Publications at Zhejiang University
2024年
[1] Zhang, F.; Cai, Z.; Liu, R.; Sun, Y.; Pan, H.*, Guiding Uniform Zn Electrodeposition through Regulating Pressure for Stable Aqueous Zn Batteries. Journal of Materials Chemistry A 2024, 12 (17), 10341-10348.
[2] Chen, Q.; Gao, L.; Liu, T.; Marchetti, A.; Chen, J.; Pan, H.*; Kong, X, Structural Evolution of Lithium-Exchanged Na3(VO)2(PO4)2F Cathode under Operation in Sodium Ion Batteries. The Journal of Physical Chemistry Letters 2024, 15 (4), 1062-1069.
[3] Liu, L.; Zheng, Y.; Sun, Y.; Pan, H.*, Modulation of Potential‐Limiting Steps in Lithium–Sulfur Batteries by Catalyst Synergy. Small 2024, 20 (25), 2309582.
[4] Yan, L.; Chen, W.; Zhang, H.; Lu, X.; Zou, L.; Lu, J.; Pan, H.*, Dual‐Site Doping in Transition Metal Oxide Cathode Enables High‐Voltage Stability of Na‐Ion Batteries. Small 2024, 2401915.
[5] Huang, R.; Guo, X.; Chen, B.; Ma, M.; Chen, Q.; Zhang, C.; Liu, Y.; Kong, X.; Fan, X.; Wang, L.; Ling, M.; Pan, H.*, Electrolyte Design Chart Reframed by Intermolecular Interactions for High-Performance Li–Ion Batteries. JACS Au 2024, 4 (5), 1986-1996.
[6] Yan, L.; Li, X.; Pan, H.*, Modulating Valence Electrons and Na Occupancy in Layered Cathodes for High-Performance Na-Ion Batteries. ACS App. Mater. Interfaces 2024, 16 (20), 26280–26287.
[7] Cai, Z.; Zhang, F.; Zhou, M.; Sun, W.; Pan, H.*, Self-mixing anti-corrosive Zn-In powder composite anode with ultra-long lifespan for aqueous zinc-ion battery. Journal of Power Sources 2024, 603, 234402.
[8] Dai, S.; Tu, Y.; Yan, L.; Li, Y.; Ma, M.; Huang, R.; Yao, X.; Pan, H.*, Observation and suppression of metallic and metallic-like plating on hard carbon for high-performance sodium-ion batteries. Materials Today Energy 2024, 44, 101605.
[9] Liu, L.; Yan, M.; Zhao, X.; Pan, H.*, A Novel Pathway for Sustained Sulfides Conversion via Electrocatalyst-Modified Separator in Lithium-Sulfur Batteries. Nano Energy 2024, 130, 110122.
[10] Zhang, C.; Chen, B.; Chen, Q.; Tian, C.; Zhou, M.; Zhao, X.; Li, Z.; Fan, L.; Kong, X.; Pan, H.*, Microstructure Design of Electrolytes for High-Energy-Density Aqueous Batteries. ACS Energy Letters 2024, 9, 4691–4698.
[11] Ma, M.; Chen, B.; Tu, Y.; Pan, H.*, Ternary Electrolyte Enables High-Voltage and High-Temperature Na-Ion Batteries. ACS Energy Letters 2024, 9, 4655–4665.
[12] Zhang, C.; Chen, B.; Chen, Q.; Liu, Y.; Kong, X.; Suo, L.; Lu, J.; Pan, H.*, Regulation of Molecular Microheterogeneity in Electrolytes Enables Ampere-Hour-Level Aqueous LiMn2O4||Li4Ti5O12 Pouch Cells. Advanced Materials 2024, 2405913.
