Your search keyword '"Albrieux F"' showing total 34 results

1. UV spectroscopy of entire proteins in the gas phase

Author

Bellina, B., Compagnon, I., Joly, L., Albrieux, F., Allouche, A.R., Bertorelle, F., Lemoine, J., Antoine, R., and Dugourd, Ph.

Published

2010

2. Atomically well-defined gold clusters: Oxidation reactions catalized by ultra-small gold core

Author

Lavenn, C., Albrieux, F., Tuel, A., Demessence, A., MATERIAUX (MATERIAUX), Institut de recherches sur la catalyse et l'environnement de Lyon (IRCELYON), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), and IRCELYON, ProductionsScientifiques

Subjects

[CHIM.CATA] Chemical Sciences/Catalysis, [SDE.ES] Environmental Sciences/Environmental and Society, [CHIM.CATA]Chemical Sciences/Catalysis, [SDE.ES]Environmental Sciences/Environmental and Society

Abstract

International @ MATERIAUX+CLA:ATU:ADM; International audience; Recently, atomically well defined thiolate-capped gold nanoclusters (denoted Aun(SR)m with (10,10) < (n,m) < (333,79)) have been successfully isolated and few structures have been solved. Thus, these monodispersed functionalized clusters, with precise atomic positions and gold core less than 2 nm, hold promises as a new generation of catalysts. More importantly, these nanoclusters permit in-depth studies on the subtle correlation of the structure, core diameter, thiolate ligands effect and electronic state of gold nanoparticles with their catalytic activity. New clusters made of 4-aminothiophenol (HSPhNH2) have been isolated, such as Au25(SPhNH2)17, and fully characterized by mass spectrometry, X-ray diffraction and XPS.3 Moreover these clusters exhibit absorption bands related to their molecular state. Those clusters have then be used to investigate in aerobic oxidations reactions and compared to the Au25(SC2H4Ph)18 cluster, having the same Au core but different thiolate ligand. They have been deposited on silica supports (hydrophobic 16 nm-SiO2 nanoparticles and SBA-15 mesoporous silica) and by properly selecting the support to maximize clusters/support interactions, it was possible to prepare materials with ultra-small gold particles (

Published

2014

3. Self-assembling of gold nanoparticles directed by fullerenes-based nodes

Author

Rousseau, G., Lavenn, C., Demessence, A., Mishra, S., Canivet, J., Albrieux, F., Hahn, U., Nierengarten, J.-F., MATERIAUX (MATERIAUX), Institut de recherches sur la catalyse et l'environnement de Lyon (IRCELYON), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC), and IRCELYON, ProductionsScientifiques

Subjects

[CHIM.CATA] Chemical Sciences/Catalysis, [SDE.ES] Environmental Sciences/Environmental and Society, [CHIM.CATA]Chemical Sciences/Catalysis, [SDE.ES]Environmental Sciences/Environmental and Society

Abstract

International @ MATERIAUX+GUR:CLA:ADM:SMR:JEC; International audience; Development of new catalysts to improve industrially important chemical reactions in terms of activity and selectivity, in environmentally more acceptable means and economical matter is one of the most important needs in research. Heterogeneous catalysis has shown its potential over the last years with the discovery of new catalysts easy to separate from the reaction medium. Today, nanoparticles, and particulary gold clusters, are considered as the most exciting materials in heterogeneous catalysis due to their high surface/volume ratio allowing for a high numbers of catalytically active sites. Nevertheless, the main problem associated with the use of nanoparticles-based catalysts is their dispersion. When particles form stable colloidal solution, they show good activity and dispersion, but once exhausted, they are difficult to regenerate. In contrast, when nanoparticles are immobilized on a support they are easier to regenerate and still remain in a dispersed state, but these composites exhibit a lower accessible surface area, due to the support, that thus limits their inherent effectivity and in general the support effect is not negligible. To overcome these limitations, we develop new nanostructured materials by using the concept of self-assembly of nanoparticles directed by organic linkers to generate multifunctional hybrid materials with a high number of catalytic centers. To connect gold nanoparticles and prevent their aggregation, we use functionalized hexa-adduct fullerenes as 3D rigid and defined nodes.[1,2] Our recent results show that thiocyanate-functionnalized hexaadduct fullerenes can be coupled by direct reaction from chlorauric acid and LiBH4 as a reducing agent and in the presence of 4-aminothiophenol. This new material has been characterized by small angles XR scattering, TEM and spectroscopy and show the formation of a network with monodisperse 2 nm gold particles and an interparticular distance of 4 nm corresponding to the functionalized fullerene molecules (figure 1). In this presentation we will also discuss the influence of the terminal functions of the hexaadduct fullerenes and the different synthetic pathways on the formation of the networks. 1)Fortgang, P.; Maisonhaute, E.; Amatore, C.; Delavaux-Nicot, B.; Lehl , J.; Nierengarten, J.-F. Angew. Chem. Int. Ed., 2011, 50, 2364. 2) Lehl, J.; Nierengarten, J.-F.; Harriman, A.; Bura, T.; Ziessel, R. J. Am. Chem. Soc., 2012, 134, 988.

Published

2014

4. Atomically Well Defined Thiolate Gold Nanoclusters for Heterogeneous Catalysis

Author

Lavenn, C., Albrieux, F., Tuel, A., Demessence, A., IRCELYON, ProductionsScientifiques, MATERIAUX (MATERIAUX), Institut de recherches sur la catalyse et l'environnement de Lyon (IRCELYON), Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)-Université Claude Bernard Lyon 1 (UCBL), and Université de Lyon-Université de Lyon-Centre National de la Recherche Scientifique (CNRS)-Institut de Chimie du CNRS (INC)

Subjects

[CHIM.CATA] Chemical Sciences/Catalysis, [CHIM.CATA]Chemical Sciences/Catalysis, [SDE.ES] Environmental Sciences/Environmental and Society, [SDE.ES]Environmental Sciences/Environmental and Society

