Thermochemistry of icosahedral closo-dicarboranes: a composite ab initio quantum-chemical perspective

Sarrami, Farzaneh; Yu, Li‐Juan; Karton, Amir

doi:10.1139/cjc-2016-0272

Cited by 5 publications

(6 citation statements)

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“…In G4(MP2) theory, the CCSD(T) energy is approximated using the following formula. Here, HF/{T,Q} indicates extrapolation of the HF energy from truncated versions of the aug-cc-pVTZ and aug-cc-pVQZ basis sets . All ab initio calculations involved in the G4(MP2) procedure were calculated using Molpro 2016. , G4(MP2) theory has been found to reproduce isomerization energies in conjugated, aromatic, and cage systems within chemical accuracy. − All the C 40 isomers were confirmed to have singlet ground states at the MN15/Def2-TZVPP level of theory. The adiabatic singlet–triplet separation energies are presented in Table S1 of the Supporting Information.…”

Section: Methodsmentioning

confidence: 99%

“…The G4(MP2) composite procedure approximates the CCSD(T) energy in conjunction with a triple-ζ-quality basis set (CCSD(T)/TZ) via an MP2-based basis-set additivity scheme . G4(MP2) theory has been found to consistently obtain structural isomerization energies with chemical (or better) accuracy, arbitrarily defined as 1 kcal mol –1 = 4.2 kJ mol –1 ). − Of particular relevance to the present work is the excellent performance of G4(MP2) for isomerization energies in polycyclic aromatic hydrocarbons, conjugated → nonconjugated isomerizations in dienes, C 8 H 8 structural isomerizations, and isomerization energies in carborane cages . In addition, here we evaluate the performance of G4(MP2) theory for the above C 20 and C 24 CCSD(T)/CBS isomerization energies of Manna and Martin.…”

Section: Introductionmentioning

confidence: 98%

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Fullerenes Pose a Strain on Hybrid Density Functional Theory

Karton

2022

J. Phys. Chem. A

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The computational modeling of fullerenes plays a fundamental role in designing low-dimension carbon nanostructures. Nevertheless, the relative energies of fullerenes larger than C 20 and C 24 have not been comprehensively examined by means of highly accurate ab initio methods, for example, the CCSD(T) method. Here we report such an investigation for a diverse set of 29 C 40 isomers. We calculate the energies of the C 40 fullerenes using the G4(MP2) composite ab initio method, which approximates the CCSD(T) energy in conjunction with a triple-ζ-quality basis set (CCSD(T)/TZ). The CCSD(T)/TZ isomerization energies span 43.1−763.3 kJ mol −1 . We find a linear correlation (R 2 = 0.96) between the CCSD(T)/TZ isomerization energies and the fullerene pentagon signatures (P 1 index), which reflect the strain associated with fused pentagon−pentagon rings. Using the reference CCSD(T)/TZ isomerization energies, we examine the relationship between the percentage of exact Hartree−Fock (HF) exchange in hybrid density functional theory (DFT) methods and the pentagon−pentagon strain energies. We find that the performance of hybrid DFT methods deteriorates with the pentagon−pentagon strain energy. This deterioration in performance becomes more pronounced with the inclusion of high amounts of HF exchange. For example, for B3LYP (20% HF exchange), the root-mean-square deviation (RMSD) relative to G4(MP2) increases from 8.9 kJ mol −1 for the low-strain isomers (P 1 = 11) to 18.0 kJ mol −1 for the high-strain isomers (P 1 > 13). However, for BH&HLYP (50% HF exchange) the RMSD increases from 23.0 (P 1 = 11) to 113.2 (P 1 > 13) kJ mol −1 . A similar trend is observed for the M06/M06-2X pair of functionals. Namely, for M06 (27% HF exchange) the RMSD increases from 0.8 (P 1 = 11) to 21.0 (P 1 > 1 3) kJ mol −1 , whereas for M06-2X (54% HF exchange) the RMSD increases from 16.7 (P 1 = 11) to 77.7 (P 1 > 13) kJ mol −1 . Overall, we find that the strain associated with pentagon adjacency is an inherently challenging problem for hybrid DFT methods involving high amounts of HF exchange and that there is an inverse relationship between the optimal percentage of HF exchange and the pentagon−pentagon strain energy. For example, for BLYP the optimal percentages of HF exchange are 13% (P 1 = 11), 10% (P 1 = 12), 7.5% (P 1 = 13), and 6% (P 1 > 13).

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 98%

Fullerenes Pose a Strain on Hybrid Density Functional Theory

Karton

2022

J. Phys. Chem. A

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“…16,17,25,26 For example, for isomerization energies of ortho, meta, and para carboranes (C2B10H12) the deviations between G4(MP2) and W1-F12 amount to less than 1 kJ mol -1 . 27 The DFT exchange-correlation functionals considered in the present study (ordered by their rung on Jacob's Ladder) 7 are given in Table 1. Empirical D3 dispersion corrections 28,29,30 are included in some cases using the finite Becke-Johnson 31 and zero-damping potentials (denoted by the suffix -D3BJ and -D3, respectively).…”

