Elevating Discharge Voltage of Li 2 CO 3 ‐Routine Li−CO 2 Battery over 2.9 V at an Ultra‐Wide Temperature Window

The Li−CO 2 batteries utilizing greenhouse gas CO 2 possess advantages of high energy density and environmental friendliness. However, these batteries following Li 2 CO 3 ‐product route typically exhibit low work voltage (

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Veröffentlicht in:	Angewandte Chemie 2024-08, Vol.136 (34)
Hauptverfasser:	Zhao, Ning, Liu, Limin, Lu, Xuan, Li, Yuyang, Wu, Xiaosha, Peng, Shaochen, Wei, Jingwen, Gao, Yang, Zhang, Hanqi, Fan, Yiming, Yin, Zicheng, Feng, Rongfen, Wang, Ru, Hu, Xiaofei, Ding, Shujiang, Liu, Wenfeng
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container_title	Angewandte Chemie
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creator	Zhao, Ning Liu, Limin Lu, Xuan Li, Yuyang Wu, Xiaosha Peng, Shaochen Wei, Jingwen Gao, Yang Zhang, Hanqi Fan, Yiming Yin, Zicheng Feng, Rongfen Wang, Ru Hu, Xiaofei Ding, Shujiang Liu, Wenfeng
description	The Li−CO 2 batteries utilizing greenhouse gas CO 2 possess advantages of high energy density and environmental friendliness. However, these batteries following Li 2 CO 3 ‐product route typically exhibit low work voltage (
doi_str_mv	10.1002/ange.202407303
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However, these batteries following Li 2 CO 3 ‐product route typically exhibit low work voltage (<2.5 V) and energy efficiency. Herein, we have demonstrated for the first time that cobalt phthalocyanine (CoPc) as homogeneous catalyst can elevate the work plateau towards 2.98 V, which is higher than its theoretical discharge voltage without changing the Li 2 CO 3 ‐product route. This unprecedented discharge voltage is illustrated by mass spectrum and electrochemical analyses that CoPc has powerful adsorption capability with CO 2 (−7.484 kJ mol −1 ) and forms discharge intermediate of C 33 H 16 CoN 8 O 2 . Besides high discharge capacity of 18724 mAh g −1 and robust cyclability over 1600 hours (1000 mAh g −1 cut‐off) at a current density of 100 mA g −1 , the batteries show high temperature adaptability (−30–80 °C). 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However, these batteries following Li 2 CO 3 ‐product route typically exhibit low work voltage (<2.5 V) and energy efficiency. Herein, we have demonstrated for the first time that cobalt phthalocyanine (CoPc) as homogeneous catalyst can elevate the work plateau towards 2.98 V, which is higher than its theoretical discharge voltage without changing the Li 2 CO 3 ‐product route. This unprecedented discharge voltage is illustrated by mass spectrum and electrochemical analyses that CoPc has powerful adsorption capability with CO 2 (−7.484 kJ mol −1 ) and forms discharge intermediate of C 33 H 16 CoN 8 O 2 . Besides high discharge capacity of 18724 mAh g −1 and robust cyclability over 1600 hours (1000 mAh g −1 cut‐off) at a current density of 100 mA g −1 , the batteries show high temperature adaptability (−30–80 °C). 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However, these batteries following Li 2 CO 3 ‐product route typically exhibit low work voltage (<2.5 V) and energy efficiency. Herein, we have demonstrated for the first time that cobalt phthalocyanine (CoPc) as homogeneous catalyst can elevate the work plateau towards 2.98 V, which is higher than its theoretical discharge voltage without changing the Li 2 CO 3 ‐product route. This unprecedented discharge voltage is illustrated by mass spectrum and electrochemical analyses that CoPc has powerful adsorption capability with CO 2 (−7.484 kJ mol −1 ) and forms discharge intermediate of C 33 H 16 CoN 8 O 2 . Besides high discharge capacity of 18724 mAh g −1 and robust cyclability over 1600 hours (1000 mAh g −1 cut‐off) at a current density of 100 mA g −1 , the batteries show high temperature adaptability (−30–80 °C). Our work is paving a promising avenue for the progress of high‐efficiency Li−CO 2 batteries.</abstract><doi>10.1002/ange.202407303</doi><orcidid>https://orcid.org/0000-0002-9924-2776</orcidid></addata></record>
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title	Elevating Discharge Voltage of Li 2 CO 3 ‐Routine Li−CO 2 Battery over 2.9 V at an Ultra‐Wide Temperature Window
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