Abstract

International @ MATERIAUX+CLA:ATU:ADM; International audience; Gold nanoparticles exhibit a catalytic activity in many chemical processes.1 Most of the reactions are size-dependant, i. e. the specific activity depends on the average gold particle size. Generally, the activity increases when the particle size decreases, with a marked increase below 5 nm, which strongly supports the role of surface gold atoms in the reactions. But for sub-2 nm particles, the origin of the catalytic power is still unclear and under intense debate. Fundamental investigations on the structure-catalytic activity relationships still lag behind, partly due to the polydispersity issue of gold nanoparticles. Indeed, polydisperse particles obscure the interesting size-dependent catalytic activity of nanogold and preclude an in-depth understanding of the origin of this size dependence. Recently, atomically well defined thiolate-capped Au nanoclusters (denoted as Aun(SR)m) have been successfully isolated and their catalytic properties have been demonstrated.2 These monodispersed functionalized clusters, with gold core between less than 1 nm and more than 2 nm, hold promises as a new generation of catalysts. More importantly, these nanoclusters permit in-depth studies on the subtle correlation of structure and catalytic activity, since they are well defined and their crystallographic structures start to be solved.3 To investigate the influence of the size, the type of ligands at the surface and also the support effect, different nanoclusters have been synthesized. New clusters made of 4-aminothiophenol (HSPhNH2) have been synthesized, such as Au25(SPhNH2)17, and fully characterized by mass spectrometry, X-ray diffraction and XPS.4 Moreover these clusters exhibit absorption bands and paramagnetic behaviour related to their molecular state. Catalytic activity for oxidation of alkene and alcohol derivatives of these colloidal or supported clusters were investigated and compared to the commonly used Aun(SCH2CH2Ph)m nanoclusters. At the opposite of the bare gold nanoparticles, the presence of the ligands around the clusters leads to a much better selectivity of the product. (1) Hashmi, A. S. K.; Hutchings, G. J. Angew. Chem.-Int. Edit. 2006, 45, 7896. (2) Jin, R. C.; Zhu, Y.; Qian, H. Chem. Eur. J. 2011, 17, 6584. (3) Zhu, Y.; Qian, H. F.; Zhu, M. Z.; Jin, R. C. Adv. Mater. 2010, 22, 1915. (4) Lavenn, C.; Albrieux, F.; Bergeret, G.; Chiriac, R.; Delichčre, P.; Tuel, A.; Demessence, A. Nanoscale DOI: 10.1039/C2NR32367B.

Published

2013

5. Optical and Structural Properties of Copper−Oxytocin Dications in the Gas Phase

Author

Joly, L, Antoine, R, Albrieux, F, Ballivian, R, Broyer, M, Chirot, F, Lemoine, J, Dugourd, P, Greco, C, Mitric, R, Bonacic Koutecky, V, Bonacic Koutecky, V., GRECO, CLAUDIO, Joly, L, Antoine, R, Albrieux, F, Ballivian, R, Broyer, M, Chirot, F, Lemoine, J, Dugourd, P, Greco, C, Mitric, R, Bonacic Koutecky, V, Bonacic Koutecky, V., and GRECO, CLAUDIO

Abstract

We present a joint experimental and theoretical investigation of the structural and optical properties of copper-oxytocin dications in the gas phase. Ion mobility and UV photodissociation experiments were performed, allowing the investigation of the influence of the Cu2+ ion on the structural and optical properties of oxytocin. Density functional theory calculations were performed to find low energy structures for the bare and complexed peptide and to characterize optical spectral features. Copper complexation induces a drastic change in the structure of the oxytocin peptide. In particular, we predict a 4N chelation of the copper cation which leads to a contraction of the oxytocin ring. The gas phase lowest-energy structures are compared with the X-ray crystal structure of the oxytocin molecule bound to its receptor protein. The optical spectrum of oxytocin complexed with the copper cation displays a global enhancement of the photofragmentation yield as compared to the one recorded for the doubly protonated oxytocin. Moreover, experimental and calculated optical spectra of protonated tyrosine have also been determined, since its leading features are present in oxytocin as well. © 2009 American Chemical Society.

Published

2009

6. Ion Trajectory Simulations in a High-Pressure Cylindrical Ion Trap

Author

Albrieux, F., primary, Antoine, R., additional, Chirot, F., additional, Lemoine, J., additional, and Dugourd, Ph., additional

Published

2010

7. Optical and Structural Properties of Copper−Oxytocin Dications in the Gas Phase

Author

Jérôme Lemoine, Renaud Ballivian, Florian Albrieux, Laure Joly, Michel Broyer, Roland Mitrić, Vlasta Bonačić-Koutecký, Rodolphe Antoine, Philippe Dugourd, Fabien Chirot, Claudio Greco, Joly, L, Antoine, R, Albrieux, F, Ballivian, R, Broyer, M, Chirot, F, Lemoine, J, Dugourd, P, Greco, C, Mitric, R, and Bonacic Koutecky, V

Subjects

Molecular Structure, Cations, Divalent, Photodissociation, Analytical chemistry, chemistry.chemical_element, Time-dependent density functional theory, Crystallography, X-Ray, Oxytocin, Copper, Surfaces, Coatings and Films, Gas phase, Ion, Oxytocin, TDDFT, chemistry, Materials Chemistry, Physical chemistry, Gases, Physical and Theoretical Chemistry

Abstract

We present a joint experimental and theoretical investigation of the structural and optical properties of copper-oxytocin dications in the gas phase. Ion mobility and UV photodissociation experiments were performed, allowing the investigation of the influence of the Cu2+ ion on the structural and optical properties of oxytocin. Density functional theory calculations were performed to find low energy structures for the bare and complexed peptide and to characterize optical spectral features. Copper complexation induces a drastic change in the structure of the oxytocin peptide. In particular, we predict a 4N chelation of the copper cation which leads to a contraction of the oxytocin ring. The gas phase lowest-energy structures are compared with the X-ray crystal structure of the oxytocin molecule bound to its receptor protein. The optical spectrum of oxytocin complexed with the copper cation displays a global enhancement of the photofragmentation yield as compared to the one recorded for the doubly protonated oxytocin. Moreover, experimental and calculated optical spectra of protonated tyrosine have also been determined, since its leading features are present in oxytocin as well. © 2009 American Chemical Society.

