Solvent and additive-free selective aerobic allylic hydroxylation of β-pinene catalyzed by metalloporphyrins

Metallodeuteroporphyrins(MDPs) were employed as the catalysts for aerobic oxidation of β-pinene in absence of solvents and additives. Allylic hydroxylation products were found to be the main products from this protocol. The catalytic activity of MDPs with different metal nuclei and the influences of...

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Published inChinese chemical letters Vol. 28; no. 3; pp. 575 - 578
Main Authors Xu, Shi-Chao, Zhu, Shou-Ji, Bi, Liang-Wu, Chen, Yu-Xiang, Wang, Jing, Lu, Yan-Ju, Gu, Yan, Zhao, Zhen-Dong
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.03.2017
Subjects
Aerobic allylic hydroxylation
Biomimetic catalysis
Metalloporphyrin
Turpentine transformation
β-Pinene
Metalloporphyrin
Turpentine transformation
β-Pinene
Aerobic allylic hydroxylation
Biomimetic catalysis
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Abstract Metallodeuteroporphyrins(MDPs) were employed as the catalysts for aerobic oxidation of β-pinene in absence of solvents and additives. Allylic hydroxylation products were found to be the main products from this protocol. The catalytic activity of MDPs with different metal nuclei and the influences of technological conditions on this reaction were investigated. This catalytic system has bright application prospect since only eco-friendly and readily available dioxygen were needed.
AbstractList Metallodeuteroporphyrins(MDPs) were employed as the catalysts for aerobic oxidation of β-pinene in absence of solvents and additives. Allylic hydroxylation products were found to be the main products from this protocol. The catalytic activity of MDPs with different metal nuclei and the influences of technological conditions on this reaction were investigated. This catalytic system has bright application prospect since only eco-friendly and readily available dioxygen were needed.
[Display omitted] An efficient MPs catalyzed aerobic oxidation method of β-pinene was established. Allylic hydroxylation products could be obtained in high selectivity. Metallodeuteroporphyrins (MDPs) were employed as the catalysts for aerobic oxidation of β-pinene in absence of solvents and additives. Allylic hydroxylation products were found to be the main products from this protocol. The catalytic activity of MDPs with different metal nuclei and the influences of technological conditions on this reaction were investigated. This catalytic system has bright application prospect since only eco-friendly and readily available dioxygen were needed.
Author Shi-Chao Xu Shou-Ji Zhu Liang-Wu Bi Yu-Xiang Chen Jing Wang Yan-Ju Lu Yan Gu Zhen-Dong Zhao
AuthorAffiliation Institute of Chemical Industry of Forest Products, Chinese Academy of Forestry, Nanjing 210042, China Key Lab. of Biomass Energy and Material, Jiangsu Province, Nanjing 210042, China National Engineering Lab. for Biomass Chemical Utilization, Nanjing 210042, China Key and Open Lab. on Forest Chemical Engineering, State Forestry Administration, Nanjing 210042, China Institute of Forestry New Technology, Chinese Academy of Forestry, Beijing, 100091, China 2011 Collaborative Innovation Center of Jiangxi Typical Trees Cultivation and Utilization in Jiangni Agricultural University, Nanchang, 330045, China
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Keywords Metalloporphyrin
Turpentine transformation
β-Pinene
Aerobic allylic hydroxylation
Biomimetic catalysis
Language English
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Notes 11-2710/O6
Turpentine transformatio β-Pinene Metalloporphyrin Biomimetic catalysis Aerobic allylic hydroxylation
Metallodeuteroporphyrins(MDPs) were employed as the catalysts for aerobic oxidation of β-pinene in absence of solvents and additives. Allylic hydroxylation products were found to be the main products from this protocol. The catalytic activity of MDPs with different metal nuclei and the influences of technological conditions on this reaction were investigated. This catalytic system has bright application prospect since only eco-friendly and readily available dioxygen were needed.
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Snippet Metallodeuteroporphyrins(MDPs) were employed as the catalysts for aerobic oxidation of β-pinene in absence of solvents and additives. Allylic hydroxylation...
[Display omitted] An efficient MPs catalyzed aerobic oxidation method of β-pinene was established. Allylic hydroxylation products could be obtained in high...
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elsevier
chongqing
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StartPage 575
SubjectTerms Aerobic allylic hydroxylation
Biomimetic catalysis
Metalloporphyrin
Turpentine transformation
β-Pinene
Title Solvent and additive-free selective aerobic allylic hydroxylation of β-pinene catalyzed by metalloporphyrins
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https://dx.doi.org/10.1016/j.cclet.2016.11.020
Volume 28
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