A. Corval scite author profile

A. Corval

3Publications

143Citation Statements Received

9Citation Statements Given

How they've been cited

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138

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Affiliations

Institut Fourier, Joseph Fourier University, French National Centre for Scientific Research

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Diarylethene microcrystals make directional jumps upon ultraviolet irradiation

Colombier

Spagnoli

Corval

et al. 2007

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Microcrystals of a diarylethene {1,2-bis[5'-methyl-2'-(2"-pyridyl)thiazolyl]perfluorocyclo-pentene} undergo jumps upon photoirradiation. These photochromic crystals present molecular structural changes upon irradiation with ultraviolet light because of reversible photocyclization reactions. When the energy absorbed by crystals reaches about 10 microJ, the uniaxial stress induced in the crystal lattice relaxes through directional jumps. If one prevents crystals from jumping, then parallel, equidistant cracks appear on crystal surfaces. These photomechanical effects could result from a Grinfeld surface instability.

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Imidodiphosphinate ligands as antenna units in luminescent lanthanide complexes

Magennis¹,

Parsons²,

Pikramenou³

et al. 1999

Chem. Commun.

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Proton dynamics and the tautomerization potential in benzoic acid crystals

Neumann

Craciun

Corval

et al. 1998

Ber Bunsenges Phys Chem

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Two‐proton exchange along the two hydrogen bonds mediates the tautomerization in benzoic acid (BA) dimers. Optical spectroscopy and quasi‐elastic neutron scattering (QENS) have been employed to characterize the proton dynamics in doped and pure BA crystals. The proton motion in BA is governed by a multidimensional potential energy surface (PES), and recent theoretical methods, based on a perturbative instanton approach, to describe tunneling in such PES are presented. This PES is also modulated by the interaction with the solid state environment as manifest by the energy difference between the otherwise equivalent tautomers. The value of this energy difference in pure crystals is an important parameter in the data analysis of NMR and QENS. Both methods give mutually consistent values that differ significantly from earlier determinations via infrared and 13C NMR as well as a recent evaluation using neutron diffraction data. The energy difference between tautomers is altered for dimers in the vicinity of impurity molecules. This is the basis for the optical spectroscopic methods, which enable a direct and accurate determination of the level structure and tautomerization dynamics of these coupled dimers in the limit of very low temperatures, where coherent tunneling is also observed in some cases. Measurements with new impurity molecules make it possible to monitor simultaneously at least 10 different tautomer configurations and prove that the influence of the probe molecules on the proton dynamics is small. The transition to thermally activated barrier crossing at higher temperatures is accessed via the width of the QENS line that is determined by the inverse of the proton correlation time. The quantitative data analysis of the scattered intensity as a function of temperature and scattering angle yields the energy difference, A, between the two wells (A/kB=90+20 K), the length (0.686 Å), and direction of the proton jump vector. These measurements complement NMR investigations presented in the preceding paper.

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A. Corval

Diarylethene microcrystals make directional jumps upon ultraviolet irradiation

Imidodiphosphinate ligands as antenna units in luminescent lanthanide complexes

Proton dynamics and the tautomerization potential in benzoic acid crystals

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