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Manganese-Based Oxide Cathode Materials for Aqueous Zinc-Ion Batteries: Materials, Mechanism, Challenges, and Strategies
Chem & Bio EngineeringAqueous zinc-ion batteries (AZIBs) have recently attracted worldwide attention due to the natural abundance of Zn, low cost, high safety, and environmental benignity.Bao Zhang, Peng Dong, Shouyi Yuan, Yannan Zhang, Yingjie Zhang, Yonggang Wang +5 moredoaj +2 more sourcesZinc-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 sourcesPhoto-rechargeable zinc-ion batteries
Energy & Environmental Science, 2020 This paper presents a zinc-ion battery that can be recharged directly by light without the need for a solar cell, which offers a new approach to balancing the unpredictable energy surpluses and deficits associated with solar energy.Buddha Deka Boruah, Angus Mathieson, Bo Wen, Sascha Feldmann, Wesley M. Dose, Michael De Volder +5 moreopenaire +4 more sourcesFlexible and stretchable power sources for wearable electronics. [PDF]
, 2017 Flexible and stretchable power sources represent a key technology for the realization of wearable electronics. Developing flexible and stretchable batteries with mechanical endurance that is on par with commercial standards and offer compliance while ...Arias, Ana Claudia, Davies, Greg, Deckman, Igal, Duey, Jerica K, Lechêne, Balthazar P, Ostfeld, Aminy E, Steingart, Daniel A, Wang, Michael, Zamarayeva, Alla M +8 morecore +2 more sourcesAtomic-scale combination of germanium-zinc nanofibers for structural and electrochemical evolution [PDF]
, 2019 Alloys are recently receiving considerable attention in the community of rechargeable batteries as possible alternatives to carbonaceous negative electrodes; however, challenges remain for the practical utilization of these materials.AS Arico, AV Chadwick, BR Wang, D Li, DR Kumar, GA Agarkova, I Son, J Echeverria, J Hwang, J Lee, J Liu, J Lu, J Mizusaki, J Ryu, J Yang, J Zhao, JH Strange, JI Lee, JJ Gao, JY Cheong, KH Seng, L Qian, LY Lim, MH Hsieh, MH Park, MS Wang, N Nitta, P Hidalgo, RW Mo, S Choi, S Yoon, SP Wu, TH Kim, W He, W Xiao, WH Li, XH Liu, XL Wang, XS Liu, Y An, Y An, Y An, Y An, Y An, Y An, Y Sun, Y Yuan., YH Xie, YW Lee +48 morecore +2 more sourcesAn 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 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 sourceHigh-Energy-Density Aqueous Zinc-Ion Batteries: Recent Progress, Design Strategies, Challenges, and Perspectives. [PDF]
Adv MaterAqueous zinc‐ion batteries (AZIBs) are emerging as a promising energy storage technique supplementary to Li‐ion batteries, attracting much research attention owing to their intrinsic safety, cost economy, and environmental friendliness.Tang M, Liu Q, Zou X, Zhang B, An L.europepmc +2 more sourcesEnergy Storage Technologies for Smoothing Power Fluctuations in Marine Current Turbines [PDF]
, 2014 With regard to marine renewable energies, significant electrical power can be extracted from marine tidal current. However, the power harnessed by a marine current turbine varies due to the periodicity of the tidal phenomenon and could be highly ...BENBOUZID, Mohamed, CHARPENTIER, Jean-Frederic, SCUILLER, Franck, TANG, Tianhao, ZHOU, Zhibin +4 morecore +2 more sources
