A high-performance electrocatalyst for oxygen reduction derived from copolymer-anchored polyoxometalates

The development and synthesis of cathode electrocatalysts with high activity and durable stability for metal-air batteries is an important challenge in the area of electrocatalysis. Herein, we introduce a novel in-situ nitriding and phosphating strategy for producing W 3 N 4 and WP from phosphotungs...

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Veröffentlicht in:	Nano research 2024-06, Vol.17 (6), p.5197-5205
Hauptverfasser:	Du, Yue, Chen, Wenxue, Zhong, Zhiyi, Shi, Zhixian, Zhang, Yulin, Chen, Xuanning, Liu, Yisi, Xiong, Dongbin, Zhou, Lina, Liu, Zhenhui, Zheng, Mingbo
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Sprache:	eng
Schlagworte:	Atomic/Molecular Structure and Spectra Biomedicine Biotechnology Carbon Cathodes Chemical reduction Chemical synthesis Chemistry and Materials Science Condensed Matter Physics Copolymers Electrocatalysis Electrocatalysts Electrolytes Energy Heterostructures Materials Science Metal air batteries Nanomaterials Nanotechnology Oxygen reduction reactions Phosphating (coating) Phytic acid Polyanilines Polyoxometallates Porous materials Research Article Stability
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container_title	Nano research
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creator	Du, Yue Chen, Wenxue Zhong, Zhiyi Shi, Zhixian Zhang, Yulin Chen, Xuanning Liu, Yisi Xiong, Dongbin Zhou, Lina Liu, Zhenhui Zheng, Mingbo
description	The development and synthesis of cathode electrocatalysts with high activity and durable stability for metal-air batteries is an important challenge in the area of electrocatalysis. Herein, we introduce a novel in-situ nitriding and phosphating strategy for producing W 3 N 4 and WP from phosphotungstic acid (HPW)-polyaniline-phytic acid-Fe 3+ organic–inorganic hybrid material. The final material has a three-dimensional porous framework with W 3 N 4 -WP heterostructures embedded in the carbon matrix (W 3 N 4 -WP@NPC). As-made materials exhibit exceptional electrocatalytic performance for the oxygen reduction reaction (ORR), with a diffusion-limiting current density of 6.9 mA·cm −2 and a half-wave potential of 0.82 V. As a Zn-air primary cathode, the W 3 N 4 -WP@NPC assembled battery can provide a relatively high peak power density (194.2 mW·cm −2 ). As a Zn-air secondary air-cathode, it has great cycling stability over 500 h. This work provides a simple and efficient method for rationally designing high-performance air cathodes from copolymer-anchored polyoxometalates.
doi_str_mv	10.1007/s12274-024-6459-y
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Herein, we introduce a novel in-situ nitriding and phosphating strategy for producing W 3 N 4 and WP from phosphotungstic acid (HPW)-polyaniline-phytic acid-Fe 3+ organic–inorganic hybrid material. The final material has a three-dimensional porous framework with W 3 N 4 -WP heterostructures embedded in the carbon matrix (W 3 N 4 -WP@NPC). As-made materials exhibit exceptional electrocatalytic performance for the oxygen reduction reaction (ORR), with a diffusion-limiting current density of 6.9 mA·cm −2 and a half-wave potential of 0.82 V. As a Zn-air primary cathode, the W 3 N 4 -WP@NPC assembled battery can provide a relatively high peak power density (194.2 mW·cm −2 ). As a Zn-air secondary air-cathode, it has great cycling stability over 500 h. 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subjects	Atomic/Molecular Structure and Spectra Biomedicine Biotechnology Carbon Cathodes Chemical reduction Chemical synthesis Chemistry and Materials Science Condensed Matter Physics Copolymers Electrocatalysis Electrocatalysts Electrolytes Energy Heterostructures Materials Science Metal air batteries Nanomaterials Nanotechnology Oxygen reduction reactions Phosphating (coating) Phytic acid Polyanilines Polyoxometallates Porous materials Research Article Stability
title	A high-performance electrocatalyst for oxygen reduction derived from copolymer-anchored polyoxometalates
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