Your search keyword '"Brandès S"' showing total 14 results

1. CoCorrole-Functionalized PCN-222 for Carbon Monoxide Selective Adsorption.

Author

Loze M, Brandès S, Fleurat-Lessard P, Desbois N, Blondeau-Patissier V, Gros CP, and André L

Abstract

The high risk of CO poisoning justifies the need for indoor air quality control and warning systems based on the detection of low concentrations (ppm-ppb) of CO. Cobalt corrole complexes selectively bind CO vs. O 2 , CO 2 , N 2 , opening new fields of applications. By combining the CO chemisorption properties of cobalt corroles with the known sorption capacity of MOFs, we hope to obtain high performance sensing materials for CO detection. In addition, the exposed metal sites of MOFs lead to CO 2 physisorption, allowing the co-detection of CO and CO 2 . In this work, PCN-222, a stable Zr-based MOF made from Ni(TCPP) with natural vacancies, has been used as a porous matrix for the grafting of electron-poor metallocorroles. The materials were characterized by powder XRD, SEM and optical microscopy, BET analyses and gas adsorption measurements at 298 K. No degradation of the crystalline structure of PCN-222 was observed. At 1 atm, the adsorbed CO (g) volumes measured for the best materials were 12.15 cm 3  g -1 and 14.01 cm 3  g -1 for CoCorr2@PCN-222 and CoCorr3@PCN-222 respectively, and both materials exhibited high CO chemisorption and selectivity against O 2 , N 2 , and CO 2 at low pressure due to the highest energy of the chemisorption process vs physisorption., (© 2024 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2024

2. Combining Desferriferrioxamine B and 1-Hydroxy-2-Piperidone ((PIPO)H) to Chelate Zirconium. Solution Structure of a Model Complex of the [ 89 Zr]Zr-DFOcyclo*-mAb Radioimmunoconjugate.

Author

Mangin F, Fonquernie O, Jewula P, Brandès S, Penouilh MJ, Bonnin Q, Vincent B, Espinosa E, Aubert E, Meyer M, and Chambron JC

Abstract

89 Zr-immunoPET is a hot topic as 89 Zr cumulates the advantages of 64 Cu and 124 I without their drawbacks. We report the synthesis of a model ligand of a chiral bioconjugable tetrahydroxamic chelator combining the desferriferrioxamine B siderophore and 1-hydroxy-2-piperidone ((PIPO)H), a chiral cyclic hydroxamic acid derivative, and the study by NMR spectroscopy of its zirconium complex. Nuclear Overhauser effect measurements (ROESY) indicated that the complex exists in the form of two diastereomers, in 77 : 23 ratio, resulting from the combination of the central chiralities at the 3-C of the (PIPO)H component and at the Zr 4+ cation. The 44 lowest energy structures out of more than 1000 configurations/conformations returned by calculations based on density functional theory were examined. Comparison of the ROESY data and the calculated interatomic H⋅⋅⋅H distances allowed us to select the most probable configuration and conformations of the major complex., (© 2024 The Authors. ChemPlusChem published by Wiley-VCH GmbH.)

Published

2024

3. Modulation of the Sorption Characteristics for an H-bonded porous Architecture by Varying the Chemical Functionalization of the Channel Walls.

Author

Roques N, Tovar-Molle A, Duhayon C, Brandès S, Spieß A, Janiak C, and Sutter JP

Abstract

Five isostructural microporous supramolecular architectures prepared by H-bonded assembly between the hexa-anionic complex [Zr 2 (Ox) 7 ] 6- (Ox=oxalate, (C 2 O 4 ) 2- ) and tripodal cations (H 3 -TripCH 2 -R) 3+ with R=H, CH 3 , OH and OBn (Bn=CH 2 Ph) are reported. The possibility to obtain the same structure using a mixture of tripodal cations with different R group (R=OH and R=CH 3 ) has also been successfully explored, providing a unique example of three-component H-bonded porous framework. The resulting SPA-1(R) materials feature 1D pores decorated by R groups, with apparent pore diameters ranging from 3.0 to 8.5 Å. Influence of R groups on the sorption properties of these materials is evidenced through CO 2 and H 2 O vapor sorption/desorption experiments, as well as with I 2 capture/release experiments in liquid media. This study is one of the first to demonstrate the possibility of tuning the porosity and exerting precise control over the chemical functionalization of the pores in a given H-bonded structure, without modifying the topology of the reference structure, and thus finely adjusting the sorption characteristics of the material., (© 2022 The Authors. Chemistry - A European Journal published by Wiley-VCH GmbH.)

