Pd–Fe bimetallic nanoparticles anchored on N‑doped carbon‑modified graphene for efficient catalytic organic reactions
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서지정보
ㆍ발행기관 : 한국탄소학회
ㆍ수록지정보 : Carbon letters / 33권 / 1호
ㆍ저자명 : Yue Zhang, Jie Huang, Zixuan Dong, Yu Zhan, Jiangbo Xi, Jian Xiao, Shaohua Huang, Fan Tian
ㆍ저자명 : Yue Zhang, Jie Huang, Zixuan Dong, Yu Zhan, Jiangbo Xi, Jian Xiao, Shaohua Huang, Fan Tian
목차
AbstractGraphic abstract
1 Introduction
2 Experimental section
2.1 Preparation of catalyst
2.2 Catalysis study of Pd–FeG@NC for nitroarene reduction
2.3 Catalysis study of Pd–FeG@NC for furfuraldehyde oxidation
3 Results and discussion
3.1 Preparation process of Pd–FeG@NC catalyst
3.2 Characterizations of Pd–FeG@NC catalyst
3.3 Catalytic activity of Pd–FeG@NC for nitroarene reduction reaction
3.4 Catalytic activity of Pd–FeG@NC for furfuraldehyde oxidation reaction
4 Conclusions
Acknowledgements
References
영어 초록
A promising approach to enhance catalytic performance of supported heterogeneous nano-metal catalysts is to uniformly disperse active nanoparticles on the support. In this work, N-doped carbon-modified graphene (G@NC) nanosheet is designed and prepared to anchor Pd–Fe bimetallic nanoparticles (Pd–Fe/G@NC). The N-doped carbon modification on graphene surface could construct a sandwich-like structure (G@NC), which not only prevented the re-stacking of graphene nanosheets but also provided confined space for stable anchoring of bimetallic Pd–Fe nanoparticles. Benefitted from the unique structural property and synergetic effect of metal Pd and Fe species, the as-obtained Pd–Fe/G@NC composite displays excellent catalytic activity toward 4-nitrophenol reduction reaction with a turnover frequency of 613.2 min− 1, which is far superior to that of the mono-metal counterparts (Fe/G@NC and Pd/G@NC). More importantly, Pd–Fe/G@NC catalyst also exhibits favorable catalytic performance in the reduction of other nitroaromatic compounds (nitrobenzene, 4-nitrotoluene, 4-chloronitrobenzene, and so on). In addition, Pd–Fe/G@NC can catalyze the oxidation of furfuraldehyde to furoic acid with a high yield of 88.64%. This work provides a new guide for rationally designing and developing advanced supported heterogeneous bimetallic catalyst.참고 자료
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