Highly dispersed La−O/N−C sites anchored in hierarchically porous nitrogen-doped carbon as bifunctional catalysts for high-performance rechargeable Zn−air batteries

Bi, Zenghui; Zhang, Hua; Zhao, Xue; Wang, Yuwen; Tan, Fang; Chen, Songqing; Feng, Ligang; Zhou, Yingtang; Ma, Xin; Su, Zhi; Wang, Xinzhong; Wågberg, Thomas; Hu, Guangzhi

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Highly dispersed La−O/N−C sites anchored in hierarchically porous nitrogen-doped carbon as bifunctional catalysts for high-performance rechargeable Zn−air batteries

Bi, Zenghui

School of Materials and Energy, Institute for Ecological Research and Pollution Control of Plateau Lakes, School of Ecology and Environmental Science, Yunnan University, Kunming, China.

Zhang, Hua

School of Materials and Energy, Institute for Ecological Research and Pollution Control of Plateau Lakes, School of Ecology and Environmental Science, Yunnan University, Kunming, China.

Zhao, Xue

School of Materials and Energy, Institute for Ecological Research and Pollution Control of Plateau Lakes, School of Ecology and Environmental Science, Yunnan University, Kunming, China.

Wang, Yuwen

School of Materials and Energy, Institute for Ecological Research and Pollution Control of Plateau Lakes, School of Ecology and Environmental Science, Yunnan University, Kunming, China.

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2023 (Engelska)Ingår i: Energy Storage Materials, ISSN 2405-8289, E-ISSN 2405-8297, Vol. 54, s. 313-322Artikel i tidskrift (Refereegranskat) Published

Abstract [en]

Inexpensive, high-activity bifunctional catalysts for the oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) are imperative for the development of energy storage and conversion systems. A nitrogen-doped carbon material with a micro−meso−macroporous structure doped with La (LaPNC) containing La−O/N−C active sites is prepared using SiO₂particle templating of carbon and a metal node exchange strategy. The coordination environment of La sites stabilized by two oxygen and four nitrogen atoms (LaO₂N₄), is further verified by X-ray absorption spectroscopy. The ORR half-wave potential reaches 0.852 V, and the OER overpotential reaches 263 mV at 10 mA cm⁻². The Zn−air battery, with LaPNC as the air cathode, has a maximum power density of 202 mW cm⁻² and achieves stable charge−discharge for at least 100 h without a significant increase or decrease in the charge or discharge voltages, respectively. Density functional theory calculations suggest that LaO₂N₄ sites exhibit the lowest activation free energy and the most easily desorbed oxygen capacity. This study provides new insights into the design of efficient, durable bifunctional catalysts as alternatives to precious-metal-based catalysts.

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Elsevier, 2023. Vol. 54, s. 313-322

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Micro−meso−macroporous structure, Oxygen evolution reaction, Oxygen reduction reaction, Single-atom catalyst, Zn−air battery

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URN: urn:nbn:se:umu:diva-213601DOI: 10.1016/j.ensm.2022.10.045ISI: 000882427400001Scopus ID: 2-s2.0-85143809055OAI: oai:DiVA.org:umu-213601DiVA, id: diva2:1793043

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VetenskapsrådetTillgänglig från: 2023-08-31 Skapad: 2023-08-31 Senast uppdaterad: 2023-08-31Bibliografiskt granskad

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Bi, Zenghui

Zhang, Hua

Zhao, Xue

Wang, Yuwen

Tan, Fang

Chen, Songqing

Feng, Ligang

Zhou, Yingtang

Ma, Xin

Su, Zhi

Wang, Xinzhong

Wågberg, Thomas

Hu, Guangzhi

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