Results 11 to 20 of about 24,091 (307)
Zinc-Ion Storage Mechanism of Polyaniline for Rechargeable Aqueous Zinc-Ion Batteries
Nanomaterials, 2022 Aqueous multivalent ion batteries, especially aqueous zinc-ion batteries (ZIBs), have promising energy storage application due to their unique merits of safety, high ionic conductivity, and high gravimetric energy density. To improve their electrochemical performance, polyaniline (PANI) is often chosen to suppress cathode dissolution. Herein, this work Jiangfeng Gong, Hao Li, Kaixiao Zhang, Zhupeng Zhang, Jie Cao, Zhibin Shao, Chunmei Tang, Shaojie Fu, Qianjin Wang, Xiang Wu +9 moreopenaire +3 more sourcesComparative Review on the Aqueous Zinc-Ion Batteries (AZIBs) and Flexible Zinc-Ion Batteries (FZIBs)
Nanomaterials, 2022 Lithium-ion batteries (LIBs) have been considered an easily accessible battery technology because of their low weight, cheapness, etc. Unfortunately, they have significant drawbacks, such as flammability and scarcity of lithium. Since the components of zinc-ion batteries are nonflammable, nontoxic, and cheap, AZIBs could be a suitable replacement for ...Md. Al-Amin, Saiful Islam, Sayed Ul Alam Shibly, Samia Iffat +3 moreopenaire +3 more sourcesAn aqueous electrolyte densified by perovskite SrTiO3 enabling high-voltage zinc-ion batteries
Nature Communications, 2023 The conventional weak acidic electrolyte for aqueous zinc-ion batteries breeds many challenges, such as undesirable side reactions, and inhomogeneous zinc dendrite growth, leading to low Coulombic efficiency, low specific capacity, and poor cycle ...Rongyu Deng, Zhenjiang He, Fulu Chu, Jie Lei, Yi Cheng, You Zhou, Feixiang Wu +6 moredoaj +1 more sourceAn Artificial Polyacrylonitrile Coating Layer Confining Zinc Dendrite Growth for Highly Reversible Aqueous Zinc‐Based Batteries
Advanced Science, 2021 Aqueous rechargeable zinc‐metal‐based batteries are an attractive alternative to lithium‐ion batteries for grid‐scale energy‐storage systems because of their high specific capacity, low cost, eco‐friendliness, and nonflammability. However, uncontrollable Peng Chen, Xinhai Yuan, Yingbin Xia, Yi Zhang, Lijun Fu, Lili Liu, Nengfei Yu, Qinghong Huang, Bin Wang, Xianwei Hu, Yuping Wu, Teunis vanRee +11 moredoaj +1 more sourceHorizontally arranged zinc platelet electrodeposits modulated by fluorinated covalent organic framework film for high-rate and durable aqueous zinc ion batteries
Nature Communications, 2021 Rechargeable aqueous zinc-ion batteries are promising but the zinc anode suffers from dendrite growth and electrolyte corrosion. Here, the authors develop a fluorinated covalent organic framework film as a protective layer for aqueous zinc anode battery.Zedong Zhao, Rong Wang, Chengxin Peng, Wuji Chen, Tianqi Wu, Bo Hu, Weijun Weng, Ying Yao, Jiaxi Zeng, Zhihong Chen, Peiying Liu, Yicheng Liu, Guisheng Li, Jia Guo, Hongbin Lu, Zaiping Guo +15 moredoaj +1 more sourceAn overview of progress in electrolytes for secondary zinc-air batteries and other storage systems based on zinc [PDF]
, 2017 The revived interest and research on the development of novel energy storage systems with exceptional inherent
safety, environmentally benign and low cost for integration in large scale electricity grid and electric
vehicles is now driven by the global Abbott, Abbott, Abbott, Abbott, Abbott, Abbott, Abbott, Abbott, Abbott, Abdallah, Abraham, Abraham, Abraham, Abrantes, Adler, Adler, Adler, Adler, Akinyele, Alfarugi, Alfaruqi, Amin, Anseau, Appetecchi, Appetecchi, Arenas, Arise, Arise, Arise, Armand, Armand, Armstrong, Aroonwilas, Aurian-Blajeni, Azizi, Banás, Baril, Barrosse-Antle, Bass, Baug, Baugh, Baugh, Beck, Belieres, Beverskog, Biallozor, Birk, Bishnoi, Biswas, Blurton, Bockris, Boden, Bonhôte, Bonnick, Bouhamra, Brokins, Bruce, Buzzeo, Cabot, Cabot, Cachet, Cachet, Cachet, Cachet, Cachet, Cachet, Cachet, Cai, Cai, Cao, Caramia, Carriazo, Cha, Chakkaravarthy, Chakrabarti, Chang, Chang, Chang, Chen, Chen, Chen, Chen, Chen, Cheng, Cheng, Chiappe, Choe, Choi, Clark, Cohen-Hyams, Coury, Cubiccioti, Cullinane, Deiss, Delahay, Deng, Deng, Deng, Deslouis, Diggle, Dilimon, Ding, Diomidis, Dirkse, Dirkse, Dirkse, Dirkse, Dirkse, Dirkse, Dirkse, Dirkse, Dirkse, Dirkse, Divya, Drillet, Dunn, Dupont, EI-Raghy, Ein-Eli, Ein-Eli, Einerhand, El-Raghy, El’kind, Fan, Fauvarque, Fernicola, Flerov, Flitt, Fournier, Fu, Fujiwara, Fukaya, Fuller, Gagnon, Galinski, Garche, Garreau, Gerhard, Ghaemi, Ghavami, Gil