Published

2022

4. Coordinatively Unsaturated Amidotitanocene Cations with Inverted σ and π Bond Strengths: Controlled Release of Aminyl Radicals and Hydrogenation/Dehydrogenation Catalysis.

Author

Bonnin Q, Edlová T, Sosa Carrizo ED, Fleurat-Lessard P, Brandès S, Cattey H, Richard P, Le Gendre P, and Normand AT

Abstract

Cationic amidotitanocene complexes [Cp 2 Ti(NPhAr)][B(C 6 F 5 ) 4 ] (Cp=η 5 -C 5 H 5 ; Ar=phenyl (1 a), p-tolyl (1 b), p-anisyl (1 c)) were isolated. The bonding situation was studied by DFT (Density Functional Theory) using EDA-NOCV (Energy Decomposition Analysis with Natural Orbitals for Chemical Valence). The polar Ti-N bond in 1 a-c features an unusual inversion of σ and π bond strengths responsible for the balance between stability and reactivity in these coordinatively unsaturated species. In solution, 1 a-c undergo photolytic Ti-N cleavage to release Ti(III) species and aminyl radicals ⋅NPhAr. Reaction of 1 b with H 3 BNHMe 2 results in fast homolytic Ti-N cleavage to give [Cp 2 Ti(H 3 BNHMe 2 )][B(C 6 F 5 ) 4 ] (3). 1 a-c are highly active precatalysts in olefin hydrogenation and silanes/amines cross-dehydrogenative coupling, whilst 3 efficiently catalyzes amine-borane dehydrogenation. The mechanism of olefin hydrogenation was studied by DFT and the cooperative H 2 activation key step was disclosed using the Activation Strain Model (ASM)., (© 2021 Wiley-VCH GmbH.)

Published

2021

5. Diamondoid Nanostructures as sp 3 -Carbon-Based Gas Sensors.

Author

Moncea O, Casanova-Chafer J, Poinsot D, Ochmann L, Mboyi CD, Nasrallah HO, Llobet E, Makni I, El Atrous M, Brandès S, Rousselin Y, Domenichini B, Nuns N, Fokin AA, Schreiner PR, and Hierso JC

Abstract

Diamondoids, sp 3 -hybridized nanometer-sized diamond-like hydrocarbons (nanodiamonds), difunctionalized with hydroxy and primary phosphine oxide groups, enable the assembly of the first sp 3 -C-based chemical sensors by vapor deposition. Both pristine nanodiamonds and palladium nanolayered composites can be used to detect toxic NO 2 and NH 3 gases. This carbon-based gas sensor technology allows reversible NO 2 detection down to 50 ppb and NH 3 detection at 25-100 ppm concentration with fast response and recovery processes at 100 °C. Reversible gas adsorption and detection is compatible with 50 % humidity conditions. Semiconducting p-type sensing properties are achieved from devices based on primary phosphine-diamantanol, in which high specific area (ca. 140 m 2  g -1 ) and channel nanoporosity derive from H-bonding., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

6. The Taming of Redox-Labile Phosphidotitanocene Cations.

Author

Normand AT, Bonnin Q, Brandès S, Richard P, Fleurat-Lessard P, Devillers CH, Balan C, Le Gendre P, Kehr G, and Erker G

Abstract

Tame d 0 phosphidotitanocene cations stabilized with a pendant tertiary phosphane arm are reported. These compounds were obtained by one-electron oxidation of d 1 precursors with [Cp 2 Fe][BPh 4 ]. The electronic structure of these compounds was studied experimentally (EPR, UV/Vis, and NMR spectroscopy, X-ray diffraction analysis) and through DFT calculations. The theoretical analysis of the bonding situation by using the electron localization function (ELF) shows the presence of π-interactions between the phosphido ligand and Ti in the d 0 complexes, whereas dπ-pπ repulsion prevents such interactions in the d 1 complexes. In addition, CH-π interactions were observed in several complexes, both in solution and in the solid state, between the phosphido ligand and the phosphane arm. The d 0 complexes were found to be light sensitive, and decompose through Ti-P bond homolysis to give Ti III species. A naked d 0 phosphidotitanocene cation has been trapped by reaction with diphenylacetylene, yielding a Ti/P frustrated Lewis pair (FLP), which was found to be less reactive than a previously reported Zr analog., (© 2019 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2019

7. Hydrogen-Bonded Open-Framework with Pyridyl-Decorated Channels: Straightforward Preparation and Insight into Its Affinity for Acidic Molecules in Solution.

