Frederic Banse
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Explore the profile of Frederic Banse including associated specialties, affiliations and a list of published articles.
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Articles
35
Citations
183
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Recent Articles
1.
Robinson A, Bannerman E, Di Berto Mancini M, Browne W, Guillot R, Herrero C, et al.
Chemistry
. 2025 Mar;
:e202404668.
PMID: 40067778
Two iron(II) complexes of the pentadentate aminopyridine ligand L52(OH), bearing a 2nd sphere OH group in ortho position of one pyridine, were studied in the oxidation of various substrates using...
2.
Bohn A, Robinson A, Senechal-David K, Herrero C, Kanoufi F, Anxolabehere-Mallart E, et al.
Dalton Trans
. 2024 Sep;
53(37):15491-15500.
PMID: 39246009
We report an in-depth study of the reductive activation of O by the nonheme [Fe(L25)(MeCN)] complex carried out by cyclic voltammetry. Experimental evidence is obtained for the slow coordination of...
3.
Farinelli G, Rebilly J, Banse F, Cretin M, Quemener D
Sci Rep
. 2024 Apr;
14(1):9301.
PMID: 38653989
Advanced oxidation processes are the most efficient tool to thwart the overaccumulation of harmful organic compounds in the environment. In this direction bioinspired metal complexes may be a viable solution...
4.
Rebilly J, Herrero C, Senechal-David K, Guillot R, Banse F
Dalton Trans
. 2023 Jun;
52(26):9017-9025.
PMID: 37334566
The catalytic properties of an iron complex bearing a pentadentate cross-bridged ligand backbone are reported. With HO as an oxidant, it displays moderate conversions in epoxidation and alkane hydroxylation and...
5.
Pugliese E, Vo N, Boussac A, Banse F, Mekmouche Y, Simaan J, et al.
Chem Sci
. 2022 Nov;
13(42):12332-12339.
PMID: 36349273
Coupling a photoredox module and a bio-inspired non-heme model to activate O for the oxygen atom transfer (OAT) reaction requires a vigorous investigation to shed light on the multiple competing...
6.
Bohn A, Senechal-David K, Rebilly J, Herrero C, Leibl W, Anxolabehere-Mallart E, et al.
Chemistry
. 2022 Jun;
28(53):e202201600.
PMID: 35735122
The one-electron reduction of the nonheme iron(III)-hydroperoxo complex, [Fe (OOH)(L )] (L =N-methyl-N,N',N'-tris(2-pyridylmethyl)ethane-1,2-diamine), carried out at -70 °C results in the release of dioxygen and in the formation of [Fe...
7.
Robinson A, Rebilly J, Guillot R, Herrero C, Maisonneuve H, Banse F
Chemistry
. 2022 Mar;
28(28):e202200217.
PMID: 35315975
We report two new Fe complexes [L Fe (H O)](OTf) and [L Fe (OTf)], obtained by replacing pyridines by phenolates in a known non-heme aminopyridine iron complex. While the original,...
8.
Rebilly J, Herrero C, Senechal-David K, Guillot R, Inceoglu T, Maisonneuve H, et al.
Chem Sci
. 2022 Jan;
12(47):15691-15699.
PMID: 35003600
Redox metalloenzymes achieve very selective oxidation reactions under mild conditions using O or HO as oxidants and release harmless side-products like water. Their oxidation selectivity is intrinsically linked to the...
9.
Farran R, Mekmouche Y, Vo N, Herrero C, Quaranta A, Sircoglou M, et al.
iScience
. 2021 May;
24(4):102378.
PMID: 33948559
Photobiocatalysis uses light to perform specific chemical transformations in a selective and efficient way. The intention is to couple a photoredox cycle with an enzyme performing multielectronic catalytic activities. Laccase,...
10.
Kostopoulos N, Banse F, Fave C, Anxolabehere-Mallart E
Chem Commun (Camb)
. 2021 Jan;
57(10):1198-1201.
PMID: 33427273
Oxidation of organic substrates is achieved in nature under mild conditions thanks to metalloenzymes but remains a challenge for chemists. Herein we show by UV-Vis spectroelectrochemistry that when MnIIITPPCl is...