Posada, Gilliama, Goff, Goldstein, Golodnitsky, Gong, Gong, Gore, Gorlin, Guduru, Guerfi, Haas, Hagan, Han, Hapiot, Haramagatti, Hassan, Hassan, Hassan, Hayamizu, Hendrikx, Higashiya, Horn, Hossain, Hu, Hu, Huber, Huot, Huq, Hurlen, Hwang, Ikeda, Ikeda, Ingale, Jaksic, Jaksic, James, Jiang, Jindra, Jindra, Johnson, Johnson, Jörissen, Jörissen, Jülch, Kang, Kannangara, Kar, Kar, Kareem, Keskes, Kim, Kim, Kim, Kim, Kim, Kordesch, Koscher, Koscher, Kowalczk, Kozawa, Kozawa, Kucka, Kumar, Kumar, Kumar, Kuwabata, Lan, Lee, Lee, Lee, Lee, Lee, Lee, Letowski, Leung, Leung, Leung, Leung, Leung, Lewandowski, Li, Li, Li, Liang, Limmer, Limpo, Linden, Liu, Liu, Liu, Liua, Lockheed Palo Alto Research Lab, Luo, Maa, Macdonald, Macdonald, Macdonald, MacFarlane, MacFarlane, MacFarlane, Magistris, Mainar, Mainar, Mamajanov, Masayoshi, Maugeri, McEwen, McKubre, McLarnon, Miyazaki, Mohamad, Mokaddem, Moseley, Muralidharan, Müller, Nagy, Narayanan, Narayanan, Neburchilov, Nemukhin, Nguyen, Nichols, Nkuku, Padbury, Paik, Parker, Patrice, Pei, Ping, Plancha, Plasynski, Plechkova, Polu, Ponce de León, Poullikkas, Pourbaix, Powers, Powers, Powers, Powers, Prentice, Rahman, Rai, Ravindran, Raz, Rezaei, Rogers, Ruß, Sapkota, Sapkota, Sato, Schröder, Seddon, Shahbaza, Shaigan, Shaigan, Sharma, Shivkumar, Shivkumar, Shoji, Shoji, Simka, Simon, Simons, Simons, Skrifvars, Smedley, Soloveichik, Sowmiah, Sownthari, Stamm, Stone, Stott, Sumboja, Sun, Sun, Sunu, Swiatowska-Mrowiecka, Swiatowska-Mrowiecka, Szpak, Szpak, Takeno, Tang, Tarascibm, Tedjar, Thomas, Thomas, Thomas, Thomas, Thomas Goh, Thornton, Tompsett, Toussaint, Vassal, Velichenko, Venkata Narayanan, Venkata Narayanan, Venkata Narayanan, Verma, Vicent, Villagrán, Vioux, Walsh, Wang, Wang, Wang, Wessells, Wilkes, Wilkes, Wippermann, Wittmaier, Wittmaier, Wittmaier, Wruck, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xue, Yan, Yang, Ye, Yesibolati, Yoshida, Yoshida, Yoshida, Yoshida, Yu, Zakeri, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhao, Zhao, Zhao, Zhou, Zhu, Zhu, Ziemniak, Zubov +393 morecore +1 more sourceTailoring water structure with high-tetrahedral-entropy for antifreezing electrolytes and energy storage at −80 °C
Nature Communications, 2023 The anti-freezing property of electrolyte is crucial for aqueous batteries under extreme conditions. Here authors explore the relationship between tetrahedral entropy and the freezing behavior of aqueous electrolyte, and further develop anti-freezing ...Meijia Qiu, Peng Sun, Kai Han, Zhenjiang Pang, Jun Du, Jinliang Li, Jian Chen, Zhong Lin Wang, Wenjie Mai +8 moredoaj +1 more sourcePhotoresponsive Zinc‐Based Batteries
Small Science, 2023 Photoresponsive batteries are an innovative technology that combines conversion and storage of solar energy, providing a potential solution for large‐scale utilization of solar energy while reducing the reliance on traditional energy storage devices to ...Xiaofeng Lin, Zilong Liu, Xiaotong Wang, Ping Li, Dingshan Yu +4 moredoaj +1 more sourceReview of regulating Zn2+ solvation structures in aqueous zinc-ion batteries
Materials Futures, 2023 Aqueous zinc-ion batteries, due to their high power density, intrinsic safety, low cost, and environmental benign, have attracted tremendous attentions recently.Wanyao Zhang, Yufang Chen, Hongjing Gao, Wei Xie, Peng Gao, Chunman Zheng, Peitao Xiao +6 moredoaj +1 more source
