Andrew J. S. Valentine scite author profile

Intricate potential energy surfaces (PESs) of some transition metal complexes (TMCs) pose challenges in mapping out initial excited-state pathways that could influence photochemical outcomes. Ultrafast intersystem crossing (ISC) dynamics of four structurally related platinum(II) dimer complexes were examined by detecting their coherent vibrational wavepacket (CVWP) motions of Pt–Pt stretching mode in the metal-metal-to-ligand-charge-transfer excited states. Structurally dependent CVWP behaviors (frequency, dephasing time, and oscillation amplitudes) were captured by femtosecond transient absorption spectroscopy, analyzed by short-time Fourier transformation, and rationalized by quantum mechanical calculations, revealing dual ISC pathways. The results suggest that the ligands could fine-tune the PESs to influence the proximity of the conical intersections of the excited states with the Franck–Condon state and thus to control the branching ratio of the dual ISC pathways. This comparative study presents future opportunities in control excited-state trajectories of TMCs via ligand structures.

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Theoretical Prediction of the Structures and Energies of Olympicene and its Isomers

Valentine

Mazziotti

2013

J. Phys. Chem. A

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Pentacene, a linear five-ringed polyaromatic hydrocarbon, has recently been used as an organic semiconductor in field-effect transistors. The recently synthesized olympicene molecule, so named because of its resemblance to the olympic rings, is a more compact five-ringed structure. This paper offers the first theoretical study of the kinetic stability of olympicene and its isomers. We use the parametric two-electron reduced density matrix (2-RDM) method, which takes the 2-RDM as the basic variable in lieu of the traditional wave function in calculations [ Mazziotti , D. A. Phys. Rev. Lett. 2008 , 101 , 253002 ]. Our calculations demonstrate that olympicene's isomers may be separated into aromatic and diradical isomers, the latter of which require accurate treatment of strong electron correlation to detect multireference character. Albeit formally a single-reference method, the parametric 2-RDM captures the multireference correlation of the diradical isomers; relative to olympicene, the 2-RDM predicts five diradical isomers that are 16-22 kcal/mol lower in energy than those from coupled cluster with single and double excitations-a significant change that causes these isomers to be stable to dissociation by 2-20 kcal/mol. We characterize the transition states between olympicene's isomers, observe differences in aromaticity among the different isomers, and compare the electronic properties of olympicene to those of pentacene. The olympicene molecule has the potential to complement pentacene as an organic semiconductor.

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Revealing Excited‐State Trajectories on Potential Energy Surfaces with Atomic Resolution in Real Time

et al. 2023

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Photoexcited molecular trajectories on potential energy surfaces (PESs) prior to thermalization are intimately connected to the photochemical reaction outcome. The excited-state trajectories of a diplatinum complex featuring photo-activated metal-metal σ-bond formation and associated PtÀ Pt stretching motions were detected in real time using femtosecond wide-angle Xray solution scattering. The observed motions correspond well with coherent vibrational wavepacket motions detected by femtosecond optical transient absorption. Two key coordinates for intersystem crossing have been identified, the PtÀ Pt bond length and the orientation of the ligands coordinated with the platinum centers, along which the excited-state trajectories can be projected onto the calculated PESs of the excited states. This investigation has gleaned novel insight into electronic transitions occurring on the time scales of vibrational motions measured in real time, revealing ultrafast nonadiabatic or non-equilibrium processes along excited-state trajectories involving multiple excited-state PESs.

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Resolving the ultrafast intersystem crossing in a bimetallic platinum complex

Valentine

Radler

Mills

et al. 2019

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Bimetallic platinum complexes have interesting luminescent properties and feature long-lasting vibrational coherence and ultrafast intersystem crossing (ISC) after photoexcitation. Ultrafast triplet formation is driven by very strong spin-orbit coupling in these platinum (II) systems, where relativistic theoretical approaches beyond first-order perturbation theory are desirable. Using a fully variational relativistic theoretical method recently developed by the authors, we investigate the origins of ultrafast ISC in the [Pt(ppy) (μ-tBu2pz)]2 complex (ppy = phenylpyridine, pz = pyrazolate). Spin-orbit coupling values, evaluated along a Born-Oppenheimer molecular dynamics trajectory, are used to propagate electronic populations in time. Using this technique, we estimate ultrafast ISC rates of 15–134 fs in this species for the possible ISC pathways into the three low-lying triplet states.

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On the Crystal Polymorphic Forms of l-Glutamic Acid Following Temperature Programmed Crystallization in a Batch Oscillatory Baffled Crystallizer

Valentine

Liao

et al. 2004

Crystal Growth & Design

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L-Glutamic acid exhibits two polymorphs: the metastable R form that is prismatic in nature and the stable β form that is needle shaped. In this paper, the effects of mixing intensity, cooling rate, and temperature on the polymorphism and crystal characteristics in a solution crystallization of L-glutamic acid are investigated in a relatively new oscillatory baffled crystallizer. The prevalence of a preseeding effect was identified during the experiments, whereby traces of a specific polymorph were retained between experiments and acted as seeding for subsequent batches despite rigorous cleaning procedures. Under those conditions, the variations in mixing, cooling rate, and temperature seemed to have little effect on the polymorphic forms of the crystals prepared. Potential mechanisms for the preseeding effect are discussed. Examination of the role of seeding on the crystal morphology reveals its function to decouple the effect of preseeding, allowing the selected polymorph to be produced.

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