Author
Listed:
- Mingyue Lin
(East China University of Science and Technology
Shanghai Institute of Pollution Control and Ecological Security
Tokyo Metropolitan University)
- Haifeng Wang
(Tokyo Metropolitan University)
- Takashi Takei
(Tokyo Metropolitan University)
- Hiroki Miura
(Tokyo Metropolitan University
Tokyo Metropolitan University
Kyoto University)
- Tetsuya Shishido
(Tokyo Metropolitan University
Tokyo Metropolitan University
Kyoto University)
- Yuhang Li
(East China University of Science and Technology)
- Jinneng Hu
(East China University of Science and Technology)
- Yusuke Inomata
(Kumamoto University)
- Tamao Ishida
(Tokyo Metropolitan University)
- Masatake Haruta
(Tokyo Metropolitan University)
- Guangli Xiu
(East China University of Science and Technology)
- Toru Murayama
(Tokyo Metropolitan University
Yantai University)
Abstract
Efficient ethylene (C2H4) removal below room temperatures, especially near 0 °C, is of great importance to suppress that the vegetables and fruits spoil during cold-chain transportation and storage. However, no catalysts have been developed to fulfill the longer-than-2-h C2H4 removal at this low temperature effectively. Here we prepare gold-platinum (Au-Pt) nanoalloy catalysts that show robust C2H4 (of 50 ppm) removal capacity at 0 °C for 15 days (360 h). We find, by virtue of operando Fourier transformed infrared spectroscopy and online temperature-programmed desorption equipped mass spectrometry, that the Au-Pt nanoalloys favor the formation of acetate from selective C2H4 oxidation. And this on-site-formed acetate intermediate would partially cover the catalyst surface at 0 °C, thus exposing active sites to prolong the continuous and effective C2H4 removal. We also demonstrate, by heat treatment, that the performance of the used catalysts will be fully recovered for at least two times.
Suggested Citation
Mingyue Lin & Haifeng Wang & Takashi Takei & Hiroki Miura & Tetsuya Shishido & Yuhang Li & Jinneng Hu & Yusuke Inomata & Tamao Ishida & Masatake Haruta & Guangli Xiu & Toru Murayama, 2023.
"Selective formation of acetate intermediate prolongs robust ethylene removal at 0 °C for 15 days,"
Nature Communications, Nature, vol. 14(1), pages 1-8, December.
Handle:
RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-38686-0
DOI: 10.1038/s41467-023-38686-0
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