Water site headerMasthead Island, Great Barrier Reef Print-me keygo to Water Visitor Book contributions
Go to my page Water Structure and Science

Water Structure and Science, References 601 - 700

 

  1. J. Li, S. Luo, W. Yao, Z. Tang, Z. Zhang and M. A. Alim, The effect of magnetized water on TiO2 based varistors, Journal of the European Ceramic Society, 24 (2004) 2605-2611. [Back]
  2. P. Scharff, K. Risch, L. Carta-Abelmann, I. M. Dmytruk, M. M. Bilyi, O. A. Golub, A. V. Khavryuchenko, E. V. Buzaneva, V. L. Aksenov, M. V. Avdeev, Yu. I. Prylutskyy ans S. S. Durov, Structure of C60 fullerene in water: spectroscopic data, Carbon, 42 (2004) 1203-1206. [Back]
  3. K. I. Draget, B. T. Stokke, Y. Yuguchi, H. Urakawa and K. Kajiwara, Small-angle X-ray scattering and rheological characterization of alginate gels. 3. Alginate acid gels, Biomacromolecules, 4 (2003) 1661-1668. [Back]
  4. J. V. Coe, Fundamental properties of bulk water from cluster ion data, International Review of Physical Chemistry, 20 (2001) 33-58. [Back]
  5. S. Paul and A. Chandra, Hydrogen bond dynamics at vapor-water and metal-water interfaces, Chemical Physics Letters, 386 (2004) 218-224. [Back]
  6. V. Tchijov, Heat capacity of high-pressure ice polymorphs, Journal of Physical Chemistry Solids 65 (2004) 851-854. [Back]
  7. (a) J. Tennyson, P. F. Bernath, L. R. Brown, A. Campargue, M. R. Carleer, A. G. Császár, R. R. Gamache, J. T. Hodges, A. Jenouvrier, O. V. Naumenko, O. L. Polyansky, L. S. Rothman, R. A. Toth, A. C. Vandaele, N. F. Zobov, L. Daumont, A. Z. Fazliev, T. Furtenbacher, I. E. Gordon, S. N. Mikhailenko and S. V. Shirin, IUPAC critical evaluation of the rotational-vibrational spectra of water vapor. Part I. Energy levels and transition wavenumbers for H217O, and H218O, Journal of Quant. Spectrosc. Radiat. Transfer 110 (2009) 573-596; (b) J. Tennyson, P. F. Bernath, L. R. Brown, A. Campargue, A. G. Császár, L. Daumont, R. R. Gamache, J. T. Hodges, O. V. Naumenko, O. L. Polyansky, L. S. Rothman, R. A. Toth, A. C. Vandaele, N. F. Zobov, S. Fally, A. Z. Fazliev, T. Furtenbacher, I. E. Gordon, S.-M. Hu, S. N. Mikhailenko and B. A. Voronin, Critica evaluation of the rotational-vibrational spectra of water vapor. Part II. Energy levels and transition wavenumbers for HD 16O, HD17O, andHD18O. Journal of Quant. Spectrosc. Radiat. Transfer 111 (2010) 2160-2184; (c) J. Tennyson, P. F. Bernath, L. R. Brown, A. Campargue, A. G. Császár, L. Daumont, R. R. Gamache, J. T. Hodges, O. V. Naumenko, O. L. Polyansky, L. S. Rothman, A. C. Vandaele, N. F. Zobov, A. R. Al Derzia, C. Fábri, A. Z. Fazliev, T. Furtenbacher, I. E. Gordon, L. Lodi and I. Mizus, IUPAC critical evaluation of the rotational-vibrational spectra of water vapor, Part III: Energy levels and transition wavenumbers for H216O, Journal of Quant. Spectrosc. Radiat. Transfer 117 (2013) 29-58; (d) J. Tennyson, P. F. Bernath, L. R.Brown, A. Campargue, A. G. Császár, L. Daumont, R. R. Gamache, J. T. Hodges, O. V. Naumenko, O. L. Polyansky, L. S. Rothman, A. C. Vandaele, N. F. Zobov, N. Dénes, A. Z. Fazliev, T. Furtenbacher, I. E.Gordon, S.-M. Hu, T. Szidarovszky and I. A. Vasilenko, IUPAC critical evaluation of the rotational–vibrational spectra of water vapor. Part IV. Energy levels and transition wavenumbers for D216O, D217O, and D218O, Journal of Quantitative Spectroscopy and Radiative Transfer, 142 (2014) 93-108. [Back, 2, 3]