Author

Mouchaham G, Roques N, Khodja W, Duhayon C, Coppel Y, Brandès S, Fodor T, Meyer M, and Sutter JP

Abstract

A hydrogen-bonded open framework with pores decorated by pyridyl groups was constructed by off-charge-stoichiometry assembly of protonated tetrakis(4-pyridyloxymethyl)methane and [Al(oxalate) 3 ] 3- , which are the H-bond donor and acceptor of ionic H-bond interactions, respectively. This supramolecular porous architecture (SPA-2) has 1 nm-large pores interconnected in 3D with large solvent-accessible void (53 %). It demonstrated remarkable affinity for acidic organic molecules in solution, which was investigated by means of various carboxylic acids including larger drug molecules. Competing sorption between acetic acid and its halogenated homologues evidenced good selectivity of the porous material for the halogenated acids. The gathered results, including a series of guest@SPA-2 crystal structures and HRMAS-NMR spectra, suggest that the efficient sorption exhibited by the material relies not only on an acid-base interaction. The facile release of these guest molecules under neutral conditions makes this SPA a carrier of acidic molecules., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

8. A robust nanoporous supramolecular metal-organic framework based on ionic hydrogen bonds.

Author

Roques N, Mouchaham G, Duhayon C, Brandès S, Tachon A, Weber G, Bellat JP, and Sutter JP

Abstract

Hydrogen-bond assembly of tripod-like organic cations [H3 -MeTrip](3+) (1,2,3-tri(4'-pyridinium-oxyl)-2-methylpropane) and the hexa-anionic complex [Zr2 (oxalate)7 ](6-) leads to a structurally, thermally, and chemically robust porous 3D supramolecular framework showing channels of 1 nm in width. Permanent porosity has been ascertained by analyzing the material at the single-crystal level during a sorption cycle. The framework crystal structure was found to remain the same for the native compound, its activated phase, and after guest resorption. The channels exhibit affinities for polar organic molecules ranging from simple alcohols to aniline. Halogenated molecules and I2 are also taken up from hexane solutions by this unique supramolecular framework., (© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2014

9. Selective CO2 adsorption by a triazacyclononane-bridged microporous metal-organic framework.

Author

Ortiz G, Brandès S, Rousselin Y, and Guilard R

Abstract

Metal-organic frameworks constructed by self-assembly of metal ions and organic linkers have recently been of great interest in the preparation of porous hybrid materials with a wide variety of functions. Despite much research in this area and the large choice of building blocks used to fine-tune pore size and structure, it remains a challenge to synthesise frameworks composed of polyamines to tailor the porosity and adsorption properties for CO(2). Herein, we describe a rigid and microporous three-dimensional metal-organic framework with the formula [Zn(2)(L)(H(2)O)]Cl (L=1,4,7-tris(4-carboxybenzyl)-1,4,7-triazacyclononane) synthesised in a one-pot solvothermal reaction between zinc ions and a flexible cyclic polyaminocarboxylate. We have demonstrated, for the first time, that a porous rigid framework can be obtained by starting from a flexible amine building block. Sorption measurements revealed that the material exhibited a high surface area (135 m(2) g(-1)) and was the best compromise between capacity and selectivity for CO(2) over CO, CH(4), N(2) and O(2); as such it is a promising new selective adsorbent for CO(2) capture., (Copyright © 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2011

10. Reversible coordination of dioxygen by tripodal tetraamine copper complexes incorporated in a porous silica framework.

Author

Suspène C, Brandès S, and Guilard R

Subjects

Carbon Monoxide chemistry, Electron Spin Resonance Spectroscopy, Nitrogen chemistry, Porosity, Amines chemistry, Coordination Complexes chemistry, Copper chemistry, Oxygen chemistry, Silicon Dioxide chemistry

Abstract

The present study reports the synthesis and rational design of porous structured materials by using a templating method. A tetraethoxysilylated tripodal tetraamine (TREN) was covalently incorporated in a silica framework with a double imprint: A surfactant template and a metal ion imprint. The presence of a cationic surfactant (CTAB) endowed the material with a high porosity, and the tripodal or square-pyramidal topology of the ligand was preserved thanks to the use of the silylated Cu(II) complex. After removal of the surfactant and de-metalation, the incorporated tetraamine was quantitatively complexed by CuCl(2) and the material has shown after thermal activation that a reversible binding of O(2) on the metal ions occurred. This chemisorption process was monitored by UV/Vis and EPR spectroscopies, and the Cu:O(2) adduct was postulated to be an end-on mu-eta(1):eta(1)-peroxodicopper(II) complex bridged by a chloride ion. The Cu(I)-active species, formed during the activation step, were fully recovered during several O(2) binding cycles. The high reactivity of the copper complexes and the room-temperature stability of the dioxygen adduct were explained by the fine adaptability of the tripodal ligand to different geometries, the confinement of the active sites in the hybrid silica that protect them from degradation by a control of the metal-ion microenvironment, as well as the short-range lamellar order of the copper complexes in the framework.