Published

2009

8. Towards a new pseudo-quantitative approach to evaluate the ionization response of nitrogen compounds in complex matrices.

Author

Guillemant J, Lacoue-Nègre M, Berlioz-Barbier A, Albrieux F, de Oliveira LP, Joly JF, and Duponchel L

Abstract

Ultra high-resolution mass spectrometry (FT-ICR MS) coupled to electrospray ionization (ESI) provides unprecedented molecular characterization of complex matrices such as petroleum products. However, ESI faces major ionization competition phenomena that prevent the absolute quantification of the compounds of interest. On the other hand, comprehensive two-dimensional gas chromatography (GC × GC) coupled to specific detectors (HRMS or NCD) is able to quantify the main families identified in these complex matrices. In this paper, this innovative dual approach has been used to evaluate the ionization response of nitrogen compounds in gas oils as a case study. To this extent, a large gas oil dataset has been analyzed by GC × GC/HRMS, GC × GC-NCD and ESI(+/-)-FT-ICR MS. Then, the concentrations obtained from GC × GC-NCD have been compared to those obtained from FT-ICR MS hence proving that strong ionization competitions are taking place and also depending on the origin of the sample. Finally, multilinear regressions (MLR) have been used to quantitatively predict nitrogen families from FT-ICR MS measurements as well as start rationalizing the ionization competition phenomena taking place between them in different types of gas oils.

Published

2021

9. Low-Level Fusion of Fourier Transform Ion Cyclotron Resonance Mass Spectrometry Data Sets for the Characterization of Nitrogen and Sulfur Compounds in Vacuum Gas Oils.

Author

Guillemant J, Berlioz-Barbier A, Albrieux F, de Oliveira LP, Lacoue-Nègre M, Joly JF, and Duponchel L

Abstract

A total of 18 vacuum gas oils have been analyzed by Fourier transform ion cyclotron resonance mass spectrometry considering six replicates in three different ionization modes (electrospray ionization (ESI)(+), ESI(-), and atmospheric pressure photoionization (APPI)(+)) to characterize the nitrogen and sulfur compounds contained in these samples. Classical data analysis has been first performed on generated data sets using double bond equivalents (DBE) versus number of carbon atoms (#C) plots in order to observe similarities and differences within the nitrogen and sulfur-containing molecular classes from samples produced by different industrial processes. In a second step, three-way arrays have been generated for each ionization mode considering three dimensions: DBE related to aromaticity, number of carbon atoms related to alkylation, and sample. These three-way arrays have then be concatenated using low-level data fusion strategy to obtain a new tensor with three new modes: aromaticity, alkylation, and sample. The PARAFAC method has then been applied for the first time to this three-way data structure. A two components decomposition has allowed us to highlight unique samples with unexpected reactivity behaviors throughout hydrotreatment. The obtained loadings led to the identification of the variables responsible for this specific character. This original strategy has provided a fast visualization tool able to highlight simultaneously the impact of the three ionization modes in order to explain the differences between the samples and compare them.

Published

2020

10. Insights from Nitrogen Compounds in Gas Oils Highlighted by High-Resolution Fourier Transform Mass Spectrometry.

Author

Guillemant J, Albrieux F, de Oliveira LP, Lacoue-Nègre M, Duponchel L, and Joly JF

Abstract

Twenty-three gas oil samples from different origins were analyzed in positive and negative ion modes by electrospray ionization Fourier transform ion cyclotron resonance mass spectrometry (ESI(±)-FT-ICR MS). Sample ionization and ion transfer conditions were first optimized using Design of Experiment approach. Advanced characterization of basic and neutral nitrogen compounds in these samples was then performed through ESI(±)-FT-ICR MS analysis. A good repeatability was observed from the analysis of six replicates for each gas oil sample. Significant differences in molecular composition were spotted between the gas oils, either considering identified heteroatomic classes or within nitrogen families and were later correlated to samples macroscopic properties. The evolution of nitrogen relative intensities for one feed and two corresponding effluents has also been studied to monitor hydrotreatment reaction pathways toward aromaticity and alkylation levels evolutions.

Published

2019

11. Chemometric Exploration of APPI(+)-FT-ICR MS Data Sets for a Comprehensive Study of Aromatic Sulfur Compounds in Gas Oils.

Author

Guillemant J, Albrieux F, Lacoue-Nègre M, Pereira de Oliveira L, Joly JF, and Duponchel L

Abstract

Sulfur content in gas oils is strictly regulated by legal specifications for environmental reasons. Gas oils are composed of various aromatic sulfur compounds, and some of them are known to be very refractory for sulfur removal reactions. Thus, an accurate analysis of sulfur compounds is important to find the appropriate operating conditions of the gas oil hydrotreating processes. Aromatic sulfur compounds contained in 23 gas oils samples were analyzed using APPI(+)-FT-ICR MS considering six replicates. Significant differences were spotted within several processed gas oils. A comparison of one feed and its corresponding effluents also confirmed the well-known refractory character of sulfur compounds such as polyalkylated dibenzothiophenes. To go deeper in the molecular exploration, chemometric tools were applied on this spectral data set including principal component analysis (PCA) and hierarchical cluster analysis (HCA). A unique data rearrangement was performed directly inspired on DBE vs carbon number plots that are systematically used in petroleomics studies. Then, these chemometric tools provided a successful classification of each type of gas oils. The PCA model has also been validated on mixed blends allowing us to conclude that it could be applied to unknown samples in order to identify the process used to produce them. Moreover, the exploration of the generated loadings revealed key types of molecules driving the classification such as C3-DBT which is a dibenzothiophene core with three additional carbon atoms. Indeed, it is known to remain mainly in deeply hydrotreated samples, validating previous observations regarding its potential refractory character. The ability of chemometric tools to extract specific molecular information from ultra-high resolution MS spectra reveals its huge potential for an exhaustive study of highly complex mixtures such as crude oils.