  8. J. K. Vij, D. R. J. Simpson and O. E. Panarina, Far infrared spectroscopy of water at different temperatures: GHz to THz dielectric spectroscopy of water, Journal of Molecular Liquids, 112 (2003 ) 125-135. [Back]
  9. J. C. Duplan, L. Mahi and J. L. Brunet, NMR determination of the equilibrium constant for the liquid H2O-D2O mixture, Chemical Physics Letters, 413 (2005) 400-403. [Back]
  10. J. W. Coym and J. G. Dorsey, Reversed-phase retention thermodynamics of pure-water mobile phases at ambient and elevated temperature, Journal of Chromatography A, 1035 (2004) 23-29. [Back]
  11. O. Berteau and R. Stenutz, Web resources for the carbohydrate chemist, Carbohydate Research, 339 (2004) 929-936. [Back]
  12. (a) B. Schwager, L. Chudinovskikh, A. Gavriliuk and R. Boehler, Melting curve of H2O to 90 GPa measured in a laser-heated diamond cell, Journal of Physics: Condensed Matter, 16 (2004) S1177-S1179. (b) A. F. Goncharov, N. Goldman, L. E. Fried, J. C. Crowhurst, I-F. W. Kuo, C. J. Mundy and J. M. Zaug, Dynamic ionization of water under extreme conditions, Physical Review Letters 94 (2005) 125508. [Back, 2]
  13. Ph. Wernet, D. Nordlund, U. Bergmann, M. Cavalleri, M. Odelius, H. Ogasawara, L. Å. Näslund, T. K. Hirsch, L. Ojamäe, P. Glatzel, L. G. M. Pettersson and A. Nilsson, The structure of the first coordination shell in liquid water, Sciencexpress 1 April 2004; 10.1126/science.1096205; Science, 304 (2004) 995-999. [Back, 2]
  14. E. H. Abramson, J. M. Brown and L. J. Slutsky, The thermal diffusivity of water at high pressures and temperatures, Journal of Chemical Physics, 115 (2001) 10461-10463. [Back]
  15. A. C. Grandjean, K. J. Reimers, M. C. Haven and G. L. Curtis, The effect on hydration of two diets, one with and one without plain water, Journal of the American College of Nutrition, 22 (2003) 165-173. [Back]
  16. I. Danielewicz-Ferchmin and A. R. Ferchmin, Water at ions, biomolecules and charged surfaces, Physics and Chemistry of Liquids, 42 (2004) 1-36. [Back, 2]
  17. O. Andersson and H. Suga, Thermal conductivity of amorphous ices, Physical Review B, 65 (2002) 140201; O. Andersson, Thermal conductivity of normal and deuterated water, crystalline ice, and amorphous ices, The Journal of Chemical Physics, 149 (2018) 124506. [Back, 2, 3, 4, 5]
  18. (a) G. P. Johari and O. Andersson, Water's polyamorphic transitions and amorphization of ice under pressure, Journal of Chemical Physics, 120 (2004) 6207-6213. (b) G. P. Johari and O. Andersson, Mechanism for pressure- and time-dependent amorphization of ice under pressure, Physical Review, B 70 (2004) 184108. (c) O. Andersson and G. P. Johari, Time-dependent amorphization of ice at 0.8-0.9 GPa, Journal of Chemical Physics,121 (2004) 3936-3938. (d) G. P. Johari, Tests for thermodynamic state of water's high-density amorph, Journal of Chemical Physics, 121 (2004) 8428-8429. [Back]
  19. S. W. Rick, A reoptimization of the five-site water potential (TIP5P) for use with Ewald sums, Journal of Chemical Physics, 120 (2004) 6085-6093. [Back]
  20. M. Nakamura, K. Tamura and S. Murakami, Isotope effects on thermodynamic properties: mixtures of x(D2O or H2O) + (1 - x)CH3CN at 298.15 K, Thermochimica Acta, 253 (1995) 127-136. [Back]
  21. I. Yu and M. Nagaoka, Slowdown of water diffusion around protein in aqueous solution with ectoine, Chemical Physics Letters, 388 (2004) 316-321. [Back]
