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Water Journal

Postma, J.P.M., Berendsen, H.J.C., Straatsma, T.P. Intramolecular vibrations from molecular dynamics simulations of liquid water. Journal de Physique C7 (1984) 31-40. [Pg.30]

Pranata J and W L Jorgensen 1991. Computational Studies on FK506 Computational Search and Molecular Dynamics Simulations in Water. Journal of the American Chemical Society 113 9483-9493. [Pg.269]

Rick S W, S J Stuart and B J Berne 1994. Dynamical Fluctuating Charge Force Fields Application to Liquid Water. Journal of Chemical Physics 101 6141-6156. [Pg.269]

Fig. 7.12 Experimental and calculated infrared spectra for liquid water. The black dots are the experimental values. The thick curve is the classical profile produced by the molecular dynamics simulation. The thin curve is obtained by applying quantum corrections. (Figure redrawn from Guilbt B 1991. A Molecular Dynamics Study of the Infrared Spectrum of Water. Journal of Chemical Physics 95 1543-1551.)... Fig. 7.12 Experimental and calculated infrared spectra for liquid water. The black dots are the experimental values. The thick curve is the classical profile produced by the molecular dynamics simulation. The thin curve is obtained by applying quantum corrections. (Figure redrawn from Guilbt B 1991. A Molecular Dynamics Study of the Infrared Spectrum of Water. Journal of Chemical Physics 95 1543-1551.)...
Alonso D O V and V Daggett 1995. Molecular Dynamics Simulations of Protein Unfolding and Limited Refolding Characterisation of Partially Unfolded States of Ubiquitm in 60% Methanol and in Water. Journal of Molecular Biology 247 501-520. [Pg.574]

Jorgensen W L and J K Buckner 1987. Use of Statistical Perturbation Theory for Computing Solven Effects on Molecular Conformation. Butane in Water. Journal of Physical Chemistry 91 6083-6085. [Pg.651]

Jorgensen W L, J K Buckner, S Boudon and J Tirado-Reeves 1988. Efficient Computation of Absoluti Free Energies of Binding by Computer Simulations - Applications to the Methane Dimer ir Water. Journal of Chemical Physics 89 3742-3746. [Pg.651]

Yoshida, N. and Miyazaki, N. 1991 Oxygen isotope correlation of cetacean bone phosphate with environmental water. Journal of Geophysical Research 96 815-820. [Pg.140]

Bellar TA, Lichtenberg JJ, Kroner RC. 1974. The occurrence of organohalides in chlorinated drinking waters. Journal of American Water Works Association 66 703-706. [Pg.254]

Watts, R. O., Clementi, E. Fromm, J. (1974). Theoretical study of the lithium fluoride molecule in water. Journal of Chemical Physics, 61, 2550-5. [Pg.55]

Atkinson, G. Kor, S. K. (1967). The kinetics of ion association in manganese sulphate solutions. II. Thermodynamics of stepwise association in water. Journal of Physical Chemistry, 71, 673-7. [Pg.86]

Anzai, M., Hirose, H., Kikuchi, H., Goto, J., Azuma, F. Higasaki, S. (1977). Studies on soluble elements and solubility of dental cements. I. Solubilities of zinc phosphate cement, carboxylate cement and silicate cement in distilled water. Journal of the Nihon University School of Dentistry, 19, 26-39. [Pg.176]

Bury, C. R. Davies, E. R. H. (1932). System magnesium oxide-magnesium chloride-water. Journal of the Chemical Society, 2008-15. [Pg.305]

Sierra, M.B., Morini, M.A., Schulz, P.C., Junquera, E. and Aicart, E. (2007) Effect of double bonds in the formation of sodium dodecanoate and sodiumlO-undecenoate mixed micelles in water. Journal of Physical Chemistry B, 111 (40), 11692-11699. [Pg.278]

Emanation. Part II. On Solutions Containing Copper, and Lead, and on Water. Journal of the Chemical Society 91 (1907) 1593-1606. [Pg.237]

Runnells, D. D., 1969, Diagenesis, chemical sediments, and the mixing of natural waters. Journal of Sedimentary Petrology 39, 1188-1201. [Pg.529]

Kempe, S. 1984. Sinks of anthropogenically enhanced carbon cycle in surface fresh waters. Journal of Geophysical Research, 89, 4657—4676. [Pg.480]

Comly, H. H. (1945). Cyanosis of infants caused by nitrates in well water. Journal of American Medical Association, 129(2), 112-117. [Pg.425]

