High-Performance Rechargeable Aluminum-Selenium Battery with A New Deep Eutectic Solvent Electrolyte: Thiourea-AlCl3
Aluminum-sulfur batteries (ASBs) have attracted substantial interest due to their high theoretical specific energy density, low cost and environmentally friendly while the traditional sulfur cathode and ionic liquid have very fast capacity decay, limiting cycling performance because of the sluggishl...
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Published in | ACS applied materials & interfaces Vol. 12; no. 24; pp. 27064 - 27073 |
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Main Authors | , , , , , , , , , , , , , , |
Format | Journal Article |
Language | English |
Published |
United States
17.06.2020
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Abstract | Aluminum-sulfur batteries (ASBs) have attracted substantial interest due to their high theoretical specific energy density, low cost and environmentally friendly while the traditional sulfur cathode and ionic liquid have very fast capacity decay, limiting cycling performance because of the sluggishly electrochemical reaction and side reactions with the electrolyte. Herein, we demonstrate, for the first time, excellent rechargeable aluminum-selenium batteries (ASeBs) using a new deep eutectic solvent, thiourea-AlCl3 as an electrolyte and Se nanowires grown directly on a flexible carbon cloth substrate (Se NWs@CC) by a low-temperature selenization process as a cathode. Selenium (Se) is a chemical analogue of sulfur with higher electronic conductivity and lower ionization potential that can improve the battery kinetics on the sluggishly electrochemical reaction and the reduction of the polarization where the thiourea- AlCl3 electrolyte can stabilize the side reaction during the reversible conversion reaction of Al-Se alloying processes during the charge-discharge process, yielding a high specific capacity of 260 mAh g-1 at 50 mA g-1 and a long cycling life of 100 times with high columbic efficiency nearly 93 % at 100 mA g-1. The working mechanism base on the reversible conversion reaction of the Al-Se alloying processes, confirmed by the ex-situ Raman, XRD and XPS measurements was proposed. This work provides new insights into the development of rechargeable aluminum-chalcogenide (S, Se, and Te) batteries. |
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AbstractList | Aluminum-sulfur batteries (ASBs) have attracted substantial interest due to their high theoretical specific energy density, low cost and environmentally friendly while the traditional sulfur cathode and ionic liquid have very fast capacity decay, limiting cycling performance because of the sluggishly electrochemical reaction and side reactions with the electrolyte. Herein, we demonstrate, for the first time, excellent rechargeable aluminum-selenium batteries (ASeBs) using a new deep eutectic solvent, thiourea-AlCl3 as an electrolyte and Se nanowires grown directly on a flexible carbon cloth substrate (Se NWs@CC) by a low-temperature selenization process as a cathode. Selenium (Se) is a chemical analogue of sulfur with higher electronic conductivity and lower ionization potential that can improve the battery kinetics on the sluggishly electrochemical reaction and the reduction of the polarization where the thiourea- AlCl3 electrolyte can stabilize the side reaction during the reversible conversion reaction of Al-Se alloying processes during the charge-discharge process, yielding a high specific capacity of 260 mAh g-1 at 50 mA g-1 and a long cycling life of 100 times with high columbic efficiency nearly 93 % at 100 mA g-1. The working mechanism base on the reversible conversion reaction of the Al-Se alloying processes, confirmed by the ex-situ Raman, XRD and XPS measurements was proposed. This work provides new insights into the development of rechargeable aluminum-chalcogenide (S, Se, and Te) batteries. |
Author | Chen, Yu-Ze Liao, Hsiang-Ju Yang, Tzu-Yi Manikandan, Arumugam Su, Teng-Yu Wu, Ding Chou Wang, Yi-Chung Lee, Ling Wu, Shu-Chi Ai, Yuanfei Wang, Kuangye Chen, Chia-Wei Tang, Shin-Yi Shih, Yu-Chuan Chueh, Yu-Lun |
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Title | High-Performance Rechargeable Aluminum-Selenium Battery with A New Deep Eutectic Solvent Electrolyte: Thiourea-AlCl3 |
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