  22. V. S. J. Craig, B. W. Ninham and R. M. Pashley, Effect of electrolytes on bubble coalescence, Nature, 364 (1993) 317-319. [Back]
  23. H. E. L. Madsen, Crystallization of calcium carbonate in magnetic field in ordinary and heavy water, Journal of Cryst.al Growth, 267 (2004) 251-255. [Back, 2]
  24. J. Nieva and P. Wentworth Jr, The antibody-catalyzed water oxidation pathway - a new chemical arm to immune defense, Trends in Biochemical Sciences, 29 (2004) 274-278. [Back]
  25. A. J. Barnes, Blue-shifting hydrogen bonds - are they improper or proper? Journal of Molecular Structure, 704 (2004) 3-9. [Back] [Back to Top to top of page]
  26. E. R. Caffarena and J. R. Grigera, On the hydrogen bond structure of water at different densities, Physica A 342 (2004) 34-39. [Back, 2, 3]
  27. H. Kono and Y. Numata, Two-dimensional spin-exchange solid-state NMR study of the crystal structure of cellulose II, Polymer, 45 (2004) 4541-4547. [Back]
  28. R. Torre, P. Bartolini and R. Righini, Structural relaxation in supercooled water by time-resolved spectroscopy, Nature, 428 (2004) 296-299. [Back]
  29. N. Ishida, M. Sakamoto, M. Miyahara and K. Higashitani, Optical observation of gas bridging between hydrophobic surfaces in water, Journal of Colloid and Interface Science, 253 (2002) 112-116. [Back]
  30. R. A. Cowley, Neutron-scattering experiments and quantum entanglement, Physica B, 350 (2004) 243-245. [Back]
  31. S. M. Pershin, OH-Group vibration spectrum of metastable hydrogen-bound states of liquid water, Phys. Wave Phen. 11 (2003) 89-95. [Back]
  32. A. Bigi, S. Panzavolta and K. Rubini, Relationship between triple-helix content and mechanical properties of gelatin films, Biomaterials 25 (2004) 5675-5680. [Back]
  33. M. E. Lienqueo, A. Mahn and J. A. Asenjo, Mathematical correlations for predicting protein retention times in hydrophobic interaction chromatography, Journal of Chromatography A, 978 (2002) 71-79. [Back]
  34. G. N. Ling, Life at the cell and below-cell level. The hidden history of a functional revolution in Biology, (Pacific Press, New York, 2001). G. N. Ling, A convergence of experimental and theoretical breakthroughs affirms the PM theory of dynamically structured cell water on the theory's 40th birthday, In Water and the cell, Ed. G. H. Pollack, I. L. Cameron and D. N. Wheatley (Springer, Dordrecht, 2006) pp. 1- 52. [Back]
  35. G. H. Pollack, Cells, gels and the engines of life; a new unifying approach to cell function, (Ebner and Sons Publishers, Washington, 2001). [Back]
  36. L. R. Otterbein, P. Graceffa and R. Dominguez, The crystal structure of uncomplexed actin in the ADP state, Science, 293 (2001) 708-711. [Back]
  37. P. Fournier, E. H. Oelkers, R. Gout and G. Pokrovski, Experimental determination of aqueous sodium-acetate dissociation constants at temperatures from 20 to 240 °C, Chem Geol. 151 (1998) 69-84. [Back]
  38. W. Kern, Die aktivität der natriumionen in wäßrigen lösungen der salze mit polyvalenten säuren Makromol. Chemie 2 (1948) 279-288. [Back]
  39. K. D. Garlid, The state of water in biological systems, International Reviews of Cytology, 192 (2000) 281-302. [Back]
  40. B. Halle and M. Davidovic, Biomolecular hydration: From water dynamics to hydrodynamics, Proceedings of the National Academy of Sciences, 100 (2003) 12135-12140. [Back]
  41. A. Khan, Theoretical studies of Na(H2O)+19-21 and K(H2O)+19-21 clusters: explaining the absence of magic peak for Na(H2O)+20, Chemical Physics Letters, 388 (2004) 342-347. [Back]