Section: Methodsmentioning

confidence: 99%

“…It should be pointed out that ideally, we should be using a higher-level composite ab initio method such as W1–F12, which approximates the CCSD(T) energy closer to the basis set limit for calculating the C 60 isomerization energies; , however, these calculations proved beyond our computational resources. Nevertheless, the G4(MP2) isomerization energies should be of sufficient accuracy for the purpose of benchmarking DFT and MP2-based procedures due to a large degree of systematic error cancelation between reactants and products. ,,, For example, for isomerization energies of ortho, meta, and para carboranes (C 2 B 10 H 12 ) the deviations between G4(MP2) and W1–F12 amount to less than 1 kJ mol –1 …”

Section: Methodsmentioning

confidence: 99%

Performance of DFT for C₆₀ Isomerization Energies: A Noticeable Exception to Jacob’s Ladder

2018

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The ability to accurately calculate relative energies of fullerenes is important in many areas of computational nanotechnology. Due to the large size of fullerenes, their relative energies cannot normally be calculated by means of high-level ab initio procedures, and therefore density functional theory (DFT) represents a cost-effective alternative. In an extensive benchmark study, we calculate the electronic energies of eight C60 isomers by means of the high-level G4(MP2) composite procedure. G4(MP2) isomerization energies span a wide range between 307.5-1074.0 kJ mol -1 . We use this benchmark data to assess the performance of DFT, double-hybrid DFT (DHDFT), and MP2-based ab initio methods. Surprisingly, functionals from the second and third rungs of Jacob's Ladder (i.e., GGA and meta-GGA functionals) significantly and systematically outperform hybrid and hybrid-meta-GGA functionals, which occupy higher rungs of Jacob's Ladder. In addition, DHDFT functionals do not offer a substantial improvement over meta-GGA functionals, with respect to isomerization energies. Overall, the best performing functionals with mean absolute deviations (MADs) below 15.0 kJ mol -1 are (MADs given in parenthesis) the GGA N12 (14.7); meta-GGAs M06-L (10.6), M11-L (10.8), MN15-L (11.9), and TPSS-D3BJ (12.8); and the DHDFT functionals B2T-PLYP (9.3), mPW2-PLYP (9.8), B2K-PLYP (12.1), and B2GP-PLYP (12.3 kJ mol -1 ). In light of these results, we recommend the use of meta-GGA functionals for the calculation of fullerene isomerization energies. Finally, we show that inclusion of very small percentages of exact Hartree-Fock exchange (3-5%) slightly improves the performance of the GGA and meta-GGA functionals. However, their performance rapidly deteriorates with the inclusion of larger percentages of exact Hartree-Fock exchange.

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“…Gaussian features a user-friendly computing environment and robust methods for a variety of calculations. There are several applications, such as characterization of chemical bonds [27][28][29], study of molecular vibrational dynamics [27], reactivity [29], potential redox [30], orbital optimization [31] and calculation of chemical properties [15,29,32,33].…”

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Thermodynamic properties of formation estimated to biodiesel esters using Gaussian quantum chemistry software and group contribution method of Constantinou and Gani

Potrich

Voll

Cabral

et al. 2019

CI&CEQ

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Article Highlights • Estimation of enthalpy of formation and Gibbs free energy of formation • Thermodynamic data for biodiesel esters • Comparison between the quantum method and the group contribution method • Adjustment of correction parameters as function of molecular chain size Abstract A lot of recent research has focused on the study of biocatalysts and nanocatalysts to improve biodiesel production. However, knowledge of the thermodynamic properties of the reaction components is necessary. In this work, the enthalpy of formation and Gibbs free energy of formation for methyl to pentyl esters were calculated using the Gaussian quantum chemistry software (model B3LYP/6-31G(d, p)) and the group contribution method of Constantinou and Gani (MCG). The values obtained by both methodologies present certain differences in relation to the values in the literature. Thus, three correction parameters, which were based on the number of atoms of 26 different molecules, were estimated by minimizing the error function and later used to extrapolate the results to larger molecules of interest. After the use of the correction parameters, the mean deviation between the experimental and calculated values by Gaussian was 0.723% for enthalpy and 1.087% for Gibbs, whereas for MCG, it was 1.324 and 2.540%, respectively. As the methodology proved to be efficient, the thermodynamic properties of the formation of 23 esters that compose the biodiesel were estimated. These properties are of great importance, mainly for the calculation of chemical equilibrium and reaction data in the development of new catalysts.

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Thermochemistry of icosahedral closo-dicarboranes: a composite ab initio quantum-chemical perspective

Cited by 5 publications

References 71 publications

Fullerenes Pose a Strain on Hybrid Density Functional Theory

Fullerenes Pose a Strain on Hybrid Density Functional Theory

Performance of DFT for C₆₀ Isomerization Energies: A Noticeable Exception to Jacob’s Ladder

Thermodynamic properties of formation estimated to biodiesel esters using Gaussian quantum chemistry software and group contribution method of Constantinou and Gani

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Thermochemistry of icosahedral closo-dicarboranes: a composite ab initio quantum-chemical perspective

Cited by 5 publications

References 71 publications

Fullerenes Pose a Strain on Hybrid Density Functional Theory

Fullerenes Pose a Strain on Hybrid Density Functional Theory

Performance of DFT for C60 Isomerization Energies: A Noticeable Exception to Jacob’s Ladder

Thermodynamic properties of formation estimated to biodiesel esters using Gaussian quantum chemistry software and group contribution method of Constantinou and Gani

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Performance of DFT for C₆₀ Isomerization Energies: A Noticeable Exception to Jacob’s Ladder