Visible light activation of C-Cl and C-F bonds in persistent organic pollutants using cerium(iii) triamidoamine complex

Adrien Combourieu; Stella Christodoulou; Laurent Maron; Eachann Assendjee; Nicolas Casaretto; Bich Tuyen Phung; Akos Banyasz; Olivier Maury; Matthew Gregson; Ashley J. Wooles; Stephen T. Liddle; Cédric Tard; Grégory Nocton; Grégory Danoun

doi:10.1039/d5sc03626g

Visible light activation of C-Cl and C-F bonds in persistent organic pollutants using cerium(iii) triamidoamine complex

Adrien Combourieu
, Stella Christodoulou
, Laurent Maron
, Eachann Assendjee
, Nicolas Casaretto
, Bich Tuyen Phung
, Akos Banyasz
, Olivier Maury
, Matthew Gregson
, Ashley J. Wooles
, Stephen T. Liddle
, Cédric Tard
, Grégory Nocton
, Grégory Danoun

CNRS
INSA Toulouse
Ecole Normale Supérieure de Lyon
University of Manchester

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

Abstract

Procedures for activating and degrading compounds containing carbon-halogen bonds are highly sought after due to the environmental persistence and potential hazards of such compounds. Such activations are challenging because of the high stability of these bonds, particularly those with C-F bonds. Here, we report on the activation of carbon-halogen bonds, including C-F bonds, by the cerium(iii)-triamidoamine complex Ce^IIITREN^TIPS (1, TREN^TIPS = tris-(2-(tri-iso-propylsilylamidoethyl)amine)). Under light irradiation, 1 reaches a strongly negative excited state redox potential, and our measurements enable it to be estimated as −3.2 V relative to Cp₂Fe^0/+. Hence, the photo-reactivity of 1 with carbon-halogen bonds has been established with numerous examples, including Persistent Organic Pollutants (POPs) and fluorinated compounds. The photoactivation of POPs is rapid, but the photoactive nature of the cerium(iv) products precludes complete conversion. This study provides insight into the activation of POPs that may benefit the future design of photodegradation approaches for these highly problematic compounds.

Original language	English
Pages (from-to)	15510-15517
Number of pages	8
Journal	Chemical Science
Volume	16
Issue number	34
DOIs	https://doi.org/10.1039/d5sc03626g
Publication status	Published - 27 Aug 2025
Externally published	Yes

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10.1039/d5sc03626g

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Combourieu, A., Christodoulou, S., Maron, L., Assendjee, E., Casaretto, N., Phung, B. T., Banyasz, A., Maury, O., Gregson, M., Wooles, A. J., Liddle, S. T., Tard, C., Nocton, G., & Danoun, G. (2025). Visible light activation of C-Cl and C-F bonds in persistent organic pollutants using cerium(iii) triamidoamine complex. Chemical Science, 16(34), 15510-15517. https://doi.org/10.1039/d5sc03626g

@article{39df459d5e4a49c8bbb3291dadc23b13,

title = "Visible light activation of C-Cl and C-F bonds in persistent organic pollutants using cerium(iii) triamidoamine complex",

abstract = "Procedures for activating and degrading compounds containing carbon-halogen bonds are highly sought after due to the environmental persistence and potential hazards of such compounds. Such activations are challenging because of the high stability of these bonds, particularly those with C-F bonds. Here, we report on the activation of carbon-halogen bonds, including C-F bonds, by the cerium(iii)-triamidoamine complex CeIIITRENTIPS (1, TRENTIPS = tris-(2-(tri-iso-propylsilylamidoethyl)amine)). Under light irradiation, 1 reaches a strongly negative excited state redox potential, and our measurements enable it to be estimated as −3.2 V relative to Cp2Fe0/+. Hence, the photo-reactivity of 1 with carbon-halogen bonds has been established with numerous examples, including Persistent Organic Pollutants (POPs) and fluorinated compounds. The photoactivation of POPs is rapid, but the photoactive nature of the cerium(iv) products precludes complete conversion. This study provides insight into the activation of POPs that may benefit the future design of photodegradation approaches for these highly problematic compounds.",

