CT、SEM、TXM等技术观测多孔结构,经图像处理完成结构重建;利用随机漫游法定量表征多孔内部活性物质有效扩散系数;图像处理与数值模拟软件编写;高性能多孔电极制备及结构表征;优化多孔电极制备工艺流程。 高性能金属-空气电池(锂氧电池)电极研发。主要针对锂氧电池等金属-空气电池,采用多孔材料制备电极,利用电化学实验平台对电池性能进行测试,优化电极结构及制备工艺,研发高性能多孔电极,提升电池的电化学性能。

近期论文

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Fangzhou Wang, et al. A Modeling Study of Discharging Li-O2 Batteries With Various Electrolyte Concentrations. Journal of Electrochemical Energy Conversion and Storage 18.1 (2021). Fangzhou Wang, et al. Predicting thermal and mechanical performance of stochastic and architected foams. International Journal of Heat and Mass Transfer 171 (2021): 121139. Fangzhou Wang, et al. Review and Recent Advances in Mass Transfer in Positive Electrodes of Aprotic Li–O2 Batteries. ACS Applied Energy Materials 3.3 (2020): 2258-2270. Fangzhou Wang, et al. Key factors in the volatile organic compounds treatment by regenerative thermal oxidizer." Journal of the Air & Waste Management Association 70.5 (2020): 557-567. Fangzhou Wang, Kahol P K, Gupta R, et al. Experimental Studies of Carbon Electrodes with Various Surface Area for Li–O2 Batteries[J]. Journal of Electrochemical Energy Conversion and Storage, 2019, 16(4): 041007. (SCI, IF=1.515) Camila Zequine, Sanket Bhoyate, Fangzhou Wang, et al. Effect of solvent for tailoring the nanomorphology of multinary CuCo2S4 for overall water splitting and energy storage[J]. Journal of Alloys and Compounds, 2019, 784: 1-7. (SCI, IF=4.175) Camila Zequine, Fangzhou Wang, Xianglin Li, et al. Nanosheets of CuCo2O4 as a High-Performance Electrocatalyst in Urea Oxidation[J]. Applied Sciences, 2019, 9(4): 793. (SCI, IF=2.217) Fangzhou Wang, and Xianglin Li. Pore-Scale Simulations of Porous Electrodes of Li–O2 Batteries at Different Saturation Levels. ACS applied materials & interfaces 10.31 (2018): 26222-26232. (SCI, IF=8.097) Fangzhou Wang, and Xianglin Li. Discharge Li-O2 batteries with intermittent current. Journal of Power Sources 394 (2018): 50-56. (SCI, IF=6.945) Wanqi Chen, Wei Yin, Yue Shen, Zhaoming Huang, Xianglin Li, Fangzhou Wang, Zhe Deng, Zhuoran Zhang, Yunhui Huang. High areal capacity, long cycle life Li-O2 cathode based on highly elastic gel granules. Nano Energy 47 (2018): 353 - 360. (SCI, IF=13.619) [7] Fangzhou Wang, and Xianglin Li. Effects of the Electrode Wettability on the Deep Discharge Capacity of Li–O2 Batteries. ACS Omega 3.6 (2018): 6006-6012. (SCI) Fangzhou Wang, and Xianglin Li. The stagnant thermal conductivity of porous media predicted by the random walk theory. International Journal of Heat and Mass Transfer 107 (2017): 520-533. (SCI, IF=3.891) Mohazabrad, Farhad, Fangzhou Wang, and Xianglin Li. Influence of the Oxygen Electrode Open Ratio and Electrolyte Evaporation on the Performance of Li–O2 Batteries. ACS applied materials & interfaces 9.18 (2017): 15459-15469. (SCI, IF=8.097) Fangzhou Wang, Fengwu Bai, Tianjian Wang, Qing Li, and Zhifeng Wang. Experimental study of a single quartz tube solid particle air receiver. Solar Energy 123 (2016): 185-205. (SCI, IF=4.374) Mohazabrad, Farhad, Fangzhou Wang, and Xianglin Li. Experimental Studies of Salt Concentration in Electrolyte on the Performance of Li-O2 Batteries at Various Current Densities. Journal of The Electrochemical Society 163.13 (2016): A2623-A2627. (SCI, IF=3.662) Fangzhou Wang, Fengwu Bai, Zhifeng Wang and Xiliang Zhang. Numerical simulation of quartz tube solid particle air receiver. Energy Procedia 69 (2015): 573-582. (EI) Fengwu Bai, Yanan Zhang, Xiliang Zhang, Fangzhou Wang, Yan Wang and Zhifeng Wang. Thermal performance of a quartz tube solid particle air receiver. Energy Procedia49 (2014), 284-294. (EI) Yanan Zhang, Fengwu Bai, Xiliang Zhang, Fangzhou Wang and Zhifeng Wang. Experimental study of a single quartz tube solid particle air receiver. Energy Procedia 69 (2015), 600-607. (EI)

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