博士，副教授，硕士生导师，广东工业大学“青年百人计划”引进人才。主要从事能源材料科学研究，研究领域包括动力电池储能材料，高性能全固态电池的无机固态电解质。研究亮点是原子尺度研究能源材料结构性质，建立结构-性能的联系；基于机理模型和数据模型的锂离子电池仿真。在Advanced Materials,Advanced Functional Materials,Nano Energy, Nano Lett, Energy Stor. Mater., Small, J. Mater. Chem. A., Chem. Comm.等国际国内重要期刊发表SCI论文六十多篇。主持广东省自然科学基金、企业横向项目、中国博士后特别资助基金和博士后面上基金等11项项目，参与国家重点研发计划“基于材料基因组技术的全固态电池研发”。

常年招收研究生，从事电池材料设计和模拟、电池机理和数据模型。欢迎有志于从事电池仿真、材料设计和计算的同学。

要求：勤奋、态度端正、踏实。

课题组提供 优越的办公环境（独立工位、双显示器电脑配置、水果零食自由、程序员级办公椅），每周羽毛球场地；勤奋者可以保证每年2篇SCI论文。组内气氛融洽，导师和学生面对面办公（一般都在办公室或者线上），有问题随时交流和解决。

2024年

1. Surface reconstruction layer boosting interfacial stability of LiCoO2/Li6PS5Cl in bulk all-solid-state Li batteries, Journal of Materials Chemistry A ( IF 11.9 ) Pub Date : 2024-02-26 , DOI: 10.1039/d3ta07630j

Shiliang Zheng, Zengzhu Li, Zhiwe He, Wenguang Zhao, Chenyu Liu, Zhan Lin, Zengqing Zhuo, Bingkai Zhang*

2. Layered Na-Ni-B with low volume expansion for Sodium-Ion Batteries, 2024, under review

3. Identify the Key Structure Factor to Achieve High Energy Density in Spinel Cathode, 2024, under review

4. Stabilizing Spinel-based LiNi0.5Mn1.5O4 cathode in the wide potential window through iron doping, 2024, under review

2023年

1.       Reducing Gases Triggered Cathode Surface Reconstruction for Stable Cathode–Electrolyte Interface in Practical All‐Solid‐State Lithium Batteries

Bingkai Zhang*, Z He, T Liu, Z Li, S Zhang, W Zhao, ZW Yin, Z Zhuo, M Zhang, ...

Advanced Materials, 2305748             2023

2.       Regulating the spin state configuration in bimetallic phosphorus trisulfides for promoting sulfur redox kinetics

H Li, M Chuai, X Xiao, Y Jia, B Chen, C Li, Z Piao, Z Lao, M Zhang, R Gao, ...

Journal of the American Chemical Society 145 (41), 22516-22526  2023

 3.      LiMgPO4‐Coating‐Induced Phosphate Shell and Bulk Mg‐Doping Enables Stable Ultra‐High‐Voltage Cycling of LiCoO2 Cathode

J Zhong, W Zhao, M Zhang, ZW Yin, Z Zhuo, S Zhang, M Zhang, F Pan, Bingkai Zhang*

Small 19 (39), 2300802         2023

4.       Motif-Based Exploration of Halide Classes of Li5M10.5M20.5X8 Conductors Using the DFT Method: Toward High Li-Ion Conductivity and Improved Stability

Z Li, H Dong, Bingkai Zhang*

ACS Applied Materials & Interfaces 15 (36), 42481-42489             2023

5.       Mechanochemical reactions between polyanionic borate and residue Li2CO3 on LiCoO2 to stabilize cathode/electrolyte interface in sulfide-based all-solid-state batteries

CW Wang, SJ Zhang, C Lin, S Xue, YP Deng, B Zhang, L Yang, X Yao, ...

Nano Energy 108, 108192    2023

6.       Glassy/Ceramic Li2TiO3/LixByOz Analogous “Solid Electrolyte Interphase” to Boost 4.5 V LiCoO2 in Sulfide‐Based All‐Solid‐State Batteries

L Feng, ZW Yin, CW Wang, Z Li, SJ Zhang, PF Zhang, YP Deng, F Pan, ...

