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G. Buntinx, O. Poizat, S. Foley, M. Sliwa, S. Aloïse, V. Lokshin, A. Samat (2011)
Sub-picosecond transient absorption spectroscopy of substituted photochromic spironaphthoxazine compoundsDyes and Pigments, 89
L. Butler (1998)
Chemical reaction dynamics beyond the Born-Oppenheimer approximation.Annual review of physical chemistry, 49
A. Metelitsa, V. Lokshin, J. Micheau, A. Samat, R. Guglielmetti, V. Minkin (2002)
Photochromism and solvatochromism of push???pull or pull???push spiroindolinenaphthoxazinesElectronic supplementary information (ESI) available: Analysis of products 12, 13, 14 and 17 absorbance of solutions of 2. See http://www.rsc.org/suppdata/b2/b204603b/Physical Chemistry Chemical Physics, 4
V. Minkin (2004)
Photo-, thermo-, solvato-, and electrochromic spiroheterocyclic compounds.Chemical reviews, 104 5
V. Lokshin, A. Samat, A. Metelitsa (2003)
Spirooxazines: synthesis, structure, spectral and photochromic propertiesRussian Chemical Reviews, 71
V. Barone, M. Cossi (1998)
Quantum Calculation of Molecular Energies and Energy Gradients in Solution by a Conductor Solvent ModelJournal of Physical Chemistry A, 102
G. Buntinx, S. Foley, C. Lefumeux, V. Lokshin, O. Poizat, A. Samat (2004)
Evidence for a photophysical deactivation pathway competing with the photochromic transformation in a cyano-substituted spironaphthoxazineChemical Physics Letters, 391
ISSN 00125008, Doklady Chemistry, 2011, Vol. 441, Part 1, pp. 338–342. © Pleiades Publishing, Ltd., 2011. Original Russian Text © A.V. Metelitsa, I.V. Dorogan, G. Buntinx, O. Poizat, V.A. Lokshin, V.I. Minkin, 2011, published in Doklady Akademii Nauk, 2011, Vol. 441, No. 3, pp. 332–336. CHEMISTRY The Role of Charge Transfer States in Deactivation of the Electronic Excitation Energy of Spirooxazines a a b A. V. Metelitsa , I. V. Dorogan , G. Buntinx , b c a O. Poizat , V. A. Lokshin , and Academician V. I. Minkin Received July 19, 2011 DOI: 10.1134/S0012500811110127 Photochromic compounds, characterized by cules. In particular, the introduction of electronwith reversible photoinduced structural changes, are prom drawing substituents into the naphthoxazine moiety and/or electrondonating groups into the indoline ising candidates for use in different areas of molecular moiety of SPOs leads to a considerable decrease in the electronics, photonics, and spintronics. Among the photocoloration quantum yield [3]. To shed light on photochromic compounds, spirocyclic molecular sys what underlies this important tendency, in the present tems, in particular, spirooxazines (SPOs), hold special work, we have studied the dynamics of photoinitiated position. SPOs have high photocoloration quantum processes in SPO molecules 1 and 2
Doklady Chemistry – Springer Journals
Published: Dec 27, 2011
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