Jason Richard scite author profile

Jason Richard

2Publications

32Citation Statements Received

127Citation Statements Given

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107

Affiliations

École Nationale Supérieure de Chimie de Montpellier, Institut Charles Gerhardt, ElectroChemical Systems (United States)

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Pressure-Induced Insertion of Ammonia Borane in the Siliceous Zeolite, Silicalite-1F

et al. 2016

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A combination of Raman spectroscopy and X-ray diffraction was used to investigate the insertion of ammonia borane in the 5.5 Å diameter pores of the hydrophobic, all-silica zeolite, silicalite-1F in the pressure range up to 4.8 GPa. Insertion and nanoconfinement result in the appearance of new Raman modes, especially in the N–H stretching region and significant changes in the intensities and pressure dependencies of a large number of other modes. Orientational disorder of the −BH3 and −NH3 groups persists to higher pressures in nanoconfined as compared to the bulk ammonia borane. The structure of the recovered sample was determined by single crystal X-ray diffraction. Each pore in the unit cell was found to contain between 2 and 3 molecules of ammonia borane forming single-molecule chains due to the spatial constraints. In situ, high pressure, X-ray powder diffraction indicated that the compressibility of the ammonia borane-silicalite-1F composite is three times lower than that of empty silicalite-1F due to pore filling. These results show that silicalite-1F can be a suitable nanoscaffold for this important chemical hydrogen-storage material.

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pH-mediated control over the mesostructure of ordered mesoporous materials templated by polyion complex micelles

Molina¹,

Mathonnat²,

Richard³

et al. 2019

Beilstein J. Nanotechnol.

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Ordered mesoporous silica materials were prepared under different pH conditions by using a silicon alkoxide as a silica source and polyion complex (PIC) micelles as the structure-directing agents. PIC micelles were formed by complexation between a weak polyacid-containing double-hydrophilic block copolymer, poly(ethylene oxide)-b-poly(acrylic acid) (PEO-b-PAA), and a weak polybase, oligochitosan-type polyamine. As both the micellization process and the rate of silica condensation are highly dependent on pH, the properties of silica mesostructures can be modulated by changing the pH of the reaction medium. Varying the materials synthesis pH from 4.5 to 7.9 led to 2D-hexagonal, wormlike or lamellar mesostructures, with a varying degree of order. The chemical composition of the as-synthesized hybrid organic/inorganic materials was also found to vary with pH. The structure variations were discussed based on the extent of electrostatic complexing bonds between acrylate and amino functions and on the silica condensation rate as a function of pH.

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Jason Richard

Pressure-Induced Insertion of Ammonia Borane in the Siliceous Zeolite, Silicalite-1F

pH-mediated control over the mesostructure of ordered mesoporous materials templated by polyion complex micelles

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