Advanced Functional Materials 33 (16), 2210744    2023

7.       Single-crystal Li-rich layered cathodes with suppressed voltage decay by double-layer interface engineering

W Zeng, F Liu, J Yang, B Zhang, F Cao, W Tian, J Wang, R Yu, F Xia, ... Energy Storage Materials 54, 651-660， 2023

2022年

1.      Thiotetrelates Li2ZnXS4 (X = Si, Ge, and Sn) As Potential Li-Ion SolidState Electrolytes. Jiajie Zhong, (学生一作)  Bingkai Zhang* Feng Pan,* and Zhan Lin*. ACS Appl. Mater. Interfaces 2022, 14, 7, 9203–9211

2.    Scalable Lithiophilic/Sodiophilic Porous Buffer Layer Fabrication Enables Uniform Nucleation and Growth for Lithium/Sodium Metal Batteries. Shao-Jian Zhang,Jin-Hai You,Zhiwei He,Jiajie Zhong,Peng-Fang Zhang,Zu-Wei Yin,Feng Pan,Min Ling,Bingkai Zhang*  Zhan Lin* Adv. Funct. Mater. 2022, 2200967. 

3. Insights into the interfacial degradation of high-voltage all-solid-state lithium batteries，J Li, Y Ji, H Song, S Chen, S Ding, B Zhang, L Yang, Y Song, F Pan，Nano-Micro Letters 14 (1), 191，2022

4. A Highly Efficient and Robust Bifunctional Perovskite‐Type Air Electrode with Triple‐Conducting Behavior for Low‐Temperature Solid Oxide Fuel Cells， Z Ma, Q Ye, B Zhang, W Yang, F Dong, M Ni, Z Lin， Advanced Functional Materials 32 (47), 2209054，2022

5. Scalable lithiophilic/sodiophilic porous buffer layer fabrication enables uniform nucleation and growth for lithium/sodium metal batteries， SJ Zhang, JH You, Z He, J Zhong, PF Zhang, ZW Yin, F Pan, M Ling,Bingkai Zhang*, Advanced Functional Materials 32 (28), 2200967，2022

6.  Polyiodide Confinement by Starch Enables Shuttle‐Free Zn–Iodine Batteries， SJ Zhang, J Hao, H Li, PF Zhang, ZW Yin, YY Li, B Zhang, Z Lin, SZ Qiao， Advanced Materials 34 (23), 2201716，2022

7.  Structural Engineering of Cobalt‐Free Perovskite Enables Efficient and Durable Oxygen Reduction in Solid Oxide Fuel Cells

F Dong, Z Ma, Q Ye, B Zhang, L Li, G Yang, M Ni, Z Lin

Small Methods 6 (6), 2200292   2022

8.  Supercapacity lithium ion battery cathode material, preparation method therefor and application thereof

F Pan, D Yandong, B Zhang, J Zheng, J Hu, LIU Tongchao, H Guo, Y Lin, ...  US Patent 11,316,160           2022

2021年

1.      Discovering a new class of fluoride solid-electrolyte materials via screening the structural property of Li-ion sublattice. B Zhang, (第一作者) J Zhong, Y Zhang, L Yang, J Yang, S Li, L-W Wang, F Pan, Z Lin, Nano Energy, 2021, 79, 105407.

2.      Potential Solid-State Electrolytes with Good Balance between Ionic Conductivity and Electrochemical Stability: Li_5–xM_1–xM_x′O₄ (M = Al and Ga and M′ = Si and Ge). Bingkai Zhang (第一作者) Jiajie Zhong, Feng Pan, and Zhan Lin, ACS Appl. Mater. Interfaces 2021, 13, 51, 61296–61304.

3.      Tuning Site Energy by XO₆ Units in LiX₂(PO₄)₃ Enables High Li Ion Conductivity and Improved Stability. Zhiwei He, (学生一作) B Zhang, (第一通讯) J Zhong, Z Lin, and F Pan, ACS Appl. Mater. Interfaces 2021, 13, 43, 50948–50956

4.      Balancing stability and Li-ion conductivity of Li₁₀SiP₂O₁₂ for solid-state electrolytes with the assistance of a body-centered cubic oxygen framework. B Zhang, (第一作者) Z He, J Zhong, L Yang, Z Lin and F Pan. J. Mater. Chem. A, 2021, 9, 22952-22957.

