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A Group Contribution Model for Determining the Vaporization Enthalpy of Organic Compounds at the Standard Reference Temperature of 298 K

A Group Contribution Model for Determining the Vaporization Enthalpy of Organic Compounds at the Standard Reference Temperature of 298 K

Date: November 9, 2013
Creator: Gharagheizi, Farhad; Ilani-Kashkouli, Poorandokht; Acree, William E. (William Eugene); Mohammadi, Amir H. & Ramjugernath, Deresh
Description: Article on a group contribution model for determining the vaporization enthalpy of organic compounds at the standard reference temperature of 298 K.
Contributing Partner: UNT College of Arts and Sciences
Rate coefficients and product branching measurements for the reaction OH + bromopropane from 230 to 360 K

Rate coefficients and product branching measurements for the reaction OH + bromopropane from 230 to 360 K

Date: May 8, 2002
Creator: Gilles, Mary K.; Burkholder, James B. (James Bart), 1954-; Gierczak, Tomasz; Marshall, Paul & Ravishankara, A. R.
Description: Article on rate coefficient and product branching measurements for the reaction OH + bromopropane from 230 to 360 K.
Contributing Partner: UNT College of Arts and Sciences
Identification of functional information subgraphs in cultured neural networks

Identification of functional information subgraphs in cultured neural networks

Date: July 13, 2009
Creator: Gintautas, Vadas; Bettencourt, Luis & Ham, Michael I.
Description: This paper accompanies an oral presentation on the identification of functional information subgraphs in cultured neural networks.
Contributing Partner: UNT College of Arts and Sciences
Fast-computational approach to the evaluation of slow-motion EPR spectra in terms of a generalized Langevin equation

Fast-computational approach to the evaluation of slow-motion EPR spectra in terms of a generalized Langevin equation

Date: October 1983
Creator: Giordano, Marco; Grigolini, Paolo; Leporini, Dino & Marin, P.
Description: Article discussing a fast-computational approach to the evaluation of slow-motion EPR spectra in terms of a generalized Langevin equation.
Contributing Partner: UNT College of Arts and Sciences
Quantum Entanglement and Entropy

Quantum Entanglement and Entropy

Date: August 20, 2001
Creator: Giraldi, Filippo & Grigolini, Paolo
Description: This article discusses quantum entanglement and entropy.
Contributing Partner: UNT College of Arts and Sciences
Mechanism and modeling of the formation of gaseous alkali sulfates

Mechanism and modeling of the formation of gaseous alkali sulfates

Date: April 2005
Creator: Glarborg, Peter & Marshall, Paul
Description: Article on the mechanism and modeling of the formation of gaseous alkali sulfates.
Contributing Partner: UNT College of Arts and Sciences
Oxidation of Reduced Sulfur Species: Carbonyl Sulfide

Oxidation of Reduced Sulfur Species: Carbonyl Sulfide

Date: October 25, 2012
Creator: Glarborg, Peter & Marshall, Paul
Description: Article on the oxidation of reduced sulfur species and carbonyl sulfide.
Contributing Partner: UNT College of Arts and Sciences
Oxidation of Reduced Sulfur Species: Carbon Disulfide

Oxidation of Reduced Sulfur Species: Carbon Disulfide

Date: August 4, 2014
Creator: Glarborg, Peter; Halaburt, Birgitte; Marshall, Paul; Guillory, Adrian; Troe, J├╝rgen; Thellefsen, Morten et al.
Description: Article on the oxidation of reduced sulfur species and carbon disulfide.
Contributing Partner: UNT College of Arts and Sciences
Single-Electron Oxidation of Monomeric Copper(I) Alkyl Complexes: Evidence for Reductive Elimination through Biomolecular Formation of Alkanes

Single-Electron Oxidation of Monomeric Copper(I) Alkyl Complexes: Evidence for Reductive Elimination through Biomolecular Formation of Alkanes

Date: July 21, 2006
Creator: Goj, Laurel A.; Blue, Elizabeth D.; Delp, Samuel A.; Gunnoe, T. Brent; Cundari, Thomas R., 1964- & Petersen, Jeffrey L.
Description: This article discusses single-electron oxidation of monomeric copper(I) alkyl complexes.
Contributing Partner: UNT College of Arts and Sciences
Chemistry Surrounding Monomeric Copper(l) Methyl, Phenyl, Anilido, Ethoxide, and Phenoxide Complexes Supported by N-Heterocyclic Carbene Ligands: Reactivity Consistent with Both Early and Late Transition Metal Systems

Chemistry Surrounding Monomeric Copper(l) Methyl, Phenyl, Anilido, Ethoxide, and Phenoxide Complexes Supported by N-Heterocyclic Carbene Ligands: Reactivity Consistent with Both Early and Late Transition Metal Systems

Date: September 27, 2006
Creator: Goj, Laurel A.; Blue, Elizabeth D.; Delp, Samuel A.; Gunnoe, T. Brent; Cundari, Thomas R., 1964-; Pierpont, Aaron W. et al.
Description: Article on chemistry surrounding monomeric copper(I) methyl, phenyl, anilido, ethoxide, and phenoxide complexes supported by N-heterocyclic carbene ligands.
Contributing Partner: UNT College of Arts and Sciences