Published

2019

12. Ultra-high performance supercritical fluid chromatography hyphenated to atmospheric pressure chemical ionization high resolution mass spectrometry for the characterization of fast pyrolysis bio-oils.

Author

Crepier J, Le Masle A, Charon N, Albrieux F, Duchene P, and Heinisch S

Subjects

Hot Temperature, Models, Chemical, Chromatography, High Pressure Liquid methods, Chromatography, Supercritical Fluid methods, Mass Spectrometry methods, Plant Oils analysis, Plant Oils chemistry, Polyphenols analysis, Polyphenols chemistry

Abstract

Extensive characterization of complex mixtures requires the combination of powerful analytical techniques. A Supercritical Fluid Chromatography (SFC) method was previously developed, for the specific case of fast pyrolysis bio oils, as an alternative to gas chromatography (GC and GC × GC) or liquid chromatography (LC and LC × LC), both separation methods being generally used prior to mass spectrometry (MS) for the characterization of such complex matrices. In this study we investigated the potential of SFC hyphenated to high resolution mass spectrometry (SFC-HRMS) for this characterization using Negative ion Atmospheric Pressure Chemical ionization ((-)APCI) for the ionization source. The interface between SFC and (-)APCI/HRMS was optimized from a mix of model compounds with the objective of maximizing the signal to noise ratio. The main studied parameters included both make-up flow-rate and make-up composition. A methodology for the treatment of APCI/HRMS data is proposed. This latter allowed for the identification of molecular formulae. Both SFC-APCI/HRMS method and data processing method were applied to a mixture of 36 model compounds, first analyzed alone and then spiked in a bio-oil. In both cases, 19 compounds could be detected. Among them 9 could be detected in a fast pyrolysis bio-oil by targeted analysis. The whole procedure was applied to the characterization of a bio-oil using helpful representations such as mass-plots, van Krevelen diagrams and heteroatom class distributions. Finally the results were compared with those obtained with a Fourier Transform ion-cyclotron resonance mass spectrometer (FT-ICR/MS)., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

13. Development of a supercritical fluid chromatography method with ultraviolet and mass spectrometry detection for the characterization of biomass fast pyrolysis bio oils.

Author

Crepier J, Le Masle A, Charon N, Albrieux F, and Heinisch S

Subjects

Chromatography, Liquid, Water chemistry, Biofuels analysis, Chemistry Techniques, Analytical methods, Chromatography, Supercritical Fluid, Complex Mixtures chemistry, Mass Spectrometry, Oils chemistry, Spectrophotometry, Ultraviolet

Abstract

The characterization of complex mixtures is a challenging issue for the development of innovative processes dedicated to biofuels and bio-products production. The huge number of compounds present in biomass fast pyrolysis oils combined with the large diversity of chemical functions represent a bottleneck as regards analytical technique development. For the extensive characterization of complex samples, supercritical fluid chromatography (SFC) can be alternative to usual separation techniques such as gas (GC) or liquid chromatography (LC). In this study, an approach is proposed to define the best conditions for the SFC separation of a fast pyrolysis bio-oil. This approach was based on SFC data obtained directly from the bio-oil itself instead of selecting model compounds as usually done. SFC conditions were optimized by using three specific, easy-to-use and quantitative criteria aiming at maximizing the separation power. Polar stationary phases (ethylpyridine bonded silica) associated to a mix of acetonitrile and water as polarity modifier provided the best results, with more than 120 peaks detected in SFC-UV., (Copyright © 2017 Elsevier B.V. All rights reserved.)

Published

2017

14. Redox Self-Adaptation of a Nitrene Transfer Catalyst to the Substrate Needs.

Author

Gouré E, Senthilnathan D, Coin G, Albrieux F, Avenier F, Dubourdeaux P, Lebrun C, Maldivi P, and Latour JM

Abstract

The development of iron catalysts for carbon-heteroatom bond formation, which has attracted strong interest in the context of green chemistry and nitrene transfer, has emerged as the most promising way to versatile amine synthetic processes. A diiron system was previously developed that proved efficient in catalytic sulfimidations and aziridinations thanks to an Fe III Fe IV active species. To deal with more demanding benzylic and aliphatic substrates, the catalyst was found to activate itself to a Fe III Fe IV L . active species able to catalyze aliphatic amination. Extensive DFT calculations show that this activation event drastically enhances the electron affinity of the active species to match the substrates requirements. Overall this process consists in a redox self-adaptation of the catalyst to the substrate needs., (© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2017

15. Site-selective formation of an iron(iv)-oxo species at the more electron-rich iron atom of heteroleptic μ-nitrido diiron phthalocyanines.

Author

İşci Ü, Faponle AS, Afanasiev P, Albrieux F, Briois V, Ahsen V, Dumoulin F, Sorokin AB, and de Visser SP

Abstract

Iron(iv)-oxo species have been identified as the active intermediates in key enzymatic processes, and their catalytic properties are strongly affected by the equatorial and axial ligands bound to the metal, but details of these effects are still unresolved. In our aim to create better and more efficient oxidants of H-atom abstraction reactions, we have investigated a unique heteroleptic diiron phthalocyanine complex. We propose a novel intramolecular approach to determine the structural features that govern the catalytic activity of iron(iv)-oxo sites. Heteroleptic μ-nitrido diiron phthalocyanine complexes having an unsubstituted phthalocyanine (Pc 1 ) and a phthalocyanine ligand substituted with electron-withdrawing alkylsulfonyl groups (Pc SO 2 R ) were prepared and characterized. A reaction with terminal oxidants gives two isomeric iron(iv)-oxo and iron(iii)-hydroperoxo species with abundances dependent on the equatorial ligand. Cryospray ionization mass spectrometry (CSI-MS) characterized both hydroperoxo and diiron oxo species in the presence of H 2 O 2 . When m -CPBA was used as the oxidant, the formation of diiron oxo species (Pc SO 2 R )FeNFe(Pc 1 )[double bond, length as m-dash]O was also evidenced. Sufficient amounts of these transient species were trapped in the quadrupole region of the mass-spectrometer and underwent a CID-MS/MS fragmentation. Analyses of fragmentation patterns indicated a preferential formation of hydroperoxo and oxo moieties at more electron-rich iron sites of both heteroleptic μ-nitrido complexes. DFT calculations show that both isomers are close in energy. However, the analysis of the iron(iii)-hydroperoxo bond strength reveals major differences for the (Pc 1 )FeN(Pc SO 2 R )Fe III OOH system as compared to (Pc SO 2 R )FeN(Pc 1 )Fe III OOH system, and, hence binding of a terminal oxidant will be preferentially on more electron-rich sides. Subsequent kinetics studies showed that these oxidants are able to even oxidize methane to formic acid efficiently., (This journal is © The Royal Society of Chemistry 2015.)