  42. G. Slosarek, D. Heintz and H. R. Kalbitzer, Mobile segments in rabbit skeletal-muscle F-actin detected by H-1 nuclear magnetic resonance spectroscopy, FEBS Letters, 351 (1994) 405-410. [Back]
  43. G. A. Papoian, J. Ulander, M. P. Eastwood, Z. Luthey-Schulten and P. G. Wolynes, Water in protein structure prediction, Proceedings of the National Academy of Sciences, 101 (2004) 3352-3357. Y. Levy and J. N. Onuchic, Water and proteins: A love-hate relationship, Proceedings of the National Academy of Sciences, 101 (2004) 3325-3326. [Back]
  44. M. Krisch, P. Loubeyre, G. Ruocco, F. Sette, A. Cunsolo, M. D'Astuto, R. LeToullec, M. Lorenzen, A. Mermet, G. Monaco and R. Verbeni, Pressure evolution of the high-frequency sound velocity in liquid water, Physics Review Letters, 89 (2002) 125502(4); R. M. Khusnutdinoff and A. V. Mokshin, Short-range structural transformations in water at high pressures, Journal of Non-Crystalline Solids 357 (2011) 1677-1684. [Back]
  45. V. Kozic and L. C. Lipus, Magnetic water treatment for a less tenacious scale, Journal of Chem. Inf. Comput. Science 43 (2003) 1815-1819. [Back]
  46. R. L. Wong and E. R. Williams, Dissociation of SO42− (H2O)n clusters, n=3-17, Journal of Physical Chemistry A 107 (2003) 10976-10983. [Back]
  47. H. Hosoda, H. Mori, N. Sogoshi, A. Nagasawa and S. Nakabayashi, Refractive indices of water and aqueous electrolyte solutions under high magnetic fields, Journal of Physical Chemistry A, 108 (2004) 1461-1464. [Back, 2]
  48. J. A. Odutola and T. R. Dyke, Partially deuterated water dimers: Microwave spectra and structure, Journal of Chemical Physics, 72 (1980) 5062-5070. [Back]
  49. H. W. Horn, W. C. Swope, J. W. Pitera, J. D. Madura, T. J. Dick, G. L. Hura and T. Head-Gordon, Development of an improved four-site water model for biomolecular simulations: TIP4P-Ew, Journal of Chemical Physics, 120 (2004) 9665-9678. [Back]
  50. A. Botti, F. Bruni, S. Imberti, M. A. Ricci and A. K. Soper, Ions in water: the microscopic structure of concentrated NaOH solutions, Journal of Chemical Physics, 120 (2004) 10154-10162. [Back] [Back to Top to top of page]
  51. C. Becker-Witt, T. E. R. Weisshuhn, R. Lüdtke and S. N. Willick, Quality assessment of physical results in homeopathy, Journal of Alternative and Complementary Medicine, 9 (2003) 113-132. [Back]
  52. W. S. Price, H. Ide and Y. Arata, Translational and rotational motion of isolated water molecules in nitromethane studied using 17O NMR, ournal of Chemical Physics, 113 (2000) 3686-3689. [Back, 2]
  53. W. S. Price, H. Ide and Y. Arata, Self-diffusion of supercooled water to 238 K using PGSE NMR diffusion measurements, Journal of Physical Chemistry A, 103 (1999) 448-450. [Back]
  54. J. M. Simonson, The enthalpy of the isotope-exchange reaction: H2O + D2O = 2HDO at temperatures to 673 K and at pressures to 40 MPa, Journal of Chemical Thermodynamics, 22 (1990) 739-749. [Back]
  55. T. Kawamoto, S. Ochiai and H. Kagi, Changes in the structure of water deduced from the pressure dependence of the Raman OH frequency, Journal of Chemical Physics,120 (2004) 5867-5870. [Back, 2]
  56. K. N. Woods and H. Wiedemann, The relationship between dynamics and structure in the far infrared absorption spectrum of liquid water, Chemical Physics Letters, 393 (2004) 159-165. [Back]