[13] Yan, M.; Zhao, X.; Chen, D.; Li, W.; Liu, L.; Sun, Y.; Jiao, S.; Pan, H.*, Crystal Step Induced Uniform and Rapid Deposition on Zinc Anodes. Advanced Energy Materials 2024. (Accepted)
2023年
[1] Ma, M.; Chen, B.; Pan, H.*, Three-dimensional heterogeneity in liquid electrolyte structures promotes Na ion transport and storage performance in Na-ion batteries. Chemical Science 2023, 14 (22), 5983-5991.
[2] Zhang, C.; Cai, Z.; Huang, R.; Pan, H.*, Hybrid Aqueous/Non‐aqueous Electrolytes for Lithium‐Ion and Zinc‐Ion Batteries: A Mini‐Review. Batteries & Supercaps 2023, 6 (6), e202300053.
[3] Zhang, F.; Huang, F.; Huang, R.; Dong, N.; Jiao, S.; Cao, R.; Pan, H.*, Hierarchical porous separator with excellent isotropic modulus enabling homogeneous Zn2+ flux for stable aqueous Zn battery. Science China Materials 2023, 66 (3), 982-991.
[4] Zhao, X.; Dong, N.; Yan, M.; Pan, H.*, Unraveling the Interphasial Chemistry for Highly Reversible Aqueous Zn Ion Batteries. ACS App. Mater. Interfaces 2023, 15 (3), 4053-4060.
[5] Ma, M.; Huang, R.; Ling, M.; Hu, Y. S.; Pan, H.*, Three-dimensional heterogeneity in liquid electrolyte structures promotes Na ion transport and storage performance in Na-ion batteries. Interdisciplinary Materials 2023, 2 (6), 833-854.
2022年
[1] Dong, N.; Zhang, F.; Pan, H.*, Towards the practical application of Zn metal anodes for mild aqueous rechargeable Zn batteries. Chemical Science 2022, 13 (28), 8243-8252.
[2] Dong, N.; Zhao, X.; Yan, M.; Li, H.; Pan, H.*, Synergetic control of hydrogen evolution and ion-transport kinetics enabling Zn anodes with high-areal-capacity. Nano Energy 2022, 104, 107903.
[3] Hu, Y.-S.*; Pan, H., Solvation Structures in Electrolyte and the Interfacial Chemistry for Na-Ion Batteries. ACS Energy Lett. 2022, 7 (12), 4501-4503.
[4] Huang, R.; Ding, Y.; Zhang, F.; Jiang, W.; Zhang, C.; Yan, P.*; Ling, M.*; Pan, H.*, The interphasial degradation of 4.2 V-class poly(ethylene oxide)-based solid batteries beyond electrochemical voltage limit. Journal of Energy Chemistry 2022, 75, 504-511.
[5] Ma, M.; Chen, B.; Yang, X.; Liu, Y.; Dai, S.; Qi, X.; Hu, Y.-S.*; Pan, H.*, Solvent Reorganization and Additives Synergistically Enable High-Performance Na-Ion Batteries. ACS Energy Lett. 2022, 477-485.
[6] Yan, M.; Huang, F.; Zhao, X.; Zhang, F.; Dong, N.; Jiao, S.; Cao, R.; Pan, H.*, Constructing Three-Dimensional Topological Zn Deposition for Long-Life Aqueous Zn-Ion Batteries. ACS App. Mater. Interfaces 2022, 14 (45), 51010-51017.
[7] Zhang, C.; Chen, B.; Cai, Z.; Zhang, F.; Huang, R.; Yan, M.; Liu, Y.; Pan, H.*, Suppressing water clusters by using “hydrotropic” ionic liquids for highly stable aqueous lithium-ion batteries. Journal of Materials Chemistry A 2022, 10 (38), 20545-20551.
[8] Zhao, X.; Zhang, X.; Dong, N.; Yan, M.; Zhang, F.; Mochizuki, K.*; Pan, H.*, Advanced Buffering Acidic Aqueous Electrolytes for Ultra-Long Life Aqueous Zinc-Ion Batteries. Small 2022, 18 (21), 2200742.