Published

2015

16. 1,4,8,11,15,18,22,25-Alkylsulfanyl phthalocyanines: effect of macrocycle distortion on spectroscopic and packing properties.

Author

Zorlu Y, Kumru U, İşci Ü, Divrik B, Jeanneau E, Albrieux F, Dede Y, Ahsen V, and Dumoulin F

Abstract

The effect of phthalocyanine macrocycle distortion on its spectroscopic and packing properties is studied, by comparing two phthalocyanines octa-non-peripherally substituted by alkanethiols of different bulkiness (n-hexyl and tert-butyl). Their X-ray structures evidence their core shape, respectively planar and strongly distorted, inducing a 55 nm shift of their maximum absorption wavelength. Comparison of frontier orbital energies revealed that this distortion decreases the conjugation potency of the benzo rings to the central pyrrolic rings. Also the tert-butyl derivative presents a MOF-like porous crystalline assembly with 22.2% void.

Published

2015

17. Synthesis and characterization of μ-nitrido, μ-carbido and μ-oxo dimers of iron octapropylporphyrazine.

Author

Colomban C, Kudrik EV, Tyurin DV, Albrieux F, Nefedov SE, Afanasiev P, and Sorokin AB

Abstract

Three μ-X bridged diiron octapropylporphyrazine complexes having Fe(III)-O-Fe(III), Fe(+3.5)-N[double bond, length as m-dash]Fe(+3.5) and Fe(IV)[double bond, length as m-dash]C[double bond, length as m-dash]Fe(IV) structural units have been prepared and characterized by UV-vis, EPR, X-ray absorption spectroscopy and electrochemical methods. Single crystals of all the complexes were obtained from benzene-acetonitrile and their structures were determined by X-ray diffraction. In contrast to μ-oxo complex (), μ-nitrido () and μ-carbido () dimers crystallized with one benzene molecule per two binuclear complex molecules arranged cofacially to the porphyrazine planes at Fe-Cbenzene distances of 3.435-3.725 Å and 3.352-3.669 Å for and , respectively. The short distances suggest an interaction between the iron sites and the benzene π-system which is stronger in the case of the Fe(IV)[double bond, length as m-dash]C[double bond, length as m-dash]Fe(IV) unit with a higher Lewis acidity. The Fe-X-Fe angle increases in the sequence -- from 158.52° to 168.5° and 175.10°, respectively, in agreement with the Fe-X bond order. However, the lengths of the Fe-X bonds do not follow this trend: Fe-O = 1.75/1.76 Å > Fe-C = 1.67/1.67 Å > Fe-N = 1.65/1.66 Å indicating unexpectedly long Fe-C bonds. This observation can be explained by back π-donation from the μ-carbido ligand to the Fe-C antibonding orbital thus decreasing the bond order which is confirmed by DFT calculations.

Published

2015

18. Correction to "assessing the dual activity of a chalcone-phthalocyanine conjugate: design, synthesis, and antivascular and photodynamic properties".

Author

Tuncel S, Trivella A, Atilla D, Bennis K, Savoie H, Albrieux F, Delort L, Billard H, Dubois V, Ahsen V, Caldefie-Chézet F, Richard C, Boyle RW, Ducki S, and Dumoulin F

Published

2015

19. A hydrophobic disordered peptide spontaneously anchors a covalently bound RNA hairpin to giant lipidic vesicles.

Author

Le Chevalier Isaad A, Carrara P, Stano P, Krishnakumar KS, Lafont D, Zamboulis A, Buchet R, Bouchu D, Albrieux F, and Strazewski P

Subjects

Hydrophobic and Hydrophilic Interactions, Membrane Lipids chemistry, Peptides chemical synthesis, Surface-Active Agents chemical synthesis, Surface-Active Agents chemistry, Lipid Bilayers chemistry, Peptides chemistry, RNA chemistry

Abstract

The attraction of nucleic acids to lipidic compartments is the first step for carriers of potentially inheritable information to self-organise in functionalised synthetic cells. Confocal fluorescence imaging shows that a synthetic amphiphilic peptidyl RNA molecule spontaneously accumulates at the outer bilayer membranes of phospho- and glycolipidic giant vesicles. Cooperatively attractive interactions of -3.4 to -4.0 kcal mol(-1) between a random coil hydrophobic peptide and lipid membranes can thus pilot lipophobic RNA to its compartmentation. The separation of mixed lipid phases in the membranes further enhances the local concentration of anchored RNA.

Published

2014

20. Expeditious selective access to functionalized platforms of A(7)B-type heteroleptic lanthanide double-decker complexes of phthalocyanine.

Author

Alpugan S, İşci Ü, Albrieux F, Hirel C, Gürek AG, Bretonnière Y, Ahsen V, and Dumoulin F

Abstract

A one-step method to access to functionalized heteroleptic lanthanide double-decker complexes of phthalocyanine of A7B-type is reported. This optimized statistical method led to two hydroxylated model europium complexes, one of which was further converted into its mesylated and azido derivatives.

Published

2014

21. Synthesis, characterization and optical properties of an amino-functionalized gold thiolate cluster: Au10(SPh-pNH2)10.