Cox, G.A. and Cooper, G.I. (1995). Stained glass in York in the mid-16th century - analytical evidence for its decay. Glass Technology 36 129-134. Cox, G.A. and Ford, B.A. (1993). The long-term corrosion of glass by ground-water. Journal of Materials Science 28 5637-5647. [Pg.188]

The Role of Supercritical Water, Journal of Physical Chemistry, 1995, 99(8), pp. 2335-2342. [Pg.11]

Sandhu SS, Warren WJ, Nelson P. 1978. Pesticidal residue in rural potable water. Journal of the American Water Works Association 70 41-45. [Pg.282]

Tuckerman, M., Laasonen, K., Sprik, M. and Parrinello, M. 1995. Ab initio molecular dynamics simulation of the solvation and transport of hydronium and hydroxyl ions in water. Journal of Chemical Physics 103 150-161. [Pg.171]

King, K. W., et al. (2001). Impact of a turfgrass system on nutrient loadings to surface water. Journal of the American Water Resources Association 37(3) 629-640. [Pg.165]

Allen, SJ Khader, KYH Bino, M. Electrooxidation of dyestuff in waste waters. Journal of Chemical and Biochemical Technology, 1999 62, 111-117. [Pg.68]

Sato, M Sun, B Ohshima, T Sagi, Y. Characteristics of active species and removal of organic compounds by a pulsed corona discharge in water. Journal of Advanced Oxidation Technologies, 1999 4, 339-342. [Pg.77]

Sun, B Sato, M Clements, JS. Optical study of active species produced by a pulsed streamer corona discharge in water. Journal of Electrostatics, 1997 39, 189-202. [Pg.78]

E. Psillakis and N. Kalogerakis, Hollow-fibre liquid-phase microextraction of phthalate esters from water. Journal of Chromatography A, 2003, 999(1-2), 145-153. [Pg.121]

Yazdi, A. S. and Es haghi, Z., Two-step hollow fiber-based, liquid-phase microextraction combined with high-performance liqnid chromatography A new approach to determination of aromatic amines in water. Journal of Chromatography A 1082(2), 136-142, 2005. [Pg.99]

Fujinari EM, Courthaudon LO. Nitrogen-specific liquid-chromatography detector based on chemiluminescence—Application to the analysis of ammonium nitrogen in waste-water. Journal of Chromatography 592, 209-214, 1992. [Pg.231]

Heberer T. (2002b) Tracking persistent pharmaceutical residues from municipal sewage to drinking water. Journal of Hydrology 266 175-189. [Pg.265]

Himmelblau, D. M., "Solubilities of Inert Gases in Water 0 C to Near the Critical Point of Water", Journal of Chemical and Engineering Data, 5, pp. 10-15,1959. [Pg.446]

Christensen, H. Sunder, S. 1996. An evaluation of water layer thickness effective in the oxidation of U02 fuel due to radiolysis of water. Journal of Nuclear Materials, 238, 70-77. [Pg.86]

D. 2001. Alpha-radiolysis effects on U02 alteration in water. Journal of Nuclear Materials, 288, 11-19. [Pg.87]

Sunder, S., Shoesmith, D. W. Miller, N. H. 1997. Oxidation and dissolution of nuclear fuel (UO2) by the products of the alpha radiolysis of water. Journal of Nuclear Materials, 244, 66-74. [Pg.88]

Kamizono, H., Hayakawa, I. Muraoka, S. 1991. Durability of zirconium-containing ceramic waste forms in water. Journal of the American Ceramic Society, 74, 863-864. [Pg.108]

Pederson, L. R., Baer, D. R., McVay, G. L. Engelhard, M. H. 1986. Reaction of soda-lime silicate glass in isotopically labelled water. Journal of Non-Crystalline Solids, 86, 369-380. [Pg.409]

Truesdell, A. H. Jones, B. F. 1974. WATEQ, A computer program for calculating chemical equilibria of natural waters. Journal of Research, U.S. Geological Survey, 2, 233-274. [Pg.577]

See other pages where Water Journal is mentioned: [Pg.268]    [Pg.424]    [Pg.652]    [Pg.654]    [Pg.654]    [Pg.654]    [Pg.55]    [Pg.281]    [Pg.102]    [Pg.58]   
See also in sourсe #XX -- [ Pg.109 ]



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Journal of the American Water Works Association

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