With or without a co-solvent? highly efficient ultrafast phenanthrenequinone-electron rich alkene (PQ-ERA) photoclick reactions

Anna M. Doze; Youxin Fu; Mariangela Di Donato; Michiel F. Hilbers; Gert Luurtsema; Philip H. Elsinga; Wybren Jan Buma; Wiktor Szymanski; Ben L. Feringa

doi:10.1039/d4sc01810a

With or without a co-solvent? highly efficient ultrafast phenanthrenequinone-electron rich alkene (PQ-ERA) photoclick reactions

Anna M. Doze, Youxin Fu, Mariangela Di Donato, Michiel F. Hilbers, Gert Luurtsema, Philip H. Elsinga, Wybren Jan Buma, Wiktor Szymanski^*, Ben L. Feringa^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

1 Citation (Scopus)

86 Downloads (Pure)

Abstract

The light-induced photocycloaddition of 9,10-phenanthrenequinone (PQ) with electron-rich alkenes (ERA), known as the PQ-ERA reaction, is a highly attractive photoclick reaction characterized by its operational simplicity and high biocompatibility. One essential aspect of photoclick reactions is their high rate, however the limited solubility of PQs often requires the use of a co-solvent. Evaluating the effect of different co-solvents on the PQ-ERA reaction and their influence on the reaction rate, we discovered that sulfur-containing compounds, in particular the frequently used solubilizing co-solvent DMSO, quench the triplet state of the PQ. These experimental results, supported by nanosecond-microsecond and ultrafast transient absorption data, show that even minimal amounts of DMSO result in a decreased lifetime of the reactive triplet state, essential for the photoclick reaction. Without DMSO as co-solvent, exceptionally high photoreaction quantum yields (Φ_P up to 93% with only 1 equivalent ERA) and complete conversion in seconds can be achieved. With these outstanding efficiencies, the PQ-ERA reaction can be used without excess ERA and at low light intensities, facilitating photoclick transformations in various future applications.

Original language	English
Article number	d4sc01810a
Pages (from-to)	11557-11563
Number of pages	7
Journal	Chemical Science
Volume	15
Issue number	29
Early online date	24-Jun-2024
DOIs	https://doi.org/10.1039/d4sc01810a
Publication status	Published - 7-Aug-2024

Access to Document

10.1039/d4sc01810aLicence: CC BY-NC

With or without a co-solvent? highly efficient ultrafast phenanthrenequinone-electron rich alkene (PQ-ERA) photoclick reactionsProof, 912 KBLicence: CC BY-NC

Handle.net

Persistent link

Cite this

@article{10e37ecfcb2b47c88024956e8c0a5a3a,

title = "With or without a co-solvent? highly efficient ultrafast phenanthrenequinone-electron rich alkene (PQ-ERA) photoclick reactions",

abstract = "The light-induced photocycloaddition of 9,10-phenanthrenequinone (PQ) with electron-rich alkenes (ERA), known as the PQ-ERA reaction, is a highly attractive photoclick reaction characterized by its operational simplicity and high biocompatibility. One essential aspect of photoclick reactions is their high rate, however the limited solubility of PQs often requires the use of a co-solvent. Evaluating the effect of different co-solvents on the PQ-ERA reaction and their influence on the reaction rate, we discovered that sulfur-containing compounds, in particular the frequently used solubilizing co-solvent DMSO, quench the triplet state of the PQ. These experimental results, supported by nanosecond-microsecond and ultrafast transient absorption data, show that even minimal amounts of DMSO result in a decreased lifetime of the reactive triplet state, essential for the photoclick reaction. Without DMSO as co-solvent, exceptionally high photoreaction quantum yields (ΦP up to 93% with only 1 equivalent ERA) and complete conversion in seconds can be achieved. With these outstanding efficiencies, the PQ-ERA reaction can be used without excess ERA and at low light intensities, facilitating photoclick transformations in various future applications.",

