Reaction discovery using acetylene gas as the chemical feedstock accelerated by the "stop-flow" micro-tubing reactor system

10.1039/c7sc00408g

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Main Authors: Xue F., Deng H., Xue C., Mohamed D.K.B., Tang K.Y., Wu J.
Other Authors: DEPT OF CHEMISTRY
Format: Article
Published: Royal Society of Chemistry 2020
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Online Access:https://scholarbank.nus.edu.sg/handle/10635/174900
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-1749002023-09-14T22:40:47Z Reaction discovery using acetylene gas as the chemical feedstock accelerated by the "stop-flow" micro-tubing reactor system Xue F. Deng H. Xue C. Mohamed D.K.B. Tang K.Y. Wu J. DEPT OF CHEMISTRY Acetylene Feedstocks Lighting Styrene Tubing Acetylene gas Chemical feedstocks Micro-flow Reactor prototype Reactor systems Redox condition Terminal alkyne Transition metal catalysis Batch reactors 10.1039/c7sc00408g Chemical Science 8 5 3623-3627 2020-09-09T01:20:27Z 2020-09-09T01:20:27Z 2017 Article Xue F., Deng H., Xue C., Mohamed D.K.B., Tang K.Y., Wu J. (2017). Reaction discovery using acetylene gas as the chemical feedstock accelerated by the "stop-flow" micro-tubing reactor system. Chemical Science 8 (5) : 3623-3627. ScholarBank@NUS Repository. https://doi.org/10.1039/c7sc00408g 20416520 https://scholarbank.nus.edu.sg/handle/10635/174900 Royal Society of Chemistry Unpaywall 20200831
institution National University of Singapore
building NUS Library
continent Asia
country Singapore
Singapore
content_provider NUS Library
collection ScholarBank@NUS
topic Acetylene
Feedstocks
Lighting
Styrene
Tubing
Acetylene gas
Chemical feedstocks
Micro-flow
Reactor prototype
Reactor systems
Redox condition
Terminal alkyne
Transition metal catalysis
Batch reactors
spellingShingle Acetylene
Feedstocks
Lighting
Styrene
Tubing
Acetylene gas
Chemical feedstocks
Micro-flow
Reactor prototype
Reactor systems
Redox condition
Terminal alkyne
Transition metal catalysis
Batch reactors
Xue F.
Deng H.
Xue C.
Mohamed D.K.B.
Tang K.Y.
Wu J.
Reaction discovery using acetylene gas as the chemical feedstock accelerated by the "stop-flow" micro-tubing reactor system
description 10.1039/c7sc00408g
author2 DEPT OF CHEMISTRY
author_facet DEPT OF CHEMISTRY
Xue F.
Deng H.
Xue C.
Mohamed D.K.B.
Tang K.Y.
Wu J.
format Article
author Xue F.
Deng H.
Xue C.
Mohamed D.K.B.
Tang K.Y.
Wu J.
author_sort Xue F.
title Reaction discovery using acetylene gas as the chemical feedstock accelerated by the "stop-flow" micro-tubing reactor system
title_short Reaction discovery using acetylene gas as the chemical feedstock accelerated by the "stop-flow" micro-tubing reactor system
title_full Reaction discovery using acetylene gas as the chemical feedstock accelerated by the "stop-flow" micro-tubing reactor system
title_fullStr Reaction discovery using acetylene gas as the chemical feedstock accelerated by the "stop-flow" micro-tubing reactor system
title_full_unstemmed Reaction discovery using acetylene gas as the chemical feedstock accelerated by the "stop-flow" micro-tubing reactor system
title_sort reaction discovery using acetylene gas as the chemical feedstock accelerated by the "stop-flow" micro-tubing reactor system
publisher Royal Society of Chemistry
publishDate 2020
url https://scholarbank.nus.edu.sg/handle/10635/174900
_version_ 1778169801071394816