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Olefin metathesis in air

Lorenzo Piola, Fady Nahra UGent and Steven Nolan UGent (2015) BEILSTEIN JOURNAL OF ORGANIC CHEMISTRY. 11. p.2038-2055
abstract
Since the discovery and now widespread use of olefin metathesis, the evolution of metathesis catalysts towards air stability has become an area of significant interest. In this fascinating area of study, beginning with early systems making use of high oxidation state early transition metal centers that required strict exclusion of water and air, advances have been made to render catalysts more stable and yet more functional group tolerant. This review summarizes the major developments concerning catalytic systems directed towards water and air tolerance.
Please use this url to cite or link to this publication:
author
organization
year
type
journalArticle (original)
publication status
published
subject
keyword
air stability, catalysis, olefin metathesis, RCM, ROMP, ruthenium, RING-CLOSING METATHESIS, N-HETEROCYCLIC CARBENES, ENOL-ESTER SYNTHESIS, RUTHENIUM-INDENYLIDENE COMPLEXES, TRANSFER RADICAL-ADDITION, SCHIFF-BASE LIGANDS, CROSS-METATHESIS, VINYLIDENE COMPLEXES, ALKENE METATHESIS, IMIDAZOLIN-2-YLIDENE LIGANDS
journal title
BEILSTEIN JOURNAL OF ORGANIC CHEMISTRY
Beilstein J. Org. Chem.
volume
11
pages
2038 - 2055
Web of Science type
Article
Web of Science id
000363741900001
JCR category
CHEMISTRY, ORGANIC
JCR impact factor
2.697 (2015)
JCR rank
20/59 (2015)
JCR quartile
2 (2015)
ISSN
1860-5397
DOI
10.3762/bjoc.11.221
language
English
UGent publication?
no
classification
A1
id
8168269
handle
http://hdl.handle.net/1854/LU-8168269
date created
2016-11-24 15:50:21
date last changed
2018-01-29 12:12:12
@article{8168269,
  abstract     = {Since the discovery and now widespread use of olefin metathesis, the evolution of metathesis catalysts towards air stability has become an area of significant interest. In this fascinating area of study, beginning with early systems making use of high oxidation state early transition metal centers that required strict exclusion of water and air, advances have been made to render catalysts more stable and yet more functional group tolerant. This review summarizes the major developments concerning catalytic systems directed towards water and air tolerance.},
  author       = {Piola, Lorenzo and Nahra, Fady and Nolan, Steven},
  issn         = {1860-5397},
  journal      = {BEILSTEIN JOURNAL OF ORGANIC CHEMISTRY},
  keyword      = {air stability,catalysis,olefin metathesis,RCM,ROMP,ruthenium,RING-CLOSING METATHESIS,N-HETEROCYCLIC CARBENES,ENOL-ESTER SYNTHESIS,RUTHENIUM-INDENYLIDENE COMPLEXES,TRANSFER RADICAL-ADDITION,SCHIFF-BASE LIGANDS,CROSS-METATHESIS,VINYLIDENE COMPLEXES,ALKENE METATHESIS,IMIDAZOLIN-2-YLIDENE LIGANDS},
  language     = {eng},
  pages        = {2038--2055},
  title        = {Olefin metathesis in air},
  url          = {http://dx.doi.org/10.3762/bjoc.11.221},
  volume       = {11},
  year         = {2015},
}

Chicago
Piola, Lorenzo, Fady Nahra, and Steven Nolan. 2015. “Olefin Metathesis in Air.” Beilstein Journal of Organic Chemistry 11: 2038–2055.
APA
Piola, L., Nahra, F., & Nolan, S. (2015). Olefin metathesis in air. BEILSTEIN JOURNAL OF ORGANIC CHEMISTRY, 11, 2038–2055.
Vancouver
1.
Piola L, Nahra F, Nolan S. Olefin metathesis in air. BEILSTEIN JOURNAL OF ORGANIC CHEMISTRY. 2015;11:2038–55.
MLA
Piola, Lorenzo, Fady Nahra, and Steven Nolan. “Olefin Metathesis in Air.” BEILSTEIN JOURNAL OF ORGANIC CHEMISTRY 11 (2015): 2038–2055. Print.