Evaluation of Single-Reference DFT-Based Approaches for the Calculation of Spectroscopic Signatures of Excited States Involved in Singlet Fission

Han, Jie; Rehn, Dirk R.; Buckup, Tiago; Dreuw, Andreas

doi:10.1021/acs.jpca.0c07236

Cited by 11 publications

(9 citation statements)

References 99 publications

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“…The weak electronic coupling is reinforced by quantum chemical calculations, indicating an absence of NIR absorption bands of the correlated triplet pair. 37,59,60 This contrasts reports on tetracene and pentacene, for which a significant stabilization of 1 (TT) with regard to 2T 1 is observed. 61 While these observations point toward T 1 T 1 , we note that an unambiguous assignment would require the employment of time-resolved electron spin-resonance measurements.…”

Section: Discussioncontrasting

confidence: 78%

“…This is based on the weak binding energy of 1 (TT), that is, E (2T 1 ) – E ( 1 (TT)) (Table ), which facilitates the loss of the interstate coupling. The weak electronic coupling is reinforced by quantum chemical calculations, indicating an absence of NIR absorption bands of the correlated triplet pair. ,, This contrasts reports on tetracene and pentacene, for which a significant stabilization of 1 (TT) with regard to 2T 1 is observed . While these observations point toward T 1 T 1 , we note that an unambiguous assignment would require the employment of time-resolved electron spin-resonance measurements. − However, regardless of the exact nature of the triplet pair species, its presence is operative for the mechanism invoked for our dimers and supported by the SADS (applying a kinetic model to the global analysis, Figure S59).…”

Section: Discussionmentioning

confidence: 56%

“…All quantum chemical calculations were performed using Gaussian 16 and Multiwfn 3.7 . The detailed explanation for the choice of the method is given in refs – . The ground-state structures of 8a–c , as well as their homodimers 1a–c , 2a–c , and 3a–c were optimized using the density functional theory (DFT) in combination with the ωB97X-D functional and the 6-31G* basis set .…”

Section: Methodsmentioning

confidence: 99%

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Structure Set in Stone: Designing Rigid Linkers to Control the Efficiency of Intramolecular Singlet Fission

et al. 2021

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Research on materials facilitating efficient singlet fission (SF) is driven by a possible reduction of thermalization losses in organic photovoltaic devices. Intramolecular SF (iSF) is in this context of special interest, as the targeted modification of either chromophores or linkers enables gradual variations of molecular properties. In this combined synthetic, spectroscopic, and computational work, we present and investigate nine novel spiro-linked azaarene dimers, which undergo efficient iSF with triplet yields up to 199%. Additional molecular braces enhance the rigidity of these tailor-made dimers (TMDs), resulting in great agreement between crystal structures and predicted optimal geometries for iSF in solution. Regardless of the employed chromophores and linkages, the dynamics of all nine TMDs are perfectly described by a unified kinetic model. Most notably, an increase in the orbital overlap of the π-systems by decreasing the twist angle between the two chromophores does not only increase the rate of formation of the correlated triplet pair but also further promotes its decorrelation. This new structure–function relationship represents a promising strategy toward TMDs with high triplet lifetimes to be utilized in optoelectronic devices.

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Section: Discussioncontrasting

confidence: 78%

Section: Discussionmentioning

confidence: 56%

Section: Methodsmentioning

confidence: 99%

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Structure Set in Stone: Designing Rigid Linkers to Control the Efficiency of Intramolecular Singlet Fission

et al. 2021

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“…In previous work, we applied SLR methods to ES and two-photon absorption , (where the dipoles involving ES-to-ES transitions are required). Han et al also applied this idea to ES absorption of the TIPS-pentacene system. Previously, we developed two methods: (i) a procedure that uses numerical differentiation to determine transition dipoles for excitations from a selected excited state (if N excited states are selected, then this method requires a solution for N + 1 Casida equations) and (ii) a faster method where only the standard Casida equation is solved.…”

Section: Introductionmentioning

confidence: 99%

Second Linear Response Theory and the Analytic Calculation of Excited-State Properties

et al. 2021

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We present a method based on second linear response time-dependent density functional theory (TDDFT) to calculate permanent and transition multipoles of excited states, which are required to compute excited-state absorption/emission spectra and multiphoton optical processes, among others. In previous work, we examined computations based on second linear response theory in which linear response TDDFT was employed twice. In contrast, the present methodology requires information from only a single linear response calculation to compute the excited-state properties. These are evaluated analytically through various algebraic operations involving electron repulsion integrals and excitation vectors. The present derivation focuses on full many-body wave functions instead of single orbitals, as in our previous approach. We test the proposed method by applying it to several diatomic and triatomic molecules. This shows that the computed excited-state dipoles are consistent with respect to reference equation-of-motion coupled-cluster calculations.

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“…However, since the training reference values were obtained from theoretical calculations themselves, such deviations can be considered negligible compared to the errors inherent to the density functional theory (DFT) reference itself. Judging from benchmark studies on the performance of DFT methods for the description of singlet fission molecules [31][32][33] , it is thus fair to assume that the actual excitation energies of our predicted overall distribution will be globally shifted by somewhere between 0.1 and 0.3 eV with respect to possible experimental values, while the trends when comparing individuals inside the distribution are predicted correctly.…”

Section: Machine Learning Of Excitation Energiesmentioning

confidence: 99%

Machine-learning assisted design principle search for singlet fission: an example study of cibalackrot

Weber

Mori

2022

npj Comput Mater

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This work uses quantum chemistry calculations and machine learning to explore design rules for singlet fission in a chemical space of four million indigoid derivatives. We identify ~400,000 derivatives of 2,2′-diethenyl cibalackrot, which theoretically fulfil the energy conditions for exoergic singlet fission above the silicon band gap energy. Probing this database with a random forest classifier, we observe that small substituents with positive mesomeric effects and weak negative inductive effects reinforce the desired energetic conditions when placed at specific positions. Finally, a subset of molecules that reflects the random forest classifier’s rules are investigated for their quantum chemical properties to translate the desirable structural motifs into wavefunction-based design rules. Here, direct correlations between the energetic condition for singlet fission, the biradical character and the charge and triplet spin density in prominent molecular regions are identified, providing insights that may serve as a guide for singlet fission core structure development.

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Evaluation of Single-Reference DFT-Based Approaches for the Calculation of Spectroscopic Signatures of Excited States Involved in Singlet Fission

Cited by 11 publications

References 99 publications

Structure Set in Stone: Designing Rigid Linkers to Control the Efficiency of Intramolecular Singlet Fission

Structure Set in Stone: Designing Rigid Linkers to Control the Efficiency of Intramolecular Singlet Fission

Second Linear Response Theory and the Analytic Calculation of Excited-State Properties

Machine-learning assisted design principle search for singlet fission: an example study of cibalackrot

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