Published

2010

11. Selective chemisorption of carbon monoxide by organic-inorganic hybrid materials incorporating cobalt(III) corroles as sensing components.

Author

Barbe JM, Canard G, Brandès S, and Guilard R

Subjects

Adsorption, Chemistry, Physical methods, Gases, Gels, Organic Chemicals chemistry, Silicon Dioxide chemistry, Chemistry methods, Cobalt chemistry, Porphyrins chemistry

Abstract

Twenty-one hybrid materials incorporating cobalt(III) corrole complexes were synthesized by a sol-gel process or by grafting the metallocorrole onto a mesostructured silica of the SBA-15 type. All the materials show an almost infinite selectivity for carbon monoxide with respect to dinitrogen and dioxygen in the low-pressure domain where the chemisorption phenomenon is predominant. This peculiar property is of prime importance for an application as a CO sensor. The selectivity slightly decreases at high pressures where nonselective physisorption phenomena mainly occur. The percentage of active sites for CO chemisorption ranges from 22 to 64 %. This low percentage may be attributable to interactions between the cobalt(III) corroles with silanol or siloxane groups remaining at the surface of the materials which prevent further coordination of the CO molecule. Notably, the most efficient materials are those prepared in the presence of a protecting ligand (pyridine) during the gelation or the grafting process. The removal of this ligand after the gelation process releases a cavity around the cobalt ion that favors the coordination of a carbon monoxide molecule. The CO adsorption properties of the SBA-15 hybrid were not affected over a period of several months thus indicating a high stability of the material. Conversely, the xerogel capacities slowly decrease owing to the evolution of the material structure.

Published

2007

12. Exceptional affinity of nanostructured organic-inorganic hybrid materials towards dioxygen: confinement effect of copper complexes.

Author

Brandès S, David G, Suspène C, Corriu RJ, and Guilard R

Subjects

Adsorption, Anisotropy, Binding Sites, Cations, Divalent, Enzymes chemistry, Enzymes metabolism, Gels chemistry, Ligands, Multiprotein Complexes chemistry, Multiprotein Complexes metabolism, Peroxides chemistry, Spectrum Analysis, Temperature, Copper chemistry, Heterocyclic Compounds chemistry, Nanostructures chemistry, Organometallic Compounds chemistry, Oxygen chemistry, Silicon Dioxide chemistry

Abstract

We report the exceptional reactivity towards dioxygen of a nanostructured organic-inorganic hybrid material due to the confinement of copper cyclam within a silica matrix. The key step is the metalation reaction of the ligand, which can occur before or after xerogel formation through the sol-gel process. The incorporation of a Cu(II) center into the material after xerogel formation leads to a bridged Cu(I)/Cu(II) mixed-valence dinuclear species. This complex exhibits a very high affinity towards dioxygen, attributable to auto-organization of the active species in the solid. The remarkable properties of these copper complexes in the silica matrix demonstrate a high cooperative effect for O(2) adsorption; this is induced by close confinement of the two copper ions leading to end-on mu-eta(1):eta(1)-peroxodicopper(II) complexes. The anisotropic packing of the tetraazamacrocycle in a lamellar structure induces an exceptional reactivity of these copper complexes. We show for the first time that the organic-inorganic environment of copper complexes in a silica matrix fully model the protecting role of protein in metalloenzymes. For the first time an oxygenated dicopper(II) complex can be isolated in a stable form at room temperature, and the reduced Cu(2) (I,I) species can be regenerated after several adsorption-desorption cycles. These data also demonstrate that the coordination scheme and reactivity of the copper cyclams within the solid are quite different from that observed in solution.

Published

2007

13. Organic-inorganic hybrid sol-gel materials incorporating functionalized cobalt(III) corroles for the selective detection of CO.

Author

Barbe JM, Canard G, Brandès S, and Guilard R

Published

2005

14. Coordination Chemistry in the Solid: Study of the Incorporation of Cu(II) into Cyclam-Containing Hybrid Materials.

Author

Dubois G, Reyé C, Corriu RJ, Brandès S, Denat F, and Guilard R

Published

2001