
张稚国
姓名:张稚国
所在系所:表面科学与技术研究所
职称:讲师
通信地址:北京市海淀区学院路30号北京科技大学新材料技术研究院
邮编:100083
办公地点:腐蚀楼223
办公电话:
邮箱:zhangzg@ustb.edu.cn
个人简介
研究方向
科研业绩
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]