Author

Lavenn C, Albrieux F, Tuel A, and Demessence A

Abstract

Research interest in ultra small gold thiolate clusters has been rising in recent years for the challenges they offer to bring together properties of nanoscience and well-defined materials from molecular chemistry. Here, a new atomically well-defined Au10 gold nanocluster surrounded by ten 4-aminothiophenolate ligands is reported. Its synthesis followed the similar conditions reported for the elaboration of Au144(SR)60, but because the reactivity of thiophenol ligands is different from alkanethiol derivates, smaller Au10 clusters were formed. Different techniques, such as ESI-MS, elemental analysis, XRD, TGA, XPS and UV-vis-NIR experiments, have been carried out to determine the Au10(SPh-pNH2)10 formula. Photoemission experiment has been done and reveals that the Au10 clusters are weakly luminescent as opposed to the amino-based ultra-small gold clusters. This observation points out that the emission of gold thiolate clusters is highly dependent on both the structure of the gold core and the type of the ligands at the surface. In addition, ultra-small amino-functionalized clusters offer the opportunity for extended work on self-assembling networks or deposition on substrates for nanotechnologies or catalytic applications., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2014

22. A diiron(III,IV) imido species very active in nitrene-transfer reactions.

Author

Gouré E, Avenier F, Dubourdeaux P, Sénèque O, Albrieux F, Lebrun C, Clémancey M, Maldivi P, and Latour JM

Subjects

Catalysis, Coordination Complexes chemistry, Molecular Conformation, Spectrometry, Mass, Electrospray Ionization, Imidazoles chemistry, Imines chemistry, Iron chemistry

Abstract

Metal-catalyzed nitrene transfer reactions arouse intense interest as clean and efficient procedures for amine synthesis. Efficient Rh- and Ru-based catalysts exist but Fe alternatives are actively pursued. However, reactive iron imido species can be very short-lived and getting evidence of their occurrence in efficient nitrene-transfer reactions is an important challenge. We recently reported that a diiron(III,II) complex is a very efficient nitrene-transfer catalyst to various substrates. We describe herein how, by combining desorption electrospray ionization mass spectrometry, quantitative chemical quench experiments, and DFT calculations, we obtained conclusive evidence for the occurrence of an {Fe(III) Fe(IV) NTosyl} intermediate that is very active in H-abstraction and nitrene-transfer reactions. DFT calculations revealed a strong radical character of the tosyl nitrogen atom in very low-lying electronic configurations of the Fe(IV) ion which are likely to confer its high reactivity., (Copyright © 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2014

23. Assessing the dual activity of a chalcone-phthalocyanine conjugate: design, synthesis, and antivascular and photodynamic properties.

Author

Tuncel S, Trivella A, Atilla D, Bennis K, Savoie H, Albrieux F, Delort L, Billard H, Dubois V, Ahsen V, Caldefie-Chézet F, Richard C, Boyle RW, Ducki S, and Dumoulin F

Subjects

Cell Line, Cell Movement drug effects, Chalcone pharmacology, Humans, Indoles pharmacology, Isoindoles, Molecular Structure, Photosensitizing Agents chemical synthesis, Singlet Oxygen metabolism, Chalcone chemistry, Indoles chemistry, Photochemotherapy methods, Photosensitizing Agents chemistry, Photosensitizing Agents pharmacology

Abstract

Photodynamic therapy (PDT) and vascular-disrupting agents (VDA) each have their advantages in the treatment of solid tumors, but also present drawbacks. In PDT, hypoxia at the center of the tumor limits conversion of molecular oxygen into singlet oxygen, while VDAs are deficient at affecting the rim of the tumor. A phthalocyanine-chalcone conjugate combining the VDA properties of chalcones with the PDT properties of phthalocyanines was designed to address these deficiencies. Its vascular targeting, photophysical, photochemical, photodynamic activities are reported herein.

Published

2013

24. Monoglycoconjugated phthalocyanines: effect of sugar and linkage on photodynamic activity.

Author

Lafont D, Zorlu Y, Savoie H, Albrieux F, Ahsen V, Boyle RW, and Dumoulin F

Subjects

Click Chemistry methods, Cross-Linking Reagents radiation effects, Drug Compounding methods, HT29 Cells, Humans, Isoindoles, Light, Photochemotherapy methods, Treatment Outcome, Apoptosis drug effects, Glycoconjugates chemistry, Indoles administration & dosage, Indoles chemistry, Monosaccharides chemistry, Photosensitizing Agents administration & dosage, Photosensitizing Agents chemical synthesis

Abstract

Background: Click chemistry can be advantageously used to graft carbohydrates on phthalocyanines which are potent photosensitisers, but the effect of the presence of triazole moieties on photodynamic efficiency was not investigated systematically to date. The nature and linkage of the sugar were investigated in order to define structure-activity relationships., Method: Two sets of monoglycoconjugated water-soluble phthalocyanines have been designed and their photodynamic activity and uptake investigated in HT-29 human colon adenocarcinoma cells. Carbohydrates: galactose, mannose or lactose were grafted onto Zn(II) phthalocyanines either by glycosylation or by click reaction., Results: The triazole linkage formed by click conjugation lowered the biological efficiency for mannose and galactose, compared to classical glycosylation grafting. The mannose conjugate formed by glycosylation was the most photodynamically active, without correlation with the photosensitiser cell uptake., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2013

25. Efficient epoxidation of olefins by H2O2 catalyzed by iron "helmet" phthalocyanines.

Author

Skobelev IY, Kudrik EV, Zalomaeva OV, Albrieux F, Afanasiev P, Kholdeeva OA, and Sorokin AB

Subjects

Catalysis, Epoxy Compounds chemistry, Isoindoles, Molecular Structure, Quantum Theory, Alkenes chemistry, Epoxy Compounds chemical synthesis, Ferric Compounds chemistry, Hydrogen Peroxide chemistry, Indoles chemistry

Abstract

High yields of epoxides were obtained in the oxidation of a large range of olefins using 1.2-2 equiv. of H2O2 in the presence of iron helmet phthalocyanines. The involvement of high-valent iron oxo species was evidenced using cryospray mass spectrometry.

