Balance the lithium– iodide battery redox reaction described in reading. Iodine-Doped Graphene with Opportune Interlayer Spacing as Superior Anode Materials for High-Performance Lithium-Ion Batteries. nanocrystals grown in situ on highly porous carbon microtubes for lithium–iodine and lithium–sulfur batteries. Zhixiao Liu, Xiong Pu, Fei Gao, Wangyu Hu, Huiqiu Deng. Freestanding reduced graphene oxide–sulfur composite films for highly stable lithium–sulfur batteries. Sanjay Nanda, Abhay Gupta, Arumugam Manthiram. Molecular Design Strategies for Electrochemical Behavior of Aromatic Carbonyl Compounds in Organic and Aqueous Electrolytes. Dai. Feixiang Wu, Oleg Borodin, Gleb Yushin. 2 Ultra-small B Zhang, J.W. Journal of Materials Science: Materials in Electronics. 2 Zhao, Y.J. Mengmeng Qian, Zhongfei Xu, Zhongchang Wang, Bin Wei, Hua Wang, Shuxian Hu, Li‐Min Liu, Lin Guo. batteries. The American Chemical Society holds a copyright ownership interest in any copyrightable Supporting Kaidi Li, Bo Lin, Qiufeng Li, Huifeng Wang, Sen Zhang, and Chao Deng . Chong Bai, Fengshi Cai, Lingchang Wang, Shengqi Guo, Xizheng Liu, Zhihao Yuan. Jing Ye, Yi-xuan Li, Li Zhang, Xue-ping Zhang, Min Han, Ping He, and Hao-shen Zhou . Halogenid‐basierte Materialien und Chemie für wiederaufladbare Batterien. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. Device longevity is a vital component of ICD performance. Anode‐Free Full Cells: A Pathway to High‐Energy Density Lithium‐Metal Batteries. Information. Polyiodide-Shuttle Restricting Polymer Cathode for Rechargeable Lithium/Iodine Battery with Ultralong Cycle Life. Electrode Degradation in Lithium-Ion Batteries. Shunlong Zhang, Xiaojian Tan, Zhen Meng, Huajun Tian, Fangfang Xu, Wei-Qiang Han. Atomistic insights into the reaction mechanism of nanostructured LiI: Implications for rechargeable Li-I2 batteries. Ren, T.S. The solid is used as a phosphor … Mengmeng Qian, Mengyao Tang, Jie Yang, Wei Wei, Mengxue Chen, Jiangchun Chen, Jianlong Xu, Qingyun Liu, Hua Wang. Han Zhang, Pengjian Zuo, Junfu Hua, Yulin Ma, Chunyu Du, Xinqun Cheng, Yunzhi Gao, Geping Yin. Povidone-iodine-functionalized fluorinated copolymers with dual-functional antibacterial and antifouling activities. Importantly, they have also proved that the battery outperforms lithium-ion versions, so it has the potential to improve electric vehicles and energy storage. Joshua P. Pender, Gaurav Jha, Duck Hyun Youn, Joshua M. Ziegler, Ilektra Andoni, Eric J. Choi, Adam Heller, Bruce S. Dunn, Paul S. Weiss, Reginald M. Penner. Encapsulating a high content of iodine into an active graphene substrate as a cathode material for high-rate lithium–iodine batteries. Yi Lin, Chalynette Martinez-Martinez, Jae-Woo Kim, John W. Connell. Reduced Graphene Oxide/LiI Composite Lithium Ion Battery Cathodes. Joshua Lochala, Dianying Liu, Bingbin Wu, Cynthia Robinson, and Jie Xiao . When optimised for performance, the battery has a higher power density than lithium-ion, meaning potentially smaller batteries that could be transformative for technology like electric aircraft. An Batteries. Zhong Su, Han Yeu Ling, Meng Li, Shangshu Qian, Hao Chen, Chao Lai, Shanqing Zhang. Jiantie Xu, Jianmin Ma, Qinghua Fan, Shaojun Guo, Shixue Dou. 2 2 A rechargeable iodine-carbon battery that exploits ion intercalation and iodine redox chemistry. -Br You can unsubscribe at any time by clicking the link at the bottom of every newsletter. Charge Storage Mechanism and Structural Evolution of Viologen Crystals as the Cathode of Lithium Batteries. Hiroshi Abe, Tsukasa Tokita, Koichi Iwata, Shinichiro Ozawa. It is almost exclusively mined in the Democratic Republic of Congo, where its toxic dust threatens the health of miners – often child labourers – and local communities. 2 system. 2 Zhen Meng, Huajun Tian, Shunlong Zhang, Xufeng Yan, Hangjun Ying, Wei He, Chu Liang, Wenkui Zhang, Xianhua Hou. Redox reactions of halogens for reversible electrochemical energy storage. "In the quickly evolving arena of flying vehicles and electric aircrafts, having access to batteries with very high-power density, which can scale a power load quickly, is critical. IBM Research is on of the world's largest research organisation, with 12 labs across six continents. 2 Xiaomei Xu, Junfeng Wu, Shihai Ye, Sheng Liu, Tianying Yan. Ultra-light and flexible pencil-trace anode for high performance potassium-ion and lithium-ion batteries. Tunable porous carbon spheres for high-performance rechargeable batteries. Faxing Wang, Zaichun Liu, Chongqing Yang, Haixia Zhong, Gyutae Nam, Panpan Zhang, Renhao Dong, Yuping Wu, Jaephil Cho, Jian Zhang, Xinliang Feng. Zi-Fang Chen, Xiaodong Lin, Hui Xia, Yuhao Hong, Xiaoyu Liu, Senrong Cai, Jia-Ning Duan, Junjie Yang, Zhiyou Zhou, Jeng-Kuei Chang, Mingsen Zheng, Quanfeng Dong. Nao Kato, Yosuke Ishii, Yukihiro Yoshida, Yuki Sakamoto, Kazuki Matsushita, Mikako Takahashi, Remi Date. It is partnering with Mercedes-Benz Research and Development North America as well as battery companies Central Glass and Sidus to further develop the technology. 2 Zhong Su, Chuan-Jia Tong, De-Qing He, Chao Lai, Li-Min Liu, Chao Wang, Kai Xi. M. Xing, Z.Z. Chuangang Hu, Ying Xiao, Yuqin Zou, Liming Dai. You have to login with your ACS ID befor you can login with your Mendeley account.