Converting n‑Alkanol to Conjugated Polyenal on Cu(110) Surface at Mild Temperature

Achieving C­(sp3)–H activation at a mild temperature is of great importance from both scientific and technologic points of view. Herein, on the basis of the on-surface synthesis strategy, we report the significant reduction of the C­(sp3)–H activation barrier, which results in the full C­(sp3)–H to...

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Published in:The journal of physical chemistry letters 2022-04, Vol.13 (14), p.3276-3282
Main Authors: Hao, Zhengming, Peng, Guyue, Wang, Lina, Li, Xuechao, Liu, Ye, Xu, Chaojie, Niu, Kaifeng, Ding, Honghe, Hu, Jun, Zhang, Liang, Dong, Bin, Zhang, Haiming, Zhu, Junfa, Chi, Lifeng
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Physical Insights into Chemistry, Catalysis, and Interfaces
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cited_by cdi_FETCH-LOGICAL-a383t-97fc3dc7b11479069323c1ed6bf06df04a8803d4ec84cc882578b02b73839d223
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container_issue 14
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container_title The journal of physical chemistry letters
container_volume 13
creator Hao, Zhengming
Peng, Guyue
Wang, Lina
Li, Xuechao
Liu, Ye
Xu, Chaojie
Niu, Kaifeng
Ding, Honghe
Hu, Jun
Zhang, Liang
Dong, Bin
Zhang, Haiming
Zhu, Junfa
Chi, Lifeng
description Achieving C­(sp3)–H activation at a mild temperature is of great importance from both scientific and technologic points of view. Herein, on the basis of the on-surface synthesis strategy, we report the significant reduction of the C­(sp3)–H activation barrier, which results in the full C­(sp3)–H to C­(sp2)–H transformation of n-alkanol (octacosan-1-ol) at a mild temperature as low as 350 K on the Cu(110) surface, yielding the conjugated polyenal (octacosa-tridecaenal) as the final product. The reaction mechanism is revealed by the combined scanning tunneling microscope, density functional theory, and synchrotron radiation photoemission spectroscopy.
doi_str_mv 10.1021/acs.jpclett.2c00369
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title Converting n‑Alkanol to Conjugated Polyenal on Cu(110) Surface at Mild Temperature
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