author = "Adrien Combourieu and Stella Christodoulou and Laurent Maron and Eachann Assendjee and Nicolas Casaretto and Phung, \{Bich Tuyen\} and Akos Banyasz and Olivier Maury and Matthew Gregson and Wooles, \{Ashley J.\} and Liddle, \{Stephen T.\} and C{\'e}dric Tard and Gr{\'e}gory Nocton and Gr{\'e}gory Danoun",

note = "Publisher Copyright: {\textcopyright} 2025 The Royal Society of Chemistry.",

year = "2025",

month = aug,

day = "27",

doi = "10.1039/d5sc03626g",

language = "English",

volume = "16",

pages = "15510--15517",

journal = "Chemical Science",

issn = "2041-6520",

number = "34",

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Combourieu, A, Christodoulou, S, Maron, L, Assendjee, E, Casaretto, N, Phung, BT, Banyasz, A, Maury, O, Gregson, M, Wooles, AJ, Liddle, ST, Tard, C , Nocton, G & Danoun, G 2025, 'Visible light activation of C-Cl and C-F bonds in persistent organic pollutants using cerium(iii) triamidoamine complex', Chemical Science, vol. 16, no. 34, pp. 15510-15517. https://doi.org/10.1039/d5sc03626g

TY - JOUR

T1 - Visible light activation of C-Cl and C-F bonds in persistent organic pollutants using cerium(iii) triamidoamine complex

AU - Combourieu, Adrien

AU - Christodoulou, Stella

AU - Maron, Laurent

AU - Assendjee, Eachann

AU - Casaretto, Nicolas

AU - Phung, Bich Tuyen

AU - Banyasz, Akos

AU - Maury, Olivier

AU - Gregson, Matthew

AU - Wooles, Ashley J.

AU - Liddle, Stephen T.

AU - Tard, Cédric

AU - Nocton, Grégory

AU - Danoun, Grégory

PY - 2025/8/27

Y1 - 2025/8/27

N2 - Procedures for activating and degrading compounds containing carbon-halogen bonds are highly sought after due to the environmental persistence and potential hazards of such compounds. Such activations are challenging because of the high stability of these bonds, particularly those with C-F bonds. Here, we report on the activation of carbon-halogen bonds, including C-F bonds, by the cerium(iii)-triamidoamine complex CeIIITRENTIPS (1, TRENTIPS = tris-(2-(tri-iso-propylsilylamidoethyl)amine)). Under light irradiation, 1 reaches a strongly negative excited state redox potential, and our measurements enable it to be estimated as −3.2 V relative to Cp2Fe0/+. Hence, the photo-reactivity of 1 with carbon-halogen bonds has been established with numerous examples, including Persistent Organic Pollutants (POPs) and fluorinated compounds. The photoactivation of POPs is rapid, but the photoactive nature of the cerium(iv) products precludes complete conversion. This study provides insight into the activation of POPs that may benefit the future design of photodegradation approaches for these highly problematic compounds.

AB - Procedures for activating and degrading compounds containing carbon-halogen bonds are highly sought after due to the environmental persistence and potential hazards of such compounds. Such activations are challenging because of the high stability of these bonds, particularly those with C-F bonds. Here, we report on the activation of carbon-halogen bonds, including C-F bonds, by the cerium(iii)-triamidoamine complex CeIIITRENTIPS (1, TRENTIPS = tris-(2-(tri-iso-propylsilylamidoethyl)amine)). Under light irradiation, 1 reaches a strongly negative excited state redox potential, and our measurements enable it to be estimated as −3.2 V relative to Cp2Fe0/+. Hence, the photo-reactivity of 1 with carbon-halogen bonds has been established with numerous examples, including Persistent Organic Pollutants (POPs) and fluorinated compounds. The photoactivation of POPs is rapid, but the photoactive nature of the cerium(iv) products precludes complete conversion. This study provides insight into the activation of POPs that may benefit the future design of photodegradation approaches for these highly problematic compounds.

UR - https://www.scopus.com/pages/publications/105014273769

U2 - 10.1039/d5sc03626g

DO - 10.1039/d5sc03626g

M3 - Article

AN - SCOPUS:105014273769

SN - 2041-6520

VL - 16

SP - 15510

EP - 15517

JO - Chemical Science

JF - Chemical Science

IS - 34

ER -

Visible light activation of C-Cl and C-F bonds in persistent organic pollutants using cerium(iii) triamidoamine complex

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