[9] Zhang, C.; Chen, B.; Cai, H.; Huang, R.; Liu, Y.; Pan, H.*, Adjusting the local solvation structures and hydrogen bonding networks for stable aqueous batteries with reduced cost. Journal of Energy Chemistry 2022, 68, 411-419.
[10] Xu, C.; Cai, H.; Chen, Q.; Kong, X.; Pan, H.*; Hu, Y.-S., Origin of Air-Stability for Transition Metal Oxide Cathodes in Sodium-Ion Batteries. ACS App. Mater. Interfaces 2022, 14 (4), 5338-5345.
2021年
[1] Yan, Mengdie, Chenlu Xu, Yang Sun*, Huilin Pan*, and Hong Li. Manipulating Zn anode reactions through salt anion involving hydrogen bonding network in aqueous electrolytes with PEO additive. Nano Energy 82 (2021): 105739.
[2] Pan, Huilin*. "Value personal growth." Nature Energy 6.1 (2021): 4-4.
[3] Mengying Ma, Haoran Cai, Chenlu Xu, Renzhi Huang, Shurong Wang, Huilin Pan*, and Yong-Sheng Hu, Engineering Solid Electrolyte Interface at Nano-Scale for High-Performance Hard Carbon in Sodium-Ion Batteries, Advanced Functional Materials, 2021, 2100278.
[4] Mengdie Yan, Ning Dong, Xuesong Zhao, Yang Sun,* and Huilin Pan*, Tailoring the Stability and Kinetics of Zn Anodes through Trace Organic Polymer Additives in Dilute Aqueous Electrolyte, ACS Energy Letters, 2021, 6, 3236−3243.
2020年
[1] Yan, Mengdie, Hailan Ni, and Huilin Pan*. "Rechargeable Mild Aqueous Zinc Batteries for Grid Storage." Advanced Energy and Sustainability Research 1, no. 1 (2020): 2000026.
[2] Jin, Yan, Kee Sung Han, Yuyan Shao, Maria L. Sushko, Jie Xiao, Huilin Pan*, and Jun Liu*. "Stabilizing Zinc Anode Reactions by Polyethylene Oxide Polymer in Mild Aqueous Electrolytes." Advanced Functional Materials 30, no. 43 (2020): 2003932.
[3] Wang, Hui, Yuyan Shao, Huilin Pan, Xuefei Feng, Ying Chen, Yi-Sheng Liu, Eric D. Walter et al. "A lithium-sulfur battery with a solution-mediated pathway operating under lean electrolyte conditions." Nano Energy 76 (2020): 105041.
[4] Jin, Yan, Yaobin Xu, Phung ML Le, Thanh D. Vo, Quan Zhou, Xingguo Qi, Mark H. Engelhard, Bethany E Matthews, Hao Jia, Zimin Nie, Chaojiang Niu, Chongmin Wang, Yongsheng Hu, Huilin Pan*, Ji-Guang Zhang*. "Highly Reversible Sodium Ion Batteries Enabled by Stable Electrolyte-Electrode Interphases." ACS Energy Letters 5, no. 10 (2020): 3212-3220.
[5] Le, Phung ML, Thanh D. Vo, Huilin Pan, Yan Jin, Yang He, Xia Cao, Hoang V. Nguyen et al. "Excellent Cycling Stability of Sodium Anode Enabled by a Stable Solid Electrolyte Interphase Formed in Ether‐Based Electrolytes." Advanced Functional Materials 30, no. 25 (2020): 2001151.
[6] 闫梦蝶, 李晖, 凌敏*, 潘慧霖*, 张强. 基于溶解沉积机制锂硫电池的研究进展简评. 储能科学与技术, 2020, 9(6): 1606-1613. (应邀撰写)
[7] 马梦莹, 潘慧霖*, 胡勇胜. 非水系钠离子电池的电解质研究进展. 储能科学与技术, 2020, 9(5): 1234-1250. (应邀撰写)
Previous work
Representative Publications
1. Huilin Pan, Yong-Sheng Hu*`, Liquan Chen, Room-temperature stationary sodium-ion batteries for large-scale electric energy storage. Energy & Environmental Science 2013, 6: (8), 2338-2360.
