Ultrafast excited-state dynamics of isocytosine

Szabla, Rafał; Góra, Robert W.; Šponer, Jiřı́

doi:10.1039/c6cp01391k

Cited by 35 publications

(69 citation statements)

References 69 publications

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“…Since the publication of the algorithm to evaluate approximate nonadiabatic couplings with CC2 and ADC(2), 263 different groups have used and implemented this methodology. 255,[270][271][272][273][274][275][276][277][278][279][280] So far, most of the ADC(2) NA-MQC dynamics simulations have focused on the photochemistry of heterocycles [270][271][272][273] and the effect of aggregation with water on their excited-state dynamics. [274][275][276][277][278] A recent systematic study of some oligocenes and hetero-atomic fused rings has raised some concerns about the description of the La and Lb states with both CC2 and ADC(2).…”

Section: Linear-response Methods I: CC Adcmentioning

confidence: 99%

Recent Advances and Perspectives on Nonadiabatic Mixed Quantum–Classical Dynamics

2018

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Nonadiabatic mixed quantum-classical (NA-MQC) dynamics methods form a class of computational theoretical approaches in quantum chemistry tailored to investigate the time evolution of nonadiabatic phenomena in molecules and supramolecular assemblies. NA-MQC is characterized by a partition of the molecular system into two subsystems: one to be treated quantum mechanically (usually but not restricted to electrons) and another to be dealt with classically (nuclei). The two subsystems are connected through nonadiabatic couplings terms to enforce self-consistency. A local approximation underlies the classical subsystem, implying that direct dynamics can be simulated, without needing precomputed potential energy surfaces. The NA-MQC split allows reducing computational costs, enabling the treatment of realistic molecular systems in diverse fields. Starting from the three most well-established methods-mean-field Ehrenfest, trajectory surface hopping, and multiple spawning-this review focuses on the NA-MQC dynamics methods and programs developed in the last 10 years. It stresses the relations between approaches and their domains of application. The electronic structure methods most commonly used together with NA-MQC dynamics are reviewed as well. The accuracy and precision of NA-MQC simulations are critically discussed, and general guidelines to choose an adequate method for each application are delivered.

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Section: Linear-response Methods I: CC Adcmentioning

confidence: 99%

Recent Advances and Perspectives on Nonadiabatic Mixed Quantum–Classical Dynamics

2018

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“…ADC(2) was recently applied to various organic molecules, typically providing the results consistent with experiments. The method can also be used for optimizing conical intersections, although it does not provide a correct dimensionality of the crossing seam (for S 1 /S 0 crossing) . The computations were performed with Turbomole 7.0.2 package and the strict ADC(2) method implemented therein.…”

Section: Computational Sectionmentioning

confidence: 99%

Fluorescence Quenching in BODIPY Dyes: The Role of Intramolecular Interactions and Charge Transfer

2017

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The fluorescence properties of the BODIPY dye and its two meso-substituted derivatives, tert-butyl-and phenyl-BODIPY, are rationalized. The non-emissive behavior of the latter two are attributed to the energetically accessible low-lying conical intersection between the ground state and the lowest excited singlet state. Both intramolecular non-covalent interactions and excited state charge transfer character are identified as being crucial for 'stabilizing' the intersection and prompting the nonradiative decay. Similar crossing was located in the bare BODIPY dye, however, being energetically less accessible, which correlates well with the high fluorescence quantum yields of the parent dye.

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“…The geometries in the S1 and T1 states have been optimized with the same ADC(2) method. The conical intersection has been optimized using the procedure of Szabla et al (39). anatase phase and peaks from SiC having integral intensities roughly proportional to its content (cf.…”

Section: Synthesis Of Tio 2 /B-sic Nanocompositesmentioning

confidence: 99%

The Properties and Activity of TiO₂/beta‐SiC Nanocomposites in Organic Dyes Photodegradation

Pstrowska

Szyja

Czapor-Irzabek

et al. 2017

Photochem & Photobiology

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The TiO /beta-SiC nanocomposites containing 0-25 wt. % of beta-SiC were synthesized by the sol-gel method and tested in the photodegradation of methylene blue and methyl orange water solutions. With the increase in SiC content, only a slight decrease in energy band gap was observed (3.19-3.12 eV), together with significant increase in the surface area of the catalysts (42.7-80.4 m g ). In the synthesized material, the anatase phase of TiO was present in the form of small agglomerates resulting from the mechanical mixing process. In the process conditions (catalyst concentration 0.5 g L , initial dye concentration 100 ppm, light source 100 W UV-Vis lamp), we have observed no signs of catalyst deactivation. The significantly higher photodegradation activity of methylene blue than methyl orange can be attributed to the preferable pH of the solution compared to pH and the cationic character of the first dye. In case of methyl orange, pH process conditions substantially limit the contact of the catalyst with the dye, as negatively charged surface of the catalysts repels the dissociated anionic dye molecules.

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Ultrafast excited-state dynamics of isocytosine

Cited by 35 publications

References 69 publications

Recent Advances and Perspectives on Nonadiabatic Mixed Quantum–Classical Dynamics

Recent Advances and Perspectives on Nonadiabatic Mixed Quantum–Classical Dynamics

Fluorescence Quenching in BODIPY Dyes: The Role of Intramolecular Interactions and Charge Transfer

The Properties and Activity of TiO₂/beta‐SiC Nanocomposites in Organic Dyes Photodegradation

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Ultrafast excited-state dynamics of isocytosine

Cited by 35 publications

References 69 publications

Recent Advances and Perspectives on Nonadiabatic Mixed Quantum–Classical Dynamics

Recent Advances and Perspectives on Nonadiabatic Mixed Quantum–Classical Dynamics

Fluorescence Quenching in BODIPY Dyes: The Role of Intramolecular Interactions and Charge Transfer

The Properties and Activity of TiO2/beta‐SiC Nanocomposites in Organic Dyes Photodegradation

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The Properties and Activity of TiO₂/beta‐SiC Nanocomposites in Organic Dyes Photodegradation