author = "Doze, {Anna M.} and Youxin Fu and {Di Donato}, Mariangela and Hilbers, {Michiel F.} and Gert Luurtsema and Elsinga, {Philip H.} and Buma, {Wybren Jan} and Wiktor Szymanski and Feringa, {Ben L.}",

note = "Publisher Copyright: {\textcopyright} 2024 The Royal Society of Chemistry.",

year = "2024",

month = aug,

day = "7",

doi = "10.1039/d4sc01810a",

language = "English",

volume = "15",

pages = "11557--11563",

journal = "Chemical Science",

issn = "2041-6520",

publisher = "ROYAL SOC CHEMISTRY",

number = "29",

}

TY - JOUR

T1 - With or without a co-solvent? highly efficient ultrafast phenanthrenequinone-electron rich alkene (PQ-ERA) photoclick reactions

AU - Doze, Anna M.

AU - Fu, Youxin

AU - Di Donato, Mariangela

AU - Hilbers, Michiel F.

AU - Luurtsema, Gert

AU - Elsinga, Philip H.

AU - Buma, Wybren Jan

AU - Szymanski, Wiktor

AU - Feringa, Ben L.

PY - 2024/8/7

Y1 - 2024/8/7

N2 - The light-induced photocycloaddition of 9,10-phenanthrenequinone (PQ) with electron-rich alkenes (ERA), known as the PQ-ERA reaction, is a highly attractive photoclick reaction characterized by its operational simplicity and high biocompatibility. One essential aspect of photoclick reactions is their high rate, however the limited solubility of PQs often requires the use of a co-solvent. Evaluating the effect of different co-solvents on the PQ-ERA reaction and their influence on the reaction rate, we discovered that sulfur-containing compounds, in particular the frequently used solubilizing co-solvent DMSO, quench the triplet state of the PQ. These experimental results, supported by nanosecond-microsecond and ultrafast transient absorption data, show that even minimal amounts of DMSO result in a decreased lifetime of the reactive triplet state, essential for the photoclick reaction. Without DMSO as co-solvent, exceptionally high photoreaction quantum yields (ΦP up to 93% with only 1 equivalent ERA) and complete conversion in seconds can be achieved. With these outstanding efficiencies, the PQ-ERA reaction can be used without excess ERA and at low light intensities, facilitating photoclick transformations in various future applications.

AB - The light-induced photocycloaddition of 9,10-phenanthrenequinone (PQ) with electron-rich alkenes (ERA), known as the PQ-ERA reaction, is a highly attractive photoclick reaction characterized by its operational simplicity and high biocompatibility. One essential aspect of photoclick reactions is their high rate, however the limited solubility of PQs often requires the use of a co-solvent. Evaluating the effect of different co-solvents on the PQ-ERA reaction and their influence on the reaction rate, we discovered that sulfur-containing compounds, in particular the frequently used solubilizing co-solvent DMSO, quench the triplet state of the PQ. These experimental results, supported by nanosecond-microsecond and ultrafast transient absorption data, show that even minimal amounts of DMSO result in a decreased lifetime of the reactive triplet state, essential for the photoclick reaction. Without DMSO as co-solvent, exceptionally high photoreaction quantum yields (ΦP up to 93% with only 1 equivalent ERA) and complete conversion in seconds can be achieved. With these outstanding efficiencies, the PQ-ERA reaction can be used without excess ERA and at low light intensities, facilitating photoclick transformations in various future applications.

UR - http://www.scopus.com/inward/record.url?scp=85197953306&partnerID=8YFLogxK

U2 - 10.1039/d4sc01810a

DO - 10.1039/d4sc01810a

M3 - Article

AN - SCOPUS:85197953306

SN - 2041-6520

VL - 15

SP - 11557

EP - 11563

JO - Chemical Science

JF - Chemical Science

IS - 29

M1 - d4sc01810a

ER -

With or without a co-solvent? highly efficient ultrafast phenanthrenequinone-electron rich alkene (PQ-ERA) photoclick reactions

Abstract

Access to Document

Handle.net

Other files and links

Fingerprint

Cite this