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Single modular flow-electrode capacitive deionization using modified Prussian blue analogues as cation intercalation electrode for continuous water desalination Journal article
Zhao, Yan, Fan, Xinyu, Song, Tianwen, Leng, Bing, Qin, Yuan, Qian, Guangsheng. Single modular flow-electrode capacitive deionization using modified Prussian blue analogues as cation intercalation electrode for continuous water desalination[J]. Environmental Science and Pollution Research, 2024, 31(36), 49358-49371.
Authors:  Zhao, Yan;  Fan, Xinyu;  Song, Tianwen;  Leng, Bing;  Qin, Yuan; et al.
Favorite | TC[Scopus]:0  IF:0/0 | Submit date:2024/08/05
Cation Intercalation Deionization (Cid)  Desalination  Flow-electrode Capacitive Deionization (Fcdi)  Prussian Blue Analogues  
Bipolar Prussian blue analogues electrodes for symmetric aqueous batteries in diverse scenarios Journal article
Liu, Yu, Luo, Lei, Shen, Zhaoxi, Ji, Yu, Wen, Zhaorui, Li, Zhongheng, Li, Jinliang, Sun, Pengzhan, Xie, Junpeng, Hong, Guo. Bipolar Prussian blue analogues electrodes for symmetric aqueous batteries in diverse scenarios[J]. Chemical Engineering Journal, 2023, 465, 142733.
Authors:  Liu, Yu;  Luo, Lei;  Shen, Zhaoxi;  Ji, Yu;  Wen, Zhaorui; et al.
Favorite | TC[WOS]:9 TC[Scopus]:10  IF:13.3/13.2 | Submit date:2023/07/26
Bipolar Materials  Polarity Invert  Practical Scenarios  Prussian Blue Analogues  Symmetric Batteries  
Realizing the highly reversible Zn2+ and Na+ dual ions storage in high-crystallinity nickel hexacyanoferrate microcubes for aqueous zinc-ion batteries Journal article
Wang,Kexuan, Xu,Zhu, Li,Heng, Wang,Huibo, Ge,Mingzheng, Liu,Jilei, Li,Shengwen, Hu,Zekun, Zhu,Mengyu, Zhang,Yanyan, Tang,Yuxin, Chen,Shi. Realizing the highly reversible Zn2+ and Na+ dual ions storage in high-crystallinity nickel hexacyanoferrate microcubes for aqueous zinc-ion batteries[J]. Journal of Materials Science and Technology, 2023, 164, 102-110.
Authors:  Wang,Kexuan;  Xu,Zhu;  Li,Heng;  Wang,Huibo;  Ge,Mingzheng; et al.
Favorite | TC[WOS]:17 TC[Scopus]:16  IF:11.2/10.4 | Submit date:2023/08/03
Aqueous Zinc-ion Batteries  Dual Ions Storage  High Crystallinity  Ion Storage Mechanism  Prussian Blue Analogues  
Boosting the sodium storage performance of Prussian blue analogs by single-crystal and high-entropy approach Journal article
Huang, Yao, Zhang, Xuan, Ji, Lei, Wang, Li, Xu, Ben Bin, Shahzad, Muhammad Wakil, Tang, Yuxin, Zhu, Yaofeng, Yan, Mi, Sun, Guoxing, Jiang, Yinzhu. Boosting the sodium storage performance of Prussian blue analogs by single-crystal and high-entropy approach[J]. Energy Storage Materials, 2023, 58, 1-8.
Authors:  Huang, Yao;  Zhang, Xuan;  Ji, Lei;  Wang, Li;  Xu, Ben Bin; et al.
Favorite | TC[WOS]:62 TC[Scopus]:60  IF:18.9/18.4 | Submit date:2023/05/02
Prussian Blue Analogues  Sodium-ion Battery  High-entropy Material  Single Crystal  
Self-Healing of Prussian Blue Analogues with Electrochemically Driven Morphological Rejuvenation Journal article
Xie, Junpeng, Ma, Liang, Li, Jinliang, Yin, Xunqing, Wen, Zhaorui, Zhong, Yunlei, Li, Chaowei, Liu, Yu, Shen, Zhaoxi, Mai, Wenjie, Hong, Guo, Zhang, Wenjun. Self-Healing of Prussian Blue Analogues with Electrochemically Driven Morphological Rejuvenation[J]. Advanced Materials, 2022, 34(44).
Authors:  Xie, Junpeng;  Ma, Liang;  Li, Jinliang;  Yin, Xunqing;  Wen, Zhaorui; et al.
Favorite | TC[WOS]:45 TC[Scopus]:41  IF:27.4/30.2 | Submit date:2022/12/01
Crystals  Morphology Rejuvenation  Potassium-ion Batteries  Prussian Blue Analogues  Self-healing  
An interface-reinforced rhombohedral Prussian blue analogue in semi-solid state electrolyte for sodium-ion battery Journal article
Xie, Bingxing, Wang, Liguang, Li, Haifeng, Huo, Hua, Cui, Can, Sun, Baoyu, Ma, Yulin, Wang, Jiajun, Yin, Geping, Zuo, Pengjian. An interface-reinforced rhombohedral Prussian blue analogue in semi-solid state electrolyte for sodium-ion battery[J]. Energy Storage Materials, 2021, 36, 99-107.
Authors:  Xie, Bingxing;  Wang, Liguang;  Li, Haifeng;  Huo, Hua;  Cui, Can; et al.
Favorite | TC[WOS]:52 TC[Scopus]:54  IF:18.9/18.4 | Submit date:2021/10/02
Interfacial Reinforcement  Prussian Blue Analogues  Rhombohedral Bulk Phase  Semi-solid State Electrolyte  Sodium Ion Batteries  
Yolk−shell Prussian blue analogues hierarchical microboxes: Controllably exposing active sites toward enhanced cathode performance for lithium ion batteries Journal article
Ye, Wenjin, Yu, Lin, Sun, Ming, Cheng, Gao, Fu, Shuchai, Peng, Shaomin, Han, Shengbo, Yang, Xiaobo. Yolk−shell Prussian blue analogues hierarchical microboxes: Controllably exposing active sites toward enhanced cathode performance for lithium ion batteries[J]. Electrochimica Acta, 2019, 319, 237-244.
Authors:  Ye, Wenjin;  Yu, Lin;  Sun, Ming;  Cheng, Gao;  Fu, Shuchai; et al.
Favorite | TC[WOS]:21 TC[Scopus]:21  IF:5.5/5.5 | Submit date:2022/05/17
Active Sites  Lithium Ion Batteries  Prussian Blue Analogues  Self-assembly  Yolk-shell  
Achieving long-life Prussian blue analogue cathode for Na-ion batteries via triple-cation lattice substitution and coordinated water capture Journal article
Xie, Bingxing, Zuo, Pengjian, Wang, Liguang, Wang, Jiajun, Huo, Hua, He, Mengxue, Shu, Jie, Li, Haifeng, Lou, Shuaifeng, Yin, Geping. Achieving long-life Prussian blue analogue cathode for Na-ion batteries via triple-cation lattice substitution and coordinated water capture[J]. Nano Energy, 2019, 61, 201-210.
Authors:  Xie, Bingxing;  Zuo, Pengjian;  Wang, Liguang;  Wang, Jiajun;  Huo, Hua; et al.
Favorite | TC[WOS]:145 TC[Scopus]:148  IF:16.8/16.3 | Submit date:2021/10/02
Cathode Materials  Coordinated Water Capture  Prussian Blue Analogues  Sodium Ion Batteries  Transition Metal Substitution