CASSCF calculations for photoinduced processes in large molecules: Choosing when to use the RASSCF, ONIOM and MMVB approximations

Bearpark, Michael J.; Ogliaro, François; Vreven, Thorn; Boggio‐Pasqua, Martial; Frisch, Michael J.; Larkin, Susan M.; Morrison, Marc; Robb, Michael A.

doi:10.1016/j.jphotochem.2007.05.008

Cited by 59 publications

(39 citation statements)

References 131 publications

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“…Additionally, the quantum chemical methods should be able to give a balanced and accurate description of all states over the whole potential energy surface, which usually requires multiconfigurational wavefunctions. These requirements are currently fulfilled for several implementations [178][179][180] of the multiconfigurational self-consistent field (MCSCF) method [186,187] and for multireference configuration interaction (MRCI) as implemented in Columbus. [178] Using MCSCF or MRCI, already a number of ISC dynamics simulations have been reported using SHARC.…”

Section: Discussionmentioning

confidence: 99%

A general method to describe intersystem crossing dynamics in trajectory surface hopping

Mai

Marquetand

González

2015

Int J of Quantum Chemistry

266

406

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Intersystem crossing is a radiationless process that can take place in a molecule irradiated by UV‐Vis light, thereby playing an important role in many environmental, biological and technological processes. This paper reviews different methods to describe intersystem crossing dynamics, paying attention to semiclassical trajectory theories, which are especially interesting because they can be applied to large systems with many degrees of freedom. In particular, a general trajectory surface hopping methodology recently developed by the authors, which is able to include nonadiabatic and spin‐orbit couplings in excited‐state dynamics simulations, is explained in detail. This method, termed SHARC, can in principle include any arbitrary coupling, what makes it generally applicable to photophysical and photochemical problems, also those including explicit laser fields. A step‐by‐step derivation of the main equations of motion employed in surface hopping based on the fewest‐switches method of Tully, adapted for the inclusion of spin‐orbit interactions, is provided. Special emphasis is put on describing the different possible choices of the electronic bases in which spin‐orbit can be included in surface hopping, highlighting the advantages and inconsistencies of the different approaches. © 2015 Wiley Periodicals, Inc.

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Section: Discussionmentioning

confidence: 99%

A general method to describe intersystem crossing dynamics in trajectory surface hopping

Mai

Marquetand

González

2015

Int J of Quantum Chemistry

266

406

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“…The calculations on the formacetal bridged T(6-4)T are based on a hybrid partitioning approach (ONIOM) [41,42], which includes the steric effects and ground state polarization effects of the complete dinucleotide on QM/QM level of theory. The first high-level quantum mechanical (QM) part refers to the photoactive chromophore 5-methyl-2-pyrimidinone (5M2P), where the electronic excitation and subsequent bond rearrangement takes place, and the second low-level QM part describes the remaining part of the bridged T(6-4)T (sugar glycol backbone+dihydrothymidine part).…”

Section: Quantum Chemical Calculations Of Electronic Excited Statesmentioning

confidence: 99%

Dynamics of ultraviolet-induced DNA lesions: Dewar formation guided by pre-tension induced by the backbone

Fingerhut

Herzog²,

Ryseck

et al. 2012

New J. Phys.

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The photophysical and photochemical processes driving the formation of the ultraviolet (UV)-induced DNA Dewar lesion from the T(6-4)T dimer are investigated by time-resolved spectroscopy and quantum chemical modelling. Time-resolved absorption and emission spectroscopy in the UV revealed a biexponential decay of the electronically excited state (S 1 ) with time constants in the 100 ps and 1 ns range. From the S 1 state the system forms the Dewar lesion (proven by time-resolved infrared spectroscopy), the triplet state of the T(6-4)T dimer and the ground state of the original T(6-4)T dimer. The decay process from the excited singlet is activated and thus temperature dependent. Quantum chemical modelling is used to describe the reaction path via a minimum on the excited electronic potential energy surface in close proximity to a triplet 5 Current address:

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“…Under the label MMVB (molecular mechanics with valence‐bond), the model has been extensively exploited by Robb et al. on photochemical processes of conjugated hydrocarbons 38–44…”

Section: Introductionmentioning

confidence: 99%

Theoretical Design of High‐Spin Polycyclic Hydrocarbons

Trinquier¹,

Suaud²,

Malrieu³

2010

Chemistry A European J

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High-spin organic structures can be obtained from fused polycyclic hydrocarbons, by converting selected peripheral HC(sp(2)) sites into H(2)C(sp(3)) ones, guided by Ovchinnikov's rule. Theoretical investigation is performed on a few examples of such systems, involving three to twelve fused rings, and maintaining threefold symmetry. Unrestricted DFT (UDFT) calculations, including geometry optimizations, confirm the high-spin multiplicity of the ground state. Spin-density distributions and low-energy spectra are further studied through geometry-dependent Heisenberg-Hamiltonian diagonalizations and explicit correlated ab initio treatments, which all agree on the high-spin character of the suggested structures, and locate the low-lying states at significantly higher energies. In particular, the lowest-lying state of lower multiplicity is always found to be higher than kT at room temperature (at least ten times higher). Simplification of the ferromagnetic organization based on sets of semilocalized nonbonding orbitals is proposed. Molecular architectures are thus conceived in which the ferromagnetically-coupled unpaired electrons tally up to one third of the involved conjugated carbons. Connecting such building blocks should provide bidimensional materials endowed with robust magnetic properties.

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CASSCF calculations for photoinduced processes in large molecules: Choosing when to use the RASSCF, ONIOM and MMVB approximations

Cited by 59 publications

References 131 publications

A general method to describe intersystem crossing dynamics in trajectory surface hopping

A general method to describe intersystem crossing dynamics in trajectory surface hopping

Dynamics of ultraviolet-induced DNA lesions: Dewar formation guided by pre-tension induced by the backbone

Theoretical Design of High‐Spin Polycyclic Hydrocarbons

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