Highly crumpled nanocarbons as efficient metal-free electrocatalysts for zinc-air batteries

Yukun Xiao; Zhihua Cheng; Yang Zhao; Liangti Qu

doi:10.1039/c8nr04068k

Highly crumpled nanocarbons as efficient metal-free electrocatalysts for zinc-air batteries

Yukun Xiao, Zhihua Cheng, Yang Zhao^*, Liangti Qu

^*Corresponding author for this work

Ministry of Education in China

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

The rational design of an efficient and robust oxygen reduction reaction (ORR) electrocatalyst is vital for energy conversion and storage systems, especially for metal-air batteries. Herein, we report a highly nanocrumpled and nitrogen, phosphorus-codoped nanocarbon (NC-NPC) synthesized by direct pyrolysis of melamine and triphenylphosphine. With the rich nano-crumpled structure and codoping of heteroatoms, this low-cost catalyst exhibits an excellent ORR performance, and possesses a half-wave potential of 0.84 V vs. RHE, a small Tafel slope of 70.2 mV dec^-1, and good electrocatalytic stability. More importantly, it can also be applied in zinc-air batteries as an efficient electrode which delivers an open-circle voltage of 1.38 V, a specific capacity of 782 mA h g_Zn ^-1, and a long cycling life of 210 h, superior to the commercial Pt/C catalyst.

Original language	English
Pages (from-to)	15706-15713
Number of pages	8
Journal	Nanoscale
Volume	10
Issue number	33
DOIs	https://doi.org/10.1039/c8nr04068k
Publication status	Published - 7 Sept 2018
Externally published	Yes

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title = "Highly crumpled nanocarbons as efficient metal-free electrocatalysts for zinc-air batteries",

abstract = "The rational design of an efficient and robust oxygen reduction reaction (ORR) electrocatalyst is vital for energy conversion and storage systems, especially for metal-air batteries. Herein, we report a highly nanocrumpled and nitrogen, phosphorus-codoped nanocarbon (NC-NPC) synthesized by direct pyrolysis of melamine and triphenylphosphine. With the rich nano-crumpled structure and codoping of heteroatoms, this low-cost catalyst exhibits an excellent ORR performance, and possesses a half-wave potential of 0.84 V vs. RHE, a small Tafel slope of 70.2 mV dec-1, and good electrocatalytic stability. More importantly, it can also be applied in zinc-air batteries as an efficient electrode which delivers an open-circle voltage of 1.38 V, a specific capacity of 782 mA h gZn -1, and a long cycling life of 210 h, superior to the commercial Pt/C catalyst.",

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AU - Xiao, Yukun

AU - Cheng, Zhihua

AU - Zhao, Yang

AU - Qu, Liangti

PY - 2018/9/7

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N2 - The rational design of an efficient and robust oxygen reduction reaction (ORR) electrocatalyst is vital for energy conversion and storage systems, especially for metal-air batteries. Herein, we report a highly nanocrumpled and nitrogen, phosphorus-codoped nanocarbon (NC-NPC) synthesized by direct pyrolysis of melamine and triphenylphosphine. With the rich nano-crumpled structure and codoping of heteroatoms, this low-cost catalyst exhibits an excellent ORR performance, and possesses a half-wave potential of 0.84 V vs. RHE, a small Tafel slope of 70.2 mV dec-1, and good electrocatalytic stability. More importantly, it can also be applied in zinc-air batteries as an efficient electrode which delivers an open-circle voltage of 1.38 V, a specific capacity of 782 mA h gZn -1, and a long cycling life of 210 h, superior to the commercial Pt/C catalyst.

AB - The rational design of an efficient and robust oxygen reduction reaction (ORR) electrocatalyst is vital for energy conversion and storage systems, especially for metal-air batteries. Herein, we report a highly nanocrumpled and nitrogen, phosphorus-codoped nanocarbon (NC-NPC) synthesized by direct pyrolysis of melamine and triphenylphosphine. With the rich nano-crumpled structure and codoping of heteroatoms, this low-cost catalyst exhibits an excellent ORR performance, and possesses a half-wave potential of 0.84 V vs. RHE, a small Tafel slope of 70.2 mV dec-1, and good electrocatalytic stability. More importantly, it can also be applied in zinc-air batteries as an efficient electrode which delivers an open-circle voltage of 1.38 V, a specific capacity of 782 mA h gZn -1, and a long cycling life of 210 h, superior to the commercial Pt/C catalyst.

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Highly crumpled nanocarbons as efficient metal-free electrocatalysts for zinc-air batteries

Abstract

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