2. Huilin Pan, Yuyan Shao*, Pengfei Yan, Yingwen Cheng, Kee Sung Han, Zimin Nie, Chongmin Wang, Jihui Yang, Xiaolin Li, Priyanka Bhattacharya, Karl T. Mueller, Jun Liu*, Reversible aqueous zinc/manganese oxide energy storage from conversion reactions. Nature Energy 2016, 1: (5), 16039.
3. Huilin Pan, Junzheng Chen, Ruiguo Cao, Vijay Murugesan, Nav Nidhi Rajput, Kee Sung Han, Kristin Persson, Luis Estevez, Mark H. Engelhard, Ji-Guang Zhang, Karl T. Mueller, Yi Cui, Yuyan Shao*, Jun Liu*, Non-encapsulation approach for high-performance Li–S batteries through controlled nucleation and growth. Nature Energy 2017, 2: (10), 813-820.
4. Yan Jin, Lianfeng Zou, Lili Liu, Mark H. Engelhard, Rajankumar L. Patel, Zimin Nie, Kee Sung Han, Yuyan Shao, Chongmin Wang, Jia Zhu, Huilin Pan*, Jun Liu*, Joint Charge Storage for High-Rate Aqueous Zinc–Manganese Dioxide Batteries. Advanced Materials 2019, 31: (29), 1900567.
5. Huilin Pan, Xiaoliang Wei, Wesley A. Henderson, Yuyan Shao, Junzheng Chen, Priyanka Bhattacharya, Jie Xiao*, Jun Liu*, On the Way Toward Understanding Solution Chemistry of Lithium Polysulfides for High Energy Li–S Redox Flow Batteries. Advanced Energy Materials 2015, 5: (16), 1500113.
6. Huilin Pan, Xia Lu, Xiqian Yu, Yong-Sheng Hu*, Hong Li, Xiao-Qing Yang, Liquan Chen, Sodium Storage and Transport Properties in Layered Na2Ti3O7 for Room-Temperature Sodium-Ion Batteries. Advanced Energy Materials 2013, 3: (9), 1186-1194.
7. Chaojiang Niu, Huilin Pan, Wu Xu, Jie Xiao, Ji-Guang Zhang, Langli Luo, Chongmin Wang, Donghai Mei, Jiashen Meng, Xuanpeng Wang, Ziang Liu, Liqiang Mai, Jun Liu*, Self-smoothing anode for achieving high-energy lithium metal batteries under realistic conditions. Nature Nanotechnology 2019, 14: (6), 594.
8. Huilin Pan, Kee Sung Han, Mark H Engelhard, Ruiguo Cao, Junzheng Chen, Ji‐Guang Zhang, Karl T Mueller, Yuyan Shao*, Jun Liu*, Addressing passivation in lithium–sulfur battery under lean electrolyte condition. Advanced Functional Materials 2018, 28: (38), 1707234.
9. Huilin Pan, Bin Li*, Donghai Mei, Zimin Nie, Yuyan Shao, Guosheng Li, Xiaohong S. Li, Kee Sung Han, Karl T. Mueller, Vincent Sprenkle, Jun Liu*, Controlling Solid–Liquid Conversion Reactions for a Highly Reversible Aqueous Zinc–Iodine Battery. ACS Energy Letters 2017, 2: (12), 2674-2680.
10. Huilin Pan*, Jacob F. Ellis, Xiaolin Li, Zimin Nie, Hee Jung Chang, David Reed, Electrolyte Effect on the Electrochemical Performance of Mild Aqueous Zinc-Electrolytic Manganese Dioxide Batteries. ACS Applied Materials & Interfaces 2019, 11: (41), 37524-37530.