Published

2013

26. Incorporation of a 3-(2,2,2-trifluoroethyl)-γ-hydroxy-γ-lactam motif in the side chain of 4-aminoquinolines. Syntheses and antimalarial activities.

Author

Cornut D, Lemoine H, Kanishchev O, Okada E, Albrieux F, Beavogui AH, Bienvenu AL, Picot S, Bouillon JP, and Médebielle M

Subjects

Aminoquinolines pharmacology, Aminoquinolines toxicity, Antimalarials pharmacology, Antimalarials toxicity, Chloroquine pharmacology, Drug Resistance, Endothelial Cells cytology, Endothelial Cells drug effects, Humans, In Vitro Techniques, Lactams pharmacology, Lactams toxicity, Parasitic Sensitivity Tests, Plasmodium falciparum drug effects, Structure-Activity Relationship, Umbilical Veins cytology, Aminoquinolines chemical synthesis, Antimalarials chemical synthesis, Lactams chemical synthesis

Abstract

In this paper we report the synthesis and antimalarial properties of two series of fluoroalkylated γ-lactams derived from 4-aminoquinoline as potent chemotherapeutic agents for malaria treatment. These molecules obtained in several steps resulted in the identification of very potent structures with in vitro activity against Plasmodium falciparum clones of variable sensitivity (3D7 and W2) in the range of 19-50 nM with resistance indices in the range of 1.0-2.5. In addition, selected molecules (50, 51, 58, 60, 63, 70, 72, 74, 78, 81, 84, and 87) that are representative of the two series of compounds did not show cytotoxicity in vitro when tested against human umbilical vein endothelial cells up to a concentration of 100 μM. The most promising compounds (82 and 84) showed significant IC₅₀ values close to 26 and 19 nM against the chloroquino-sensitive strain 3D7 and 49 and 42 nM against the multi-drug-resistant strain W2. Furthermore, two model compounds (50 and 70) were found to be quite stable over 48 h at pH 7.4 and 5.2. Overall, our preliminary data indicate that this class of structures contains promising candidates for further study.

Published

2013

27. Functionalized gold magic clusters: Au25(SPhNH2)17.

Author

Lavenn C, Albrieux F, Bergeret G, Chiriac R, Delichère P, Tuel A, and Demessence A

Abstract

New Au(25) nanoclusters stabilized by heterotopic 4-aminothiophenolate ligands (HSPhNH(2)) have been isolated with a yield of ~70%. The nanoclusters formula determined by ESI-MS is Au(25)(SPhNH(2))(17), with the 18(th) position occupied by an amine or DMF molecules to close their electronic shell.

Published

2012

28. An N-bridged high-valent diiron-oxo species on a porphyrin platform that can oxidize methane.

Author

Kudrik EV, Afanasiev P, Alvarez LX, Dubourdeaux P, Clémancey M, Latour JM, Blondin G, Bouchu D, Albrieux F, Nefedov SE, and Sorokin AB

Subjects

Chlorobenzoates chemistry, Oxidation-Reduction, Spectrometry, Mass, Electrospray Ionization, Metalloporphyrins chemistry, Methane chemistry, Nitrogen chemistry

Abstract

High-valent oxo-metal complexes are involved in key biochemical processes of selective oxidation and removal of xenobiotics. The catalytic properties of cytochrome P-450 and soluble methane monooxygenase enzymes are associated with oxo species on mononuclear iron haem and diiron non-haem platforms, respectively. Bio-inspired chemical systems that can reproduce the fascinating ability of these enzymes to oxidize the strongest C-H bonds are the focus of intense scrutiny. In this context, the development of highly oxidizing diiron macrocyclic catalysts requires a structural determination of the elusive active species and elucidation of the reaction mechanism. Here we report the preparation of an Fe(IV)(µ-nitrido)Fe(IV) = O tetraphenylporphyrin cation radical species at -90 °C, characterized by ultraviolet-visible, electron paramagnetic resonance and Mössbauer spectroscopies and by electrospray ionization mass spectrometry. This species exhibits a very high activity for oxygen-atom transfer towards alkanes, including methane. These findings provide a foundation on which to develop efficient and clean oxidation processes, in particular transformations of the strongest C-H bonds.

Published

2012

29. Statistical analysis of ion mobility spectrometry. II. Adaptively biased methods and shape correlations.

Author

Calvo F, Chirot F, Albrieux F, Lemoine J, Tsybin YO, Pernot P, and Dugourd P

Subjects

Bradykinin chemistry, Computer Simulation, Data Interpretation, Statistical, Diffusion, Lactalbumin chemistry, Molecular Dynamics Simulation, Peptides chemistry, Protons, Thermodynamics, Mass Spectrometry methods

Abstract

Following a recent effort [J. Am. Soc. Mass Spectrom. 23, 386-396 (2012)], we continue to explore computational methodologies for generating molecular conformations to support collisional cross sections suggested by ion mobility measurements. Here, adaptively biased molecular dynamics (ABMD) simulations are used to sample the configuration space and to achieve flat-histogram sampling along the reaction coordinates of the first two moments of the gyration tensor. The method is tested and compared with replica-exchange simulations on triply-protonated bradykinin and on a larger 25-residue peptide. It is found to have a much higher efficiency for producing large sets of conformations in a broad range of diffusion cross-sections, whereas it does not compete with conventional replica-exchange molecular dynamics in locating the lowest-energy structure. Nevertheless, the broad sampling obtained from the ABMD method allows to quantitatively correlate the diffusion cross-section Ω with other geometric order parameters that have simpler interpretation. The strong correlations found between the diffusion cross-section and the radius of gyration, the surface area and the volume of the convex hull suggest an optimal template for accurately mimicking the variations of Ω in a broad range of conformations, using only geometrical information and doing so at a very moderate computational cost. The existence of such a correlation is confirmed on the much larger protein α-lactalbumin.

