Hao Zhou 个人学术档案 - 学术资源搜索

引用次数

	总计	2019 年至今
引用	264	263
h 指数	8	8
i10 指数	8	8

0

120

60

30

90

20182019202020212022202320241 2 10 7 55 120 69

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Hao Zhou

Hao Zhou

HUST, WPI

在 wpi.edu 的电子邮件经过验证

batteries energy storage molten salt


标题按引用次数排序按年份排序按标题排序	引用次数引用次数	年份
Tellurium-tin based electrodes enabling liquid metal batteries for high specific energy storage applications H Li, K Wang, H Zhou, X Guo, S Cheng, K Jiang Energy Storage Materials 14, 267-271, 2018	69	2018
A sodium liquid metal battery based on the multi-cationic electrolyte for grid energy storage H Zhou, H Li, Q Gong, S Yan, X Zhou, S Liang, W Ding, Y He, K Jiang, ... Energy Storage Materials 50, 572-579, 2022	53	2022
Utilizing in situ alloying reaction to achieve the self-healing, high energy density and cost-effective Li\|\| Sb liquid metal battery S Yan, X Zhou, H Li, Y Shen, Y He, H Zhou, K Wang, K Jiang Journal of Power Sources 514, 230578, 2021	38	2021
Increasing the actual energy density of Sb-based liquid metal battery X Zhou, H Zhou, S Yan, Y He, W Zhang, H Li, K Wang, K Jiang Journal of Power Sources 534, 231428, 2022	36	2022
Multi-cationic molten salt electrolyte of high-performance sodium liquid metal battery for grid storage W Ding, Q Gong, S Liang, R Hoffmann, H Zhou, H Li, K Wang, T Zhang, ... Journal of Power Sources 553, 232254, 2023	15	2023
Multi-field coupled model for liquid metal battery: Comparative analysis of various flow mechanisms and their effects on mass transfer and electrochemical performance X Zhou, C Gao, Y Shen, H Li, S Yan, H Zhou, K Wang, K Jiang Energy Reports 8, 5510-5521, 2022	15	2022
Low-temperature, high cycling stability, and high Coulombic efficiency liquid metal batteries enabled by lithium halide-potassium halide molten salt electrolytes X Zhou, S Yan, X He, H Zhou, J Ning, H Li, K Wang, K Jiang Energy Storage Materials 61, 102889, 2023	12	2023
In Situ Transition Layer Design Based on Ti Additive Enabling High-Performance Liquid Metal Batteries S Yan, H Li, Z Li, W Chen, X Zhou, H Zhou, W Zhang, Y He, K Jiang, ... ACS Applied Materials & Interfaces 15 (4), 5265-5272, 2023	10	2023
Novel High-Voltage Zn-Based Electrode Based on Displacement Reaction for Liquid Metal Batteries S Yan, L Fan, H Li, X Zhou, H Zhou, W Zhang, Z Li, Y He, B Li, K Jiang, ... ACS Sustainable Chemistry & Engineering 11 (31), 11693-11699, 2023	4	2023
Liquid metal electrodes for electrochemical energy storage technologies H LI, H ZHOU, K WANG, K JIANG Journal of Electrochemistry 26 (5), 5, 2020	4	2020
In situ displacement reactions of molten sodium anode and multi-cationic halide electrolytes enabling high-performance liquid metal batteries H Zhou, H Li, S Yan, X Zhou, W Zhang, S Feng, Y He, K Jiang, K Wang Chemical Engineering Journal, 149786, 2024	3	2024
Full-Lifetime Recycling and Reutilization of Key Materials of Low-Cost and Sustainable Liquid Metal Batteries S Yan, H Li, W Chen, H Zhou, X Zhou, W Zhang, Z Li, Y He, K Wang, ... ACS Sustainable Chemistry & Engineering 11 (48), 17038-17045, 2023	2	2023
Liquid Metal Battery Energy Storage Technology for Power System LI Zehang, Z Hao, LI Haomiao, W Kangli Power Generation Technology 43 (5), 760, 2022	2	2022
A novel array current collector design enabling high energy efficiency liquid metal batteries W Zhang, S Yan, H Li, L Fan, B Li, H Zhou, X Zhou, Z Li, Y He, Y Guo, ... Chemical Engineering Journal 487, 150277, 2024	1	2024
Tellurium–Antimony Electrodes with Multistep Discharge Mechanisms for High-Energy-Density Liquid Metal Batteries S Yan, X Zhou, L Fan, X He, W Zhang, H Zhou, L Yuan, K Jiang, B Li, H Li, ... ACS Sustainable Chemistry & Engineering, 2024		2024
Multi-Cationic Molten Salt Electrolyte of Low-Temperature Sodium Liquid Metal Battery for Grid Storage W Ding, Q Gong, S Liang, R Hoffmann, H Zhou, H Li, K Wang, T Zhang, ... Available at SSRN 4178137, 0

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