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From the same journal

Recent developments on the epoxidation of alkenes using hydrogen peroxide as an oxidant

Research output: Contribution to journalLiterature review

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Recent developments on the epoxidation of alkenes using hydrogen peroxide as an oxidant. / Grigoropoulou, G ; Clark, J H ; Elings, J A .

In: Green Chemistry, Vol. 5, No. 1, 2003, p. 17.

Research output: Contribution to journalLiterature review

Harvard

Grigoropoulou, G, Clark, JH & Elings, JA 2003, 'Recent developments on the epoxidation of alkenes using hydrogen peroxide as an oxidant', Green Chemistry, vol. 5, no. 1, pp. 17. https://doi.org/10.1039/b208925b

APA

Grigoropoulou, G., Clark, J. H., & Elings, J. A. (2003). Recent developments on the epoxidation of alkenes using hydrogen peroxide as an oxidant. Green Chemistry, 5(1), 17. https://doi.org/10.1039/b208925b

Vancouver

Grigoropoulou G, Clark JH, Elings JA. Recent developments on the epoxidation of alkenes using hydrogen peroxide as an oxidant. Green Chemistry. 2003;5(1):17. https://doi.org/10.1039/b208925b

Author

Grigoropoulou, G ; Clark, J H ; Elings, J A . / Recent developments on the epoxidation of alkenes using hydrogen peroxide as an oxidant. In: Green Chemistry. 2003 ; Vol. 5, No. 1. pp. 17.

Bibtex - Download

@article{ce51e2d1238c407db49df06f3722b28a,
title = "Recent developments on the epoxidation of alkenes using hydrogen peroxide as an oxidant",
abstract = "This paper reviews recent developments on the epoxidation of alkenes using hydrogen peroxide as an environmentally friendly oxidant. The activation of hydrogen peroxide takes place in the presence of a homogeneous metal catalyst such as tungten, manganese, iron and rhenium or through addition of stoichiometric amounts of auxiliaries, which convert hydrogen peroxide to a more active oxidant. Hydrogen peroxide has also been used with solids catalysts such as mixed oxides, redox zeolites, layered materials and supported metal catalysts. Heterogeneous catalysts, however, suffer generally from lower activity and stability compared to the homogeneous catalysts.",
keywords = "MAIN-GROUP ELEMENTS, CATALYZED EPOXIDATION, OLEFIN EPOXIDATION, ENANTIOSELECTIVE EPOXIDATION, UNFUNCTIONALIZED ALKENES, EFFICIENT EPOXIDATION, ALKYLRHENIUM OXIDES, PORPHYRIN COMPLEXES, SELECTIVE CATALYST, TRANSITION-METALS",
author = "G Grigoropoulou and Clark, {J H} and Elings, {J A}",
year = "2003",
doi = "10.1039/b208925b",
language = "English",
volume = "5",
pages = "17",
journal = "Green Chemistry",
issn = "1463-9270",
publisher = "Royal Society of Chemistry",
number = "1",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Recent developments on the epoxidation of alkenes using hydrogen peroxide as an oxidant

AU - Grigoropoulou, G

AU - Clark, J H

AU - Elings, J A

PY - 2003

Y1 - 2003

N2 - This paper reviews recent developments on the epoxidation of alkenes using hydrogen peroxide as an environmentally friendly oxidant. The activation of hydrogen peroxide takes place in the presence of a homogeneous metal catalyst such as tungten, manganese, iron and rhenium or through addition of stoichiometric amounts of auxiliaries, which convert hydrogen peroxide to a more active oxidant. Hydrogen peroxide has also been used with solids catalysts such as mixed oxides, redox zeolites, layered materials and supported metal catalysts. Heterogeneous catalysts, however, suffer generally from lower activity and stability compared to the homogeneous catalysts.

AB - This paper reviews recent developments on the epoxidation of alkenes using hydrogen peroxide as an environmentally friendly oxidant. The activation of hydrogen peroxide takes place in the presence of a homogeneous metal catalyst such as tungten, manganese, iron and rhenium or through addition of stoichiometric amounts of auxiliaries, which convert hydrogen peroxide to a more active oxidant. Hydrogen peroxide has also been used with solids catalysts such as mixed oxides, redox zeolites, layered materials and supported metal catalysts. Heterogeneous catalysts, however, suffer generally from lower activity and stability compared to the homogeneous catalysts.

KW - MAIN-GROUP ELEMENTS

KW - CATALYZED EPOXIDATION

KW - OLEFIN EPOXIDATION

KW - ENANTIOSELECTIVE EPOXIDATION

KW - UNFUNCTIONALIZED ALKENES

KW - EFFICIENT EPOXIDATION

KW - ALKYLRHENIUM OXIDES

KW - PORPHYRIN COMPLEXES

KW - SELECTIVE CATALYST

KW - TRANSITION-METALS

U2 - 10.1039/b208925b

DO - 10.1039/b208925b

M3 - Literature review

VL - 5

SP - 17

JO - Green Chemistry

JF - Green Chemistry

SN - 1463-9270

IS - 1

ER -