5.   A novel strategy to construct supported silver nanocomposite as an ultra-high efficient catalyst. S Jiang, L Wang, Y Duan, J An, Q Luo, Y Zhang, Y Tang, J Huang, B Zhang, (通讯作者) J Liu, D Wang. Appl. Catal. B-Environ. 2021, 283, 119592  

6.   Cyclized polyacrylonitrile as a promising support for single atom metal catalyst with synergistic active site. L Liu, Y Duan, L Wang, Q Luo, Y Zhang, B Zhang, (通讯作者) Jing Liu, Zhen Li. Small, 2021, 2104142

7.   Progress of Li-ion Transport Mechanism in Solid-State Electrolytes. B Zhang, (第一作者) L Yang, S Li, F. Pan, Journal of Electrochemistry, 2021, 27, 269-277.

2020年

1.      Li-Ion Cooperative Migration and Oxy-Sulfide Synergistic Effect in Li₁₄P₂Ge₂S_16−xO_x Solid State Electrolyte Enables Extraordinary Conductivity and High Stability. B Zhang,(第一作者) M Weng, Z Lin, Y Feng, L Yang, L-W Wang, F Pan, Small, 2020, 201906374.

2.      Achieving both High Ionic Conductivity and High Interfacial Stability with the Li_2+xC_1-xB_xO₃ Solid-State Electrolyte: Design from Theoretical Calculations. B Zhang, (第一作者) Z Lin, L-W Wang, F Pan, ACS Applied Materials & Interfaces, 2020, 12(5): 6007-6014.

3.      The stability and reaction mechanism of LiF/Electrolyte interface: Insight from Density Functional Theory. B Zhang, (第一作者) Z Lin, H Chen, L-W Wang, F Pan, Journal of Materials Chemistry A, 2020, 8(5): 2613-2617.

4.      Revealing cooperative Li-ion migration in Li_{1+ x}Al_xTi_2−x(PO₄)₃ solid state electrolytes with high Al doping. B Zhang, (第一作者) Z Lin, H Dong, L-W Wang, F Pan, Journal of Materials Chemistry A, 2020, 8(1), 342-348.

5.   Cooperative transport enabling fast Li-ion diffusion in Thio-LISICON Li10SiP2S12 solid electrolyte, B Zhang, (第一作者) L Yang, LW Wang, F Pan, Nano Energy, 2020, 62, 844-852.

2020-2021年通过理论计算合作文章：

1. In-situ polymerized binder: a three-in-one design strategy for all-integrated SiOx anode with high mass loading in lithium-ion batteries

S Wu, Y Yang, C Liu, Y Zhang, T Liu, B Zhang, D Luo, F Pan and Zhan Lin

ACS Energy Letters, 2021, 6, 1, 290.

2. Ti-based surface Li-free protective layer and bulk doping for stable voltage and long life of Li-rich layered cathodes

D Luo, J Cui, B Zhang, J Fan, P Liu, X Ding, H Xie, Z Zhang, J Guo, and Zhan Lin

Advanced Functional Materials, 2021, DOI: 10.1002/adfm.202009310.

3. Constructing three-dimensional structured V2O5/conductive polymer composite with fast ion/electron transfer kinetics for aqueous zinc-ion battery

S Li, X Wei, C Wu, B Zhang, S Wu, Zhan Lin

ACS Applied Energy Materials, 2021, 10.1021/acsaem.1c00573.

4. Achieving exceptional activity and durability toward oxygen reduction based on a cobalt-free perovskite for solid oxide fuel cells

F Dong, Z Gao, B Zhang, L Li, H Yang, Z Kong, M Ni and Zhan Lin 

Journal of Energy Chemistry, 2021, 10.1016/j.jechem.2021.04.020.

5. Dual-Function Electrolyte Additive for Highly Reversible Zn Anode

S Zhang, J Hao, D Luo, P Zhang, B Zhang, K Davey, Zhan Lin, S-Z Qiao

Advanced Energy Materials, 2021, 11, 2102010.

6. Water-soluble tri-functional binder for sulfur cathodes towards lithium-sulfur battery

Y Yang, J Qiu, L Cai, C Liu, S Wu, X Wei, D Luo, B Zhang, X Yang, K Nam Hui, J Liu, Z Lin

ACS Applied Materials & Interfaces, 2021, accepted.

7. Aqueous supramolecular binder for a lithium–sulfur battery with flame-retardant property, 

J Qiu, S Wu, Y Yang, H Xiao, X Wei, B Zhang, K Nam Hui, Z Lin.

ACS Applied Materials & Interfaces, 2021, accepted.

8. Rational design of a mesoporous silica-based cathode for efficient trapping of polysulfides in Li–S batteries

C Chen, H Xu, B Zhang, Q Jiang, Y Zhang, L Li, Z Lin

Chemical Communications, 2020, 52, 5706-5709