Authors
Xiajing Wei, Ziying Hong, Xiaoyu Fan, Songliang Gao, Hong Zhang, Guangfeng Kan, Yun Ju, Xiaofei Wang, Xihong Song, Ying Liu, Huimin Si, Jie Jiang, Kai Yu
Published in
Langmuir : the ACS journal of surfaces and colloids. Oct 21, 2025. Epub Oct 21, 2025.
Abstract
Conventional conversion of cyclohexane (CHA) to cyclohexanol and cyclohexanone (KA oil) requires special conditions involving high temperature, high pressure, complex catalysts, and long reaction time. This study elucidates efficient CHA oxidation to KA oil via an ultrasonic atomization microdroplet system with HCl and H2O2, identifying the microdroplet gas-liquid interface, rather than ultrasound, as the critical reaction milieu. Mass spectrometry (MS) and electron paramagnetic resonance (EPR) detection of cyclohexyl radical and •OH confirm a dominant interfacial free radical pathway initiated by •OH. Protons (H+) enhance interfacial •OH generation in water microdroplets while promoting H2O2 decomposition to •OH. The interfacial radical mechanism achieves 16.1% KA oil yield with 85% selectivity within 40 min and proves applicable to C5-C8 cycloalkanes. This work provides an environmentally benign alternative to conventional CHA oxidation while advancing fundamental knowledge of microdroplet-mediated interfacial C-H activation through radical mechanisms.
PMID:
41118582
Bibliographic data and abstract were imported from PubMed on 22 Oct 2025.
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