Results 31 to 40 of about 43,920 (280)

Design and Experiment on Zinc-air Battery Continuous Power Controller Based on Microcontroller

Chemical Engineering Transactions, 2016
The Zinc-air batteries continuous power generation which is designed by our task group realizes the discharge of zinc electrode in motion and solves the problem of self-discharge of Zinc-air battery.
Y.J. Xiao, R. Jing, H.P. Song, N. Zhu, H. Yang   +4 more
doaj   +1 more source

Comprehensive Evaluation and Analysis of New Batteries [PDF]

MATEC Web of Conferences, 2023
New batteries are the mainstream of battery development, and many industries cannot live without new batteries. Most of the new batteries do not pollute the environment and exceed traditional batteries in terms of energy efficiency and charge and ...
Zhang Ruizhi
doaj   +1 more source

Overcurrent Abuse of Primary Prismatic Zinc–Air Battery Cells Studying Air Supply Effects on Performance and Safety Shut-Down [PDF]

, 2017
Overcurrent abuse has been performed on commercial 48 Ah primary prismatic zinc (Zn)–Air battery cells with full air supply as well as with shut-off air supply.
Ahmed, Istaq, Albinsson, Ingvar, Larsson, Fredrik, Mellander, Bengt-Erik, Rytinki, Antti   +4 more
core   +2 more sources

Systematic cycle life assessment of a secondary zinc–air battery as a function of the alkaline electrolyte composition [PDF]

, 2018
Development of secondary zinc-air batteries goes through a proper specification of the electrolyte formulation adapted to extend the cycle life of the battery.
Adler, Adler, Bard, Bockris, Bonnick, Cachet, Cheng, Dirkse, Dirkse, Gallaway, Gallaway, Hertzberg, Huang, Huang, Hwang, Hwang, Kim, Kucka, Li, Li, Mainar, Mainar, Mainar, Mainar, Malone, Mansfeld, McLarnon, Nichols, Parker, Patrice, Prentice, Schröder, Shivkumar, Stamm, Turney, Wang, Yadav, Yan   +37 more
core   +2 more sources

Recent advances in zinc–air batteries

Chem. Soc. Rev., 2014
In this review, the fundamentals, challenges and latest exciting advances related to zinc–air research are highlighted.
Yanguang, Li, Hongjie, Dai
openaire   +3 more sources

Atomic-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 more
core   +2 more sources

Recent advances in solid‐state metal–air batteries

Carbon Energy, 2023
Solid‐state metal–air batteries have emerged as a research hotspot due to their high energy density and high safety. Moreover, side reactions caused by infiltrated gases (O2, H2O, or CO2) and safety issues caused by liquid electrolyte leakage will be ...
Qi Sun, Lei Dai, Tingting Luo, Ling Wang, Feng Liang, Shan Liu   +5 more
doaj   +1 more source

Graphene-Based Nanocomposites for Energy Storage [PDF]

, 2016
Since the first report of using micromechanical cleavage method to produce graphene sheets in 2004, graphene/graphene-based nanocomposites have attracted wide attention both for fundamental aspects as well as applications in advanced energy storage and ...
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Rui, Sahu, Sahu, Salunkhe, Salunkhe, Salunkhe, Saravanan, Schlapbach, Schwenzer, Sevim, Seydou, Shabi, Shakoor, Shan, Shao, Shao, Shao, Shen, Shen, Shen, Shen, Shevlin, Shi, Shi, Shi, Shi, Shi, Shin, Shin, Shown, Sigal, Simon, Simon, Simon, Singh, Singh, Slater, Snook, Sohn, Soloveichik, Son, Son, Son, Song, Song, Song, Song, Song, Soudan, Spyrou, Srinivas, Srivastava, Stankovich, Sterlin Leo Hudson, Stoller, Su, Subrahmanyam, Sun, Sun, Sun, Sun, Sun, Sun, Sun, Sun, Sun, Sun, Sun, Sun, Sun, Sun, Sun, Sun, Sun, Tan, Tan, Tan, Tang, Tang, Tarascon, Thangavelu, Tian, Tian, Tian, Ting-Zheng, Tozzini, Tripathi, Tripathi, Tsai, Tsai, Tylianakis, Umeshbabu, Venkateswara Rao, Villaluenga, Vinayan, Vivekchand, Wan, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Weber, Wei, Wei, Wei, Weiss, Wen, Wen, Wild, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Wu, Xia, Xia, Xia, Xiang, Xiang, Xiang, Xiao, Xiao, Xiao, Xiao, Xiao, Xie, Xie, Xie, Xie, Xie, Xie, Xin, Xiong, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xu, Xue, Yabuuchi, Yadegari, Yan, Yan, Yan, Yan, Yan, Yan, Yan, Yan, Yang, Yang, Yang, Yang, Yang, Yang, Yang, Yang, Yang, Yang, Yang, Yang, Yang, Yang, Yang, Yao, Yao, Ye, Ye, Yeo, Yeom, Yilmaz, Yin, Yin, Yin, Yin, Yoo, Yoo, Yoo, Yoo, You, You, Yu, Yu, Yu, Yu, Yu, Yu, Yu, Yu, Yu, Yu, Yu, Yu, Yuan, Yuan, Yuan, Yuan, Yue, Yue, Yue, Yun, Yunbo, Zeng, Zhamu, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhao, Zhao, Zhao, Zhao, Zhao, Zhao, Zhao, Zhao, Zhao, Zhao, Zhao, Zhao, Zhao, Zhao, Zhao, Zhao, Zhao, Zhao-Karger, Zheng, Zheng, Zheng, Zheng, Zheng, Zhi, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhou, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhu, Zhuiykov, Zhuo, Zielke, Zong, Zou, Zou, Zou, Zu, Züttel   +1053 more
core   +1 more source

Anode optimization strategies for zinc–air batteries

eScience
With issues of energy security and environmental crisis intensifying, we urgently need to develop energy storage systems with high energy density and high safety. Zinc–air batteries have attracted extensive attention for their energy density, safety, and
Ruo-Bei Huang, Meng-Yin Wang, Jian-Feng Xiong, Hua Zhang, Jing-Hua Tian, Jian-Feng Li   +5 more
doaj   +1 more source

Binder‐Free 3D Integrated Ni@Ni3Pt Air Electrode for Zn–Air Batteries

Global Challenges, 2019
Developing an air electrode with high efficiency and stable performance is essential to improve the energy conversion efficiency and lifetime of zinc–air battery.
Thien Viet Pham, Yang Li, Wen‐Bin Luo, Hai‐Peng Guo, Xuan‐Wen Gao, Jia‐Zhao Wang, Hua‐Kun Liu   +6 more
doaj   +1 more source