张稚国，女，1992年生，讲师。2021年7月毕业于哈尔滨工业大学化工与化学学院，获博士学位；2021年8月于北京汽车研究总院有限公司从事三电极锂离子电池技术及快充策略研发；2022年8月进入清华大学核能与新能源技术研究院从事博士后研究工作；2025年1月聘为北京科技大学新材料技术研究院讲师。主持博士后面上基金项目；在储能领域共发表论文40篇，其中以第一、通讯作者身份在Advanced Energy Materials, ACS Energy Letters, Energy Storage Materials, Chemical Engineering Journal, Journal of Energy Chemistry, Journal of Colloid and Interface Science等国际知名期刊上发表SCI论文8篇，合作SCI论文30余篇；申请国家发明专利6项（其中1项已获授权）。曾获“国家奖学金”、“优秀共产党员干部”等荣誉称号。

1、电化学能源储存
2、锂离子电池安全机理研究
3、高精度参比电极及快充策略研发

1. Zhiguo, Zhang, Li Wang*, Xiangming He*, et al. Metallized Plastic Foils: A Promising Solution for High‐Energy Lithium‐Ion Battery Current Collectors. (2023) Advanced Energy Materials, 13(36), 2302134. [工程技术1区，IF:24.4]

2. Zhiguo, Zhang, Li Wang*, Xiangming He*, et al. Enhancing Precision and Durability of Built-in Reference Electrodes in Lithium-Ion Batteries: A Critical Review. (2024) ACS Energy Letters, 9, 5647-5669. [材料科学1区，IF:19.3]

3. Zhiguo, Zhang, Li Wang*, Xiangming He*, et al. Mechanical Regulation of Ni-rich Cathode to “The Golden Mean” towards Safe Li-ion Batteries during Nail Penetration. (2024) Energy Storage Materials, 73, 103802. [材料科学1区，IF: 18.9]

4. Hong Zhao, Zhiguo, Zhang*, Li Wang*, Xiangming He*, et al. Insight into Puncture-Induced Thermal Runaway in Lithium-Ion Batteries to Reduce Fire Risks in Electric Vehicle Collisions. (2024) eTransportation, Major revision, Response completed. [工程技术1区，IF:15，第一通讯]

5. Zhiguo Zhang, Hua Huo*, et al. Stacking Fault Disorder Induced by Mn Doping in Ni(OH)2 for Supercapacitor Electrodes. (2021) Chemical Engineering Journal, 412, 128617. [工程技术1区，IF:13.3，高被引]

6. Zhiguo Zhang, Hua Huo*, et al. Unraveling the Reaction Mechanism of Low Dose Mn Dopant in Ni(OH)2 Supercapacitor Electrode. (2021) Journal of Energy Chemistry, 61, 497-506. [工程技术1区，IF:14]

7. Saisai Yao, Zhiguo Zhang*, et al. Hierarchical NiMn/NiMn-LDH/ppy-C Induced by A Novel Phase-Transformation Activation Process for Long-life Supercapacitor. (2022) Journal of colloid and interface science, 622, 1020–1028. [化学1区，IF:9.4，第一通讯]

8. Zhiguo Zhang, Hua Huo*, et al. Ni-MOF derived NiO/C Nanospheres Grown in situ on Reduced Graphene Oxide towards High Performance Hybrid Supercapacitor. (2019) Journal of Alloys and Compounds, 801, 158-165]

9. Guofu Ma*, Zhiguo Zhang, et al. High-performance Aqueous Asymmetric Supercapacitor based on K0.3WO3 Nanorods and Nitrogen-doped Porous Carbon. (2016) Journal of Power Sources, 330, 219-230.

10. Guofu Ma*, Zhiguo Zhang, et al. Facile Preparation of Nitrogen-doped Porous Carbon for High Performance Symmetric Supercapacitor. (2016) Journal of Solid State Electrochemistry, 20, 1613–1623.

11. Guofu Ma*, Zhiguo Zhang, et al. White Clover based Nitrogen-doped Porous Carbon for A High Energy Density Supercapacitor Electrode. (2015) RSC Advances, 5 (130), 107707-107715.

12. Kanjun Sun*, Zhiguo Zhang, Guofu Ma, et al. Hybrid Symmetric Supercapacitor Assembled by Renewable Corn Silks Based Porous Carbon and Redox-active Electrolytes. (2018) Materials Chemistry and Physics, 218, 229-238.

13. Hang Li, Li Wang, Youzhi Song, Zhiguo Zhang, et al. Why the Synthesis Affect Performance of Layered Transition Metal Oxide Cathode Materials for Li‐ion Batteries. (2024) Advanced Materials, 2312292. [工程技术1区，IF:27.4]

14. Hang Li, Li Wang, Youzhi Song, Zhiguo Zhang, et al. Significance of Current Collectors for High Performance Conventional Lithium‐Ion Batteries: A Review. (2023) Advanced Functional Materials, 33(49), 2305515. [工程技术1区，IF: 18.5]

15. Xucai Yin, Yang Ren, Libing Wu, Zhiguo Zhang, et al. Construction of polysulfides defense system for greatly improving the long cycle life of metal sulfide anodes for sodium-ion batteries[J]. (2022) Journal of Energy Chemistry, 71, 210-217. [工程技术1区，IF:14]

16. Shaobo Ma, Zhiguo Zhang, et al. "Iodine-doped sulfurized polyacrylonitrile with enhanced electrochemical performance for lithium sulfur batteries in carbonate electrolyte." (2021) Chemical Engineering Journal, 418, 129410. [工程技术1区，IF:13.3]

17. Zhenjiang Yu, Ying Xie, Bingxing Xie, Chuntian Cao, Zhiguo Zhang et al. Uncovering the underlying science behind dimensionality in the potassium battery regime[J]. (2020) Energy Storage Materials, 25, 416-425. [工程技术1区，IF:18.9]

18. Tiansheng Mu, Baicheng Shen, Shuaifeng Lou, Zhiguo Zhang, et al. Scalable Mesoporous Silicon Microparticles Composed of Interconnected Nanoplates for Superior Lithium Storage[J]. (2019) Chemical Engineering Journal, 375, 121923. [工程技术1区，IF:13.3]