Published

2012

30. Generation and characterization of high-valent iron oxo phthalocyanines.

Author

Afanasiev P, Kudrik EV, Albrieux F, Briois V, Koifman OI, and Sorokin AB

Subjects

Isoindoles, Quantum Theory, Ferric Compounds chemical synthesis, Ferric Compounds chemistry, Indoles chemistry

Abstract

The first high-valent iron oxo complex on the phthalocyanine platform has been prepared from iron tetra-tert-butyl-phthalocyanine and m-chloroperbenzoic acid and characterized by low temperature UV-vis, cryospray MS, EPR, X-ray absorption and high resolution X-ray emission methods.

Published

2012

31. Towards dual photodynamic and antiangiogenic agents: design and synthesis of a phthalocyanine-chalcone conjugate.

Author

Tuncel S, Fournier-dit-Chabert J, Albrieux F, Ahsen V, Ducki S, and Dumoulin F

Subjects

Angiogenesis Inhibitors chemistry, Chalcone analogs & derivatives, Chalcone chemistry, Isoindoles, Molecular Structure, Photosensitizing Agents chemistry, Stereoisomerism, Zinc Compounds, Angiogenesis Inhibitors chemical synthesis, Drug Design, Indoles chemistry, Organometallic Compounds chemistry, Photosensitizing Agents chemical synthesis

Abstract

A phthalocyanine-chalcone conjugate has been designed to combine the vascular disrupting effect of chalcones with the photodynamic effect of phthalocyanines. This potential dual photodynamic and antiangiogenic agent was obtained by the condensation of a tetrahydroxylated non-peripherally substituted Zn(ii) phthalocyanine with an amino chalcone converted into the corresponding activated isocyanate. The conjugate was fully characterized.

Published

2012

32. Statistical analysis of ion mobility spectrometry. I. Unbiased and guided replica-exchange molecular dynamics.

Author

Chirot F, Calvo F, Albrieux F, Lemoine J, Tsybin YO, and Dugourd P

Subjects

Ions chemistry, Peptides chemistry, Peptides metabolism, Protein Conformation, Protein Stability, Mass Spectrometry methods, Molecular Dynamics Simulation

Abstract

Achieving (bio)macromolecular structural assignment from the interpretation of ion mobility spectrometry (IMS) experiments requires successful comparison with computer modeling. Replica-exchange molecular dynamics simulations with suitable force fields not only offer a convenient framework to locate relevant conformations, especially in the case of multiple-funnel energy landscapes, but they are also well suited to statistical analyses. In the present paper, we discuss two extensions of the method used to improve its efficiency in the context of IMS. Two doubly-protonated polyalanines [RA(4)XA(4)K + 2H](2+) with X=V and D appear as favorable cases for which the calculated collision cross-section distributions naturally agree with the measurements, providing reliable candidate structures. For these compounds, a careful consideration of other order parameters based on the weighted histogram method resolves several otherwise hidden underlying conformational families. In the case of a much larger peptide exhibiting bistability, assignment is more difficult but could be achieved by guiding the sampling with an umbrella potential using the square gyration radius as the biasing coordinate. Applied to triply protonated bradykinine, the two presented methods indicate that different conformations compatible with the measurements are very close in energy., (© American Society for Mass Spectrometry, 2011)

Published

2012

33. Structural preferences of gas-phase M2TMP monomers upon sequence variations.

Author

Albrieux F, Ben Hamidane H, Calvo F, Chirot F, Tsybin YO, Antoine R, Lemoine J, and Dugourd P

Subjects

Circular Dichroism, Gases chemistry, Models, Molecular, Molecular Dynamics Simulation, Peptides chemical synthesis, Protein Conformation, Tandem Mass Spectrometry, Peptides chemistry

Abstract

The conformations of a number of M2TMP(22-46) sequence variants have been investigated using ion mobility spectrometry (IMS). Substantial conformational changes were evidenced by IMS upon the variation of a single amino acid in the peptide sequence, with two main drift time signatures. Replica-exchange molecular dynamics simulations were used to help assign the structures of the different identified conformers. Even though one-on-one agreement with experiment was found for only two variants, the simulations generally confirmed the existence of two structural families. Based on these results, most of the triply protonated variants, including the wild-type peptide, were found to display collision cross sections in agreement with compact conformations in the gas phase, whereas they tend to form extended α-helices in the condensed phase, as confirmed by circular dichroism and previously reported NMR measurements. The destabilization of α-helices in vacuo upon amino acid substitution is interpreted as being driven by the solvation pattern of the charges.

Published

2011

34. Conformation of polyalanine and polyglycine dications in the gas phase: insight from ion mobility spectrometry and replica-exchange molecular dynamics.

Author

Albrieux F, Calvo F, Chirot F, Vorobyev A, Tsybin YO, Lepère V, Antoine R, Lemoine J, and Dugourd P

Subjects

Diffusion, Protein Conformation, Spectrum Analysis, Temperature, Gases chemistry, Molecular Dynamics Simulation, Peptides chemistry

Abstract

The conformation of model [Arg(Ala)(4)X(Ala)(4)Lys+2H](2+) and [Arg(Gly)(4)X(Gly)(4)Lys+2H](2+) peptides has been systematically investigated as a function of the central amino acid X through a combined experimental and theoretical approach. Mass spectrometry-based ion mobility measurements have been performed together with conformational sampling using replica-exchange molecular dynamics to probe the influence of each amino acid on the stable peptide conformation. Satisfactory agreement is obtained between measured and calculated diffusion cross section distributions. The results confirm the propensity of alanine-based peptides to form alpha-helices in the gas phase, differences between peptides arising from the local arrangement of the central side chain with respect to the charged ends. More generally, we find that charge solvation plays a major role in secondary structure stabilization, especially in the case of glycine-based peptides. The rich variety of conformations exhibited by the latter is qualitatively captured by the simulations. This work illustrates the potentiality of such combined experimental/theoretical strategy to determine peptide secondary structures. The present polyalanine and polyglycine peptides also offer a series of benchmark systems for future conformation-resolved studies.

Published

2010