Photoswitchable catalysis based on the isomerisation of double bonds

Ruth Dorel; Ben L. Feringa

doi:10.1039/c9cc01891c

Photoswitchable catalysis based on the isomerisation of double bonds

Ruth Dorel, Ben L. Feringa^*

^*Corresponding author voor dit werk

Onderzoeksoutput: Review article › peer review

130 Citaten (Scopus)

216 Downloads (Pure)

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Photoswitchable catalysis is a young but rapidly evolving field that offers great potential for non-invasive dynamic control of both activity and selectivity in catalysis. Within this context, the E/Z photoisomerisation of double bonds in molecular switches and motors is one of the most popular tools to control the catalytic activity essentially due to its reversible nature, the large concomitant geometrical changes, and the high tunability of such photochromic entities. This Feature Article summarises the key developments accomplished over the past years through the incorporation of photoswitchable double bonds into the structure of catalytically competent molecules and shows some perspectives on the remaining challenges and possibilities arising from this, yet still somehow immature, exciting area of research.

Originele taal-2	English
Pagina's (van-tot)	6477-6486
Aantal pagina's	10
Tijdschrift	Chemical Communications
Volume	55
Nummer van het tijdschrift	46
DOI's	https://doi.org/10.1039/c9cc01891c
Status	Published - 11-jun.-2019

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10.1039/c9cc01891cLicentie: CC BY-NC

Photoswitchable catalysis based on the isomerisation of double bondsFinal publisher's version, 4,76 MBLicentie: CC BY-NC

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title = "Photoswitchable catalysis based on the isomerisation of double bonds",

abstract = "Photoswitchable catalysis is a young but rapidly evolving field that offers great potential for non-invasive dynamic control of both activity and selectivity in catalysis. Within this context, the E/Z photoisomerisation of double bonds in molecular switches and motors is one of the most popular tools to control the catalytic activity essentially due to its reversible nature, the large concomitant geometrical changes, and the high tunability of such photochromic entities. This Feature Article summarises the key developments accomplished over the past years through the incorporation of photoswitchable double bonds into the structure of catalytically competent molecules and shows some perspectives on the remaining challenges and possibilities arising from this, yet still somehow immature, exciting area of research.",

keywords = "PHOTORESPONSIVE CROWN-ETHERS, RING-OPENING POLYMERIZATION, DRIVEN MOLECULAR MOTORS, DYNAMIC CONTROL, SUPRAMOLECULAR CATALYSIS, MICHAEL ADDITION, ION EXTRACTION, LIGHT, AZOBENZENE, PHOTOCONTROL",

author = "Ruth Dorel and Feringa, \{Ben L.\}",

year = "2019",

month = jun,

day = "11",

doi = "10.1039/c9cc01891c",

language = "English",

volume = "55",

pages = "6477--6486",

journal = "Chemical Communications",

issn = "1359-7345",

publisher = "ROYAL SOC CHEMISTRY",

number = "46",

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TY - JOUR

T1 - Photoswitchable catalysis based on the isomerisation of double bonds

AU - Dorel, Ruth

AU - Feringa, Ben L.

PY - 2019/6/11

Y1 - 2019/6/11

N2 - Photoswitchable catalysis is a young but rapidly evolving field that offers great potential for non-invasive dynamic control of both activity and selectivity in catalysis. Within this context, the E/Z photoisomerisation of double bonds in molecular switches and motors is one of the most popular tools to control the catalytic activity essentially due to its reversible nature, the large concomitant geometrical changes, and the high tunability of such photochromic entities. This Feature Article summarises the key developments accomplished over the past years through the incorporation of photoswitchable double bonds into the structure of catalytically competent molecules and shows some perspectives on the remaining challenges and possibilities arising from this, yet still somehow immature, exciting area of research.

AB - Photoswitchable catalysis is a young but rapidly evolving field that offers great potential for non-invasive dynamic control of both activity and selectivity in catalysis. Within this context, the E/Z photoisomerisation of double bonds in molecular switches and motors is one of the most popular tools to control the catalytic activity essentially due to its reversible nature, the large concomitant geometrical changes, and the high tunability of such photochromic entities. This Feature Article summarises the key developments accomplished over the past years through the incorporation of photoswitchable double bonds into the structure of catalytically competent molecules and shows some perspectives on the remaining challenges and possibilities arising from this, yet still somehow immature, exciting area of research.

KW - PHOTORESPONSIVE CROWN-ETHERS

KW - RING-OPENING POLYMERIZATION

KW - DRIVEN MOLECULAR MOTORS

KW - DYNAMIC CONTROL

KW - SUPRAMOLECULAR CATALYSIS

KW - MICHAEL ADDITION

KW - ION EXTRACTION

KW - LIGHT

KW - AZOBENZENE

KW - PHOTOCONTROL

U2 - 10.1039/c9cc01891c

DO - 10.1039/c9cc01891c

M3 - Review article

SN - 1359-7345

VL - 55

SP - 6477

EP - 6486

JO - Chemical Communications

JF - Chemical Communications

IS - 46

ER -

Photoswitchable catalysis based on the isomerisation of double bonds

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