Correlation of computed van der waals and molecular volumes with apparent molar volumes (AMV) for amino acid, carbohydrate and sulfamate tastant molecules. Relationship between corey-pauling-koltun volumes (Vcpk) and computed volumes
Spillane, W.J.; Birch, G.G.; Drew, M.G.B.; Bartolo, I.
Perkin Transactions 2(4): 497-503
1992
ISSN/ISBN: 0300-9580
Accession: 074620617
PDF emailed within 1 workday: $29.90
Related References
Spillane, W.J.; Morini, G.; Birch, G.G. 1992: Determination of apparent molar volumes amv and capacity factors k w for sweet and non sweet sulphamates correlation between amv values and corey pauling koltun volumes and relative sweetness correlations Food Chemistry 44(5): 337-342Tran, D.; Hunt, J.P.; Wherland, S. 1992: Molar volumes of coordination complexes in nonaqueous solution : correlation with computed van der Waals volumes, crystal unit cell volumes, and charge Inorganic Chemistry 31(12): 2460-2464
Zielenkiewicz, A.; Roux-Desgranges, G; Roux, A.H.; Grolier, J.P.E.; Wierzchowski, K.L.; Zielenkiewicz, W. 1993: Apparent molar heat capacities and volumes, van der Waals volumes and accessible surface areas of alkylated derivatives of cytosine and uracil in aqueous solutions at 25C Journal of Solution Chemistry 22(10): 907-918
Zielenkiewicz, A.; Busserolles, K.; Roux-Desgranges, G; Roux, A.H.; Grolier, J.P.E.; Draminski, M.; Zgit-Wroblewska, A; Poznanski, J.; Zielenkiewicz, W. 1996: Apparent molar volumes, heat capacities, and molecular excluded volumes of methylated, hydroxy and methoxy derivatives of 1-methylcytosine in aqueous solutions at 25C Journal of Solution Chemistry 25(6): 529-539
Hansen, A.R.; Kaminski, M.A.; Lira, C.T.; Eckert, C.A. 1989: Volumes and excess volumes of some liquid metals and alloys - Volumes et volumes d'excès de métaux et alliages liquides Industrial and Engineering Chemistry Research 28(1): 97-104
Woolston, G.E.; Trevani, L.N.; Tremaine, P.R. 2008: Apparent Molar Volumes and Standard Partial Molar Volumes of Aqueous Sodium Phosphate Salts at Elevated Temperatures Journal of Chemical and Engineering Data 53(8): 1728-1737
Sastry, N.V.; Valand, P.H.; Macwan, P.M. 2011: Densities, Partial Molar Volumes at Infinite Dilution, Side-Chain Partial Molar Volumes, and Transfer Volumes of Dipeptides in Sucrose and 2,3-Butanediol Aqueous Solutions at T= (283.15 to 333.15) K Journal of Chemical and Engineering Data 56(3): 627-637
Hedwig, G.R. 1992: Partial molar volumes of the amino acid side-chains of proteins in aqueous solution: some comments on their estimation using partial molar volumes of amino acids and small peptides Biopolymers 32(5): 537-540
Pal, A.; Singh, Y.P. 1995: Excess molar volumes and apparent molar volumes of some amide + water systems at 303.15 and 308.15 K Journal of Chemical and Engineering Data 40(4): 818-822
Häckel, M.; Hinz, H.J.; Hedwig, G.R. 1999: Partial molar volumes of proteins: amino acid side-chain contributions derived from the partial molar volumes of some tripeptides over the temperature range 10-90 degrees C Biophysical Chemistry 82(1): 35-50
Zhao, Y.H.; Abraham, M.H.; Zissimos, A.M. 2003: Determination of McGowan volumes for ions and correlation with van der Waals volumes Journal of Chemical Information and Computer Sciences 43(6): 1848-1854
Van Dijk, A.D.; Van Der Velde, E.T.; Baan, J.; Diethelm, L.; Glantz, S.A.; Lipton, M.; Higgins, C.B. 1986: Segmental left ventricular lv volumes by conductance catheter compared to volumes by cine computed tomography ct Experientia 42(11-12): 1307
Barta, L.; Hepler, L.G. 1986: Densities and apparent molar volumes of aqueous aluminum chloride. Analysis of apparent molar volumes and heat capacities of aqueous aluminum salts in terms of the Pitzer and Helgeson theoretical models Canadian Journal of Chemistry 64(2): 353-359
Schaefer, M.; Bartels, C.; Leclerc, F.; Karplus, M. 2001: Effective atom volumes for implicit solvent models: comparison between Voronoi volumes and minimum fluctuation volumes Journal of Computational Chemistry 22(15): 1857-1879
Ziegelhoeffer A.; De Jong J.W.; Ferrari R.; Turi Nagy L. 1996: Generalized method for prediction of saturated liquid volumes using Van der Waals volumes Aiche Journal 42(2): 595-598