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Literature DB >> 27347697

The Electrochemistry with Lithium versus Sodium of Selenium Confined To Slit Micropores in Carbon.

Sen Xin^1,2, Le Yu³, Ya You³, Huai-Ping Cong¹, Ya-Xia Yin³, Xue-Li Du¹, Yu-Guo Guo³, Shu-Hong Yu⁴, Yi Cui, John B Goodenough².

Abstract

Substitution of selenium for sulfur in the cathode of a rechargeable battery containing Sx molecules in microporous slits in carbon allows a better characterization of the electrochemical reactions that occur. Paired with a metallic lithium anode, the Sex chains are converted to Li2Se in a single-step reaction. With a sodium anode, a sequential chemical reaction is characterized by a continuous chain shortening of Sex upon initial discharge before completing the reduction to Na2Se; on charge, the reconstituted Sex molecules retain a smaller x value than the original Sex chain molecule. In both cases, the Se molecules remain almost completely confined to the micropore slits to give a long cycle life.

Entities: Chemical Gene

Keywords: Energy storage; confined selenium chain; metal−selenium battery; microporous carbon; selenium electrochemistry

Year: 2016 PMID： 27347697 DOI： 10.1021/acs.nanolett.6b01819

Source DB: PubMed Journal: Nano Lett ISSN： 1530-6984 Impact factor: 11.189

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Cited

5 in total

1. A pyrolyzed polyacrylonitrile/selenium disulfide composite cathode with remarkable lithium and sodium storage performances.

Authors: Zhen Li; Jintao Zhang; Yan Lu; Xiong Wen David Lou
Journal: Sci Adv Date: 2018-06-08 Impact factor: 14.136

2. In situ reactive coating of metallic and selenophilic Ag₂Se on Se/C cathode materials for high performance Li-Se batteries.

Authors: Fugen Sun; Yahui Li; Zilong Wu; Yu Liu; Hao Tang; Xiaomin Li; Zhihao Yue; Lang Zhou
Journal: RSC Adv Date: 2018-09-21 Impact factor: 3.361

The Electrochemistry with Lithium versus Sodium of Selenium Confined To Slit Micropores in Carbon.

1. A pyrolyzed polyacrylonitrile/selenium disulfide composite cathode with remarkable lithium and sodium storage performances.

2. In situ reactive coating of metallic and selenophilic Ag₂Se on Se/C cathode materials for high performance Li-Se batteries.

3. Rechargeable aluminum-selenium batteries with high capacity.

4. Covalent Selenium Embedded in Hierarchical Carbon Nanofibers for Ultra-High Areal Capacity Li-Se Batteries.

5. High-power lithium-selenium batteries enabled by atomic cobalt electrocatalyst in hollow carbon cathode.

The Electrochemistry with Lithium versus Sodium of Selenium Confined To Slit Micropores in Carbon.

1. A pyrolyzed polyacrylonitrile/selenium disulfide composite cathode with remarkable lithium and sodium storage performances.

2. In situ reactive coating of metallic and selenophilic Ag2Se on Se/C cathode materials for high performance Li-Se batteries.

3. Rechargeable aluminum-selenium batteries with high capacity.

4. Covalent Selenium Embedded in Hierarchical Carbon Nanofibers for Ultra-High Areal Capacity Li-Se Batteries.

5. High-power lithium-selenium batteries enabled by atomic cobalt electrocatalyst in hollow carbon cathode.

2. In situ reactive coating of metallic and selenophilic Ag₂Se on Se/C cathode materials for high performance Li-Se batteries.