2010
DOI: 10.5155/eurjchem.1.2.142-161.119
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Theory and computations of two-photon absorbing photochromic chromophores

Abstract: KEYWORDSExponential growth in information technology generates ever increasing amounts of data, making recording density of the storage media crucially important. Two-photon absorption was proposed as a basis for high-density multi-layer technology for optical memory and logic devices. This technology suggests to use polymers, doped with photochromic compounds that undergo a reversible photoinduced isomerization, or photoswitching. In this review we consider recent theoretical works and benchmarking studies of… Show more

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Cited by 15 publications
(23 citation statements)
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References 167 publications
(218 reference statements)
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“…The main challenge is the computation of the transition dipole moments μ ij connecting the excited states ( i , j ≠ 0). In this work, we used a method based on TDDFT with a posteriori Tamm–Dancoff approximation, ,, which has been proven successful in predicting 2PA in porphyrins. , It should be mentioned that multiple formulas for calculations of multiphoton absorption cross sections have appeared in the literature, using different systems of units, line shapes, conversion factors, etc. The formulas used in our calculations are discussed in the SI (Section S5).…”
Section: Resultsmentioning
confidence: 99%
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“…The main challenge is the computation of the transition dipole moments μ ij connecting the excited states ( i , j ≠ 0). In this work, we used a method based on TDDFT with a posteriori Tamm–Dancoff approximation, ,, which has been proven successful in predicting 2PA in porphyrins. , It should be mentioned that multiple formulas for calculations of multiphoton absorption cross sections have appeared in the literature, using different systems of units, line shapes, conversion factors, etc. The formulas used in our calculations are discussed in the SI (Section S5).…”
Section: Resultsmentioning
confidence: 99%
“…The quantum chemistry calculations were performed using in-house-modified Gaussian 09 in conjunction with M05-QX exchange–correlation functional . The SDD Stuttgart effective core potentials were used for the metal atoms, while the D95 basis set was used for all other elements to prevent artificial Rydberg contributions to the valence excited states. ,, For all porphyrins, 22 excited states were calculated using time-dependent density functional theory (TDDFT). In all calculations, the solvent effects were included using the dielectric continuum model in the solvent model density (SMD) parameterization, as implemented in Gaussian 09.…”
Section: Experimental Methodsmentioning
confidence: 99%
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“…Although photochemical reactions take place on the excited state potential energy surface, their computational study is rather involved, 59,60 and for some steps activation berries on the ground state can suffice. 61−63 In order to estimate the probability of the reaction steps above, we calculated the energies and thermodynamic parameters for these reaction steps.…”
Section: Resultsmentioning
confidence: 99%
“…In particular, we focus on molecular materials, and, thereby, topics of devices, for example, laser system, optical system, and so on, which have been introduced in some excellent reviews [2,34], are not included. The significant studies on theory and calculations mainly using a DFT (density functional theory) method, which are useful in the design of new two-photon absorbing molecules, have also been reported [35][36][37] and reviewed [38]. …”
Section: Methodsmentioning
confidence: 99%