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Results 1 to 25 of 1520

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Theoretical study of the bond dissociation energies of methanolBAUSCHLICHER, C. W; LANGHOFF, S. R; WALCH, S. P et al.The Journal of chemical physics. 1992, Vol 96, Num 1, pp 450-454, issn 0021-9606Article

Pauling's electronegativity equation and a new corollary accurately predict bond dissociation enthalpies and enhance current understanding of the nature of the chemical bondMATSUNAGA, Nikita; ROGERS, Donald W; ZAVITSAS, Andreas A et al.Journal of organic chemistry. 2003, Vol 68, Num 8, pp 3158-3172, issn 0022-3263, 15 p.Article

Photoelectron spectroscopy of group IV heavy metal dimers : Sn2-, Pb2-, and SnPb-HO, J; POLAK, M. L; LINEBERGER, W. C et al.The Journal of chemical physics. 1992, Vol 96, Num 1, pp 144-154, issn 0021-9606Article

The 1sσg and 2pσu states of the H+2, D+2 and HD+ ionsWOLNIEWICZ, L; ORLIKOWSKI, T.Molecular physics (Print). 1991, Vol 74, Num 1, pp 103-111, issn 0026-8976Article

The ionization energy of SF5 and the SF5-F bond dissociation energySIECK, L. W; AUSLOOS, P. J.The Journal of chemical physics. 1990, Vol 93, Num 11, pp 8374-8378, issn 0021-9606Article

Some applications of local density functional theory to the calculation of reaction energeticsPOLITZER, P; SEMINARIO, J. M; CONCHA, M. C et al.Theoretica chimica acta. 1993, Vol 85, Num 1-3, pp 127-136, issn 0040-5744Article

Rovibrational levels of HDPACHUCKI, Krzysztof; KOMASA, Jacek.PCCP. Physical chemistry chemical physics (Print). 2010, Vol 12, Num 32, pp 9188-9196, issn 1463-9076, 9 p.Article

CO2 electron dissociation in the 18-46 eV range. A report of the O+ and CO+ abundancesARMENANTE, M; CESARO, R; SANTORO, V et al.International journal of mass spectrometry and ion processes. 1989, Vol 87, Num 1, pp 41-50, issn 0168-1176Article

Shortcomings of Basing Radical Stabilization Energies on Bond Dissociation Energies of Alkyl Groups to HydrogenZAVITSAS, Andreas A; ROGERS, Donald W; MATSUNAGA, Nikita et al.Journal of organic chemistry. 2010, Vol 75, Num 16, pp 5697-5700, issn 0022-3263, 4 p.Article

An interpretation of organometallic bond dissociation energiesDRAGO, R. S; WONG, N. M; FERRIS, D. C et al.Journal of the American Chemical Society. 1992, Vol 114, Num 1, pp 91-98, issn 0002-7863Article

Composition of vapour and energetic characteristics of vapour-formation of monochalcogenides and monopniktides of rare-earth metalsGORDIENKO, S. P.Poroškovaâ metallurgiâ (Kiev). 1991, Num 6, pp 61-65, issn 0032-4795, 5 p.Article

Influence of the physical state of an explosive on its sensitivity. Is nitromethane sensitive or insensitive ?ODIOT, S; BLAIN, M; VAUTHIER, E et al.Journal of molecular structure. Theochem. 1993, Vol 279, pp 233-238, issn 0166-1280Article

Acidities and homolytic bond dissociation energies of the acidic C-H bonds in radical cationsZHANG, X; BORDWELL, F. G.Journal of organic chemistry. 1992, Vol 57, Num 15, pp 4163-4168, issn 0022-3263Article

Bond dissociation energies of H2NX compounds. Comparison with CH3X, HOX, and FX compoundsWIBERG, K. B.Journal of physical chemistry (1952). 1992, Vol 96, Num 14, pp 5800-5803, issn 0022-3654Article

One-sixth power law for molecular dissociation energies in terms of inhomogeneity kinetic energyMARCH, N. H; NAGY, A.Journal of molecular structure. Theochem. 1992, Vol 277, pp 129-133, issn 0166-1280Article

A new electronegativity scale for the correlation of heats of formation. III: Bond dissociation energy of X-R bonds and the heat of formation of the isopropyl radicalYU-RAN LUO; BENSON, S. W.Journal of physical chemistry (1952). 1989, Vol 93, Num 8, pp 3304-3306, issn 0022-3654Article

Relations entre les énergies thermochimiques et les énergies de dissociation des liaisonsORLOV, YU. D; KNOBEL, YU. K; LEBEDEV, YU. A et al.Žurnal fizičeskoj himii. 1987, Vol 61, Num 12, pp 3175-3180, issn 0044-4537Article

Thermochemistry of perthiyl radicalsHAWARI, J. A; GRILLER, D; LOSSING, F. P et al.Journal of the American Chemical Society. 1986, Vol 108, Num 12, pp 3273-3275, issn 0002-7863Article

Relative dissociation energies of protonated peptides by electrospray ionization/ surface-induced dissociationHANJO LIM; SCHULTZ, D. G; CHONGWOO YU et al.Analytical chemistry (Washington, DC). 1999, Vol 71, Num 13, pp 2307-2317, issn 0003-2700Article

Analysis of the reasons for the high activity of aromatic amines in reactions with peroxy radicals in terms of the parabolic modelDENISOV, E. T.Kinetics and catalysis. 1995, Vol 36, Num 3, pp 345-350, issn 0023-1584Article

Homo- and heterolytic X-C bond energies. I: Homolytic bond energies in common unsaturated organic compoundsYU-RAN LUO; HOLMES, J. L.Journal of physical chemistry (1952). 1994, Vol 98, Num 1, pp 303-312, issn 0022-3654Article

Molybdenum-carbon bond dissociation energies in Mo(CO)6GANSKE, J. A; ROSENFELD, R. N.Journal of physical chemistry (1952). 1990, Vol 94, Num 10, pp 4315-4318, issn 0022-3654Article

O―H...N and C―H...O Hydrogen Bonds Control Hydration of Pivotal Tropane Alkaloids: Tropinone...H2O ComplexECIJA, Patricia; VALLEJO-LOPEZ, Montserrat; EVANGELISTI, Luca et al.ChemPhysChem (Print). 2014, Vol 15, Num 5, pp 918-923, issn 1439-4235, 6 p.Article

Effects of α-ammonium, α-phosphonium, and α-sulfonium groups on C-H bond dissociation energiesSONG, Ke-Sheng; LEI LIU; GUO, Qing-Xiang et al.Journal of organic chemistry. 2003, Vol 68, Num 11, pp 4604-4607, issn 0022-3263, 4 p.Article

The bond dissociation energy in compounds modelling the coal structureKALECHITS, I. V; KOROBKOV, V. Yu.Solid fuel chemistry. 2001, Vol 35, Num 6, pp 1-10, issn 0361-5219Article

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