Stewart L Voit scite author profile

This study explores the degree to which GGA, meta-GGA, hybrid GGA, and hybrid meta-GGA functionals of density functional theory (DFT), when used with the 6-31+G(d) basis set, are able to reproduce the MP2/6-31+G(d) structures and energetics of the species involved in the reactions of halomethyllithium carbenoids with ethylene. While many popular DFT functionals have been parametrized and/or benchmarked using various databases, the scarcity of experimental structural and energetic information for organolithium compounds has resulted in their exclusion from these training and test sets. In this work, we first establish a set of practical benchmark reaction energetics against which the performance of DFT methods for larger molecules can be compared. Next, we examine the performance of 13 DFT functionals spanning the second, third, and fourth rungs of the "Jacob's ladder" using 84 molecules and 78 reactions. The main conclusions are (a) the meta-hybrid GGA M06-2X is the best functional among the set for organolithium chemistry, (b) the hybrid GGA PBE1PBE consistently yields equilibrium and transition-state geometries that are very close to the MP2 predictions, and (c) MP2//M06-L or MP2//PBE1PBE model chemistries are excellent low-cost alternatives to the costly MP2. However, this work also showed that the very popular B3LYP functional is a rather poor choice for these systems.

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Nickel-Catalyzed Alkyl Coupling Reactions: Evaluation of Computational Methods

Pratt

Voit

Okeke

et al. 2011

J. Phys. Chem. A

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The B3LYP, M06, M06L, M062X, MPW1K, and PBE1PBE DFT methods were evaluated for modeling nickel-catalyzed coupling reactions. The reaction consists of a nucleophilic attack by a carbanion equivalent on the nickel complex, S(N)2 attack by the anionic nickel complex on an alkyl halide, and reductive elimination of the coupled alkane product, regenerating the nickel catalyst. On the basis of CCSD(T)//DFT single-point energies, the B3LYP, M06, and PBE1PBE functionals were judged to generate the best ground state geometries. M06 energies are generally comparable or superior to B3LYP and PBE1PBE energies for transition state calculations. The MP2 and CCSD methods were also evaluated for single-point energies at the M06 geometries. The rate-determining step of this reaction was found to be nucleophilic attack of a L(2)NiR anion on the alkyl halide.

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Quantification of process variables for carbothermic synthesis of UC1-xNx fuel microspheres

Lindemer¹,

Silva

Henry

et al. 2017

Journal of Nuclear Materials

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This report details the continued investigation of process variables involved in converting sol-gel-derived, urania-carbon microspheres to ~820-μm-dia. UC 1-x N x fuel kernels in flow-through, vertical Mo and W crucibles at temperatures up to 2123 K. Experiments included calcining of air-dried UO 3 -H 2 O-C microspheres in Ar and H 2 -containing gases, conversion of the resulting UO 2 -C kernels to dense UO 2 :2UC in the same gases and vacuum, and its conversion in N 2 to UC 1-x N x (x = ~0.85). The thermodynamics of the relevant reactions were applied extensively to interpret and control the process variables. Producing the precursor UO 2 :2UC kernel of ~96% theoretical density was required, but its subsequent conversion to UC 1-x N x at 2123 K was not accompanied by sintering and resulted in~83-86% of theoretical density. Increasing the UC 1-x N x kernel nitride component to ~0.98 in flowing N 2 -H 2 mixtures to evolve HCN was shown to be quantitatively consistent with present and past experiments and the only useful application of H 2 in the entire process.

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Lithium Cuprate Coupling Reactions: Evaluation of Computational Methods for Determination of the Reaction Mechanisms

et al. 2010

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Several computational methods were evaluated for determining the gas-phase reaction mechanisms of lithium dimethylcuprate and dimethylcuprate anion with chloromethane and vinyl chloride. These methods include the B3LYP and M06 density functional theory (DFT) methods, the unscaled and spin-component-scaled Moller-Plesset perturbation theory (MP2, SCS-MP2, and SCSC-MP2), CCSD, and CCSD(T). The reaction of interest is an oxidative addition of the alkyl or vinyl halide to the Cu(I) species, resulting in a Cu(III) intermediate, which undergoes reductive elimination with coupling of the two alkyl fragments. Three possible oxidative addition pathways were examined, a concerted addition to Cu(I), an S(N)2-like reaction of Cu on the alkyl halide, and a radical mechanism. A concerted reductive elimination step was also investigated.

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Stewart L Voit

Computational Strategies for Reactions of Aggregated and Solvated Organolithium Carbenoids

Nickel-Catalyzed Alkyl Coupling Reactions: Evaluation of Computational Methods

Quantification of process variables for carbothermic synthesis of UC1-xNx fuel microspheres

Lithium Cuprate Coupling Reactions: Evaluation of Computational Methods for Determination of the Reaction Mechanisms

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