From "waste to gold": A one-pot method to synthesize ultrafinely dispersed Fe2O3-based nanoparticles on N-doped carbon for synergistic and efficient water splitting

Diefeng Su; Jing Wang; Haiyan Jin; Yutong Gong; Mingming Li; Zhenfeng Pang; Yong Wang

doi:10.1039/c5ta02217g

From "waste to gold": A one-pot method to synthesize ultrafinely dispersed Fe₂O₃-based nanoparticles on N-doped carbon for synergistic and efficient water splitting

Diefeng Su, Jing Wang, Haiyan Jin, Yutong Gong, Mingming Li, Zhenfeng Pang, Yong Wang^*

^*Corresponding author for this work

Zhejiang University

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

59 Citations (Scopus)

Abstract

We report a novel, simple, and one-pot method for the synthesis of ultrafinely dispersed iron oxide based nanoparticles (NPs) embedded in a nitrogen doped carbon matrix (denoted as Fe₂O₃/Fe@CN). A well-designed iron oxide based hybrid that demonstrates high activity and excellent durability for the HER in alkaline solution has been reported for the first time. The catalyst displays a small Tafel slope of 114 mV per decade and good electrocatalytic stability for 30000 seconds. Detailed electrochemical and physical studies indicate that the high HER activity of the hybrid catalyst results from the strong interaction between Fe-based NPs and N-doped graphitic carbon, and especially the synergistic effect of Fe and Fe₂O₃.

Original language	English
Pages (from-to)	11756-11761
Number of pages	6
Journal	Journal of Materials Chemistry A
Volume	3
Issue number	22
DOIs	https://doi.org/10.1039/c5ta02217g
Publication status	Published - 14 Jun 2015
Externally published	Yes

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abstract = "We report a novel, simple, and one-pot method for the synthesis of ultrafinely dispersed iron oxide based nanoparticles (NPs) embedded in a nitrogen doped carbon matrix (denoted as Fe2O3/Fe@CN). A well-designed iron oxide based hybrid that demonstrates high activity and excellent durability for the HER in alkaline solution has been reported for the first time. The catalyst displays a small Tafel slope of 114 mV per decade and good electrocatalytic stability for 30000 seconds. Detailed electrochemical and physical studies indicate that the high HER activity of the hybrid catalyst results from the strong interaction between Fe-based NPs and N-doped graphitic carbon, and especially the synergistic effect of Fe and Fe2O3.",

author = "Diefeng Su and Jing Wang and Haiyan Jin and Yutong Gong and Mingming Li and Zhenfeng Pang and Yong Wang",

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T2 - A one-pot method to synthesize ultrafinely dispersed Fe2O3-based nanoparticles on N-doped carbon for synergistic and efficient water splitting

AU - Su, Diefeng

AU - Wang, Jing

AU - Jin, Haiyan

AU - Gong, Yutong

AU - Li, Mingming

AU - Pang, Zhenfeng

AU - Wang, Yong

PY - 2015/6/14

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N2 - We report a novel, simple, and one-pot method for the synthesis of ultrafinely dispersed iron oxide based nanoparticles (NPs) embedded in a nitrogen doped carbon matrix (denoted as Fe2O3/Fe@CN). A well-designed iron oxide based hybrid that demonstrates high activity and excellent durability for the HER in alkaline solution has been reported for the first time. The catalyst displays a small Tafel slope of 114 mV per decade and good electrocatalytic stability for 30000 seconds. Detailed electrochemical and physical studies indicate that the high HER activity of the hybrid catalyst results from the strong interaction between Fe-based NPs and N-doped graphitic carbon, and especially the synergistic effect of Fe and Fe2O3.

AB - We report a novel, simple, and one-pot method for the synthesis of ultrafinely dispersed iron oxide based nanoparticles (NPs) embedded in a nitrogen doped carbon matrix (denoted as Fe2O3/Fe@CN). A well-designed iron oxide based hybrid that demonstrates high activity and excellent durability for the HER in alkaline solution has been reported for the first time. The catalyst displays a small Tafel slope of 114 mV per decade and good electrocatalytic stability for 30000 seconds. Detailed electrochemical and physical studies indicate that the high HER activity of the hybrid catalyst results from the strong interaction between Fe-based NPs and N-doped graphitic carbon, and especially the synergistic effect of Fe and Fe2O3.

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From "waste to gold": A one-pot method to synthesize ultrafinely dispersed Fe₂O₃-based nanoparticles on N-doped carbon for synergistic and efficient water splitting

Abstract

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