Raymond A. Bair scite author profile

A comprehensive theoretical study has been made of the energetics of the important pathways involved in the reaction of hydrogen atoms with hydrogen cyanide. For each reaction ab initio GVB-CI calculations were carried out to determine the structures and vibrational frequencies of the reactants, transition states, and products; then POL-CI calculations were carried out to more accurately estimate the electronic contribution to the energetics of the reactions. The hydrogen abstraction reaction is calculated to be endoergic by 24 kcal/mol [expt. ΔH (0 K)=16–19 kcal/mol] with a barrier of 31 kcal/mol in the forward direction and 6 kcal/mol in the reverse direction. For the hydrogen addition reactions, addition to the carbon atom is calculated to be exoergic by 19 kcal/mol with a barrier of 11 kcal/mol, while addition to the nitrogen center is essentially thermoneutral with a barrier of 17 kcal/mol. Calculations were also carried out on the isomerization reactions of the addition products. The cis→trans isomerization of HCNH has a barrier of only 10 kcal/mol with the trans isomer being more stable by 5 kcal/mol. The (1,2)-hydrogen migration reaction, converting H2CN to trans-HCNH, is endoergic by only 14 kcal/mol, but the calculated barrier for the transfer is 52 kcal/mol. The energy of the migration pathway thus lies above that of the dissociation–recombination pathway.

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Theoretical studies of the ground and excited states of a model of the active site in oxidized and reduced rubredoxin

Bair¹,

Goddard²

1978

J. Am. Chem. Soc.

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Using the system Fe(SH)4 to model the active site of rubredoxin, we have carried out a b initio quality Hartree-Fock and extensive configuration interaction studies of the ground and excited states of both the oxidized and reduced systems. We have established that the ground state is high spin in both redox forms and find charge distributions in agreement with Mossbauer studies. Based on calculated excitation energies and intensities, we have assigned all the spectral features below 3 eV including d-d spin-allowed, d-d spin-forbidden, and ligand to metal charge-transfer bands.

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From NWChem to NWChemEx: Evolving with the Computational Chemistry Landscape

et al. 2021

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Since the advent of the first computers, chemists have been at the forefront of using computers to understand and solve complex chemical problems. As the hardware and software have evolved, so have the theoretical and computational chemistry methods and algorithms. Parallel computers clearly changed the common computing paradigm in the late 1970s and 80s, and the field has again seen a paradigm shift with the advent of graphical processing units. This review explores the challenges and some of the solutions in transforming software from the terascale to the petascale and now to the upcoming exascale computers. While discussing the field in general, NWChem and its redesign, NWChemEx, will be highlighted as one of the early co-design projects to take advantage of massively parallel computers and emerging software standards to enable large scientific challenges to be tackled.

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Raymond A. Bair

Ab initiostudies of the x-ray absorption edge in copper complexes. I. AtomicCu2+and Cu(ii)Cl

Theoretical studies of the energetics and mechanisms of chemical reactions: abstraction reactions

Theoretical studies of the reactions of HCN with atomic hydrogen

Theoretical studies of the ground and excited states of a model of the active site in oxidized and reduced rubredoxin

From NWChem to NWChemEx: Evolving with the Computational Chemistry Landscape

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