  57. A. Goldsworthy, H. Whitney and E. Morris, Biological effects of physically conditioned water, Wat. Research 33 (1999) 1618-1626. [Back, 2]
  58. T. V. Lokotosh and N. P. Malomuzh, The nature of anomalous behavior of the Landau–Placzek
    ratio for supercooled water, Journal of Molecular Structure, 708 (2004) 55-60. A. Yu. Zasetsky, A. F. Khalizov and J. J. Sloan, Local order and dynamics in supercooled water: a study by IR spectroscopy and molecular dynamic simulations, Journal of Chemical Physics, 121 (2004) 6941-6947. [Back]
  59. R. V. Krems, Breaking van der Waals molecules with magnetic fields, Physical Review Letters, 93 (2004) 013201. [Back]
  60. A. Cesaro, V. Magazù, F. Migliardo, F. Sussich and M. Vadalà, Comparative study of structural properties of trehalose water solutions by neutron diffraction, synchrotron radiation and simulation, Physica B, 350 Suppl. 1 (2004) e367-e370. [Back]
  61. S-Y. Lo and W. Li, Onsager's formula, conductivity, and possible new phase transition, Modern Physics Letters, B 13 (1999) 885-893. [Back]
  62. G-J. Guo, Y-G. Zhang and Y-J. Zhao, Lifetimes of cagelike water clusters immersed in bulk liquid water: A molecular dynamics study on gas hydrate nucleation mechanisms, Journal of Chemical Physics,121 (2004) 1542-1547. [Back]
  63. H. Kanno, K. Miyata, K. Tomizawa and H. Tanaka, Additivity rule holds in supercooling of aqueous solutions, Journal of Physical Chemistry A, 108 (2004) 6079-6082. [Back]
  64. A. Tsoga, R. K. Richardson and E. R. Morris, Role of cosolutes in gelation of high methoxy pectin. Part 1. Comparison of sugars and polyols, Food Hydrocolloids, 18 (2004) 907-919. [Back]
  65. J. G. Watterson, Enzyme function: Random events or coherent action? (2004). [Back]
  66. C-H. Gu, H. Li, R. B. Gandhi and K. Raghavan, Grouping solvents by statistical analysis of solvent property parameters:implication to polymorph screening. International Journal of Pharmaceutics, 283 (2004) 117-125. [Back]
  67. K. D. Collins, Ions from the Hofmeister series and osmolytes: effects on proteins in solution and in the crystallization process, Methods 34 (2004) 300-311. K. D. Collins, Ion hydration: Implications for cellular function, polyelectrolytes, and protein crystallization, Biophysical Chemistry, 119 (2006) 271-281. [Back, 2]
  68. C. Ebner, U. Onthong and M. Probst, Computational study of hydrated phosphate anions, Journal of Molecular Liquids, 118 (2005) 15-25. [Back]
  69. E. Sanz, C. Vega, J. L. F. Abascal and L. G. MacDowell, Tracing the phase diagram of the four-site water potential (TIP4P). Journal of Chemical Physics, 121 (2004) 1165-1166. E. Sanz, C. Vega, J. L. F. Abascal and L. G. MacDowell, Phase diagram of water from computer simulation, Physical Review Letters, 92 (2004) 255701. [Back]
  70. R. Cini and M. Torrini, Temperature dependence of the magnetic susceptibility of water, ournal of Chemical Physics, 49 (1968) 2826-2830. [Back]
  71. W. Kunz, P. Lo Nostro and B. W. Ninham, The present state of affairs with Hofmeister effects, Current Opinion in Colloid and Interface Science, 9 (2004) 1-18. [Back, 2, 3]
  72. V. S. L. Craig, Bubble coalescence and specific ion effects, Current Opinion in Colloid and Interface Science, 9 (2004) 178-184. [Back, 2, 3]
  73. S. Bratos, J.-Cl. Leicknam, S. Pommeret and G. Gallot, Laser spectroscopic visualization of hydrogen bond motions in liquid water, Journal of Molecular Structure, 708 (2004) 197-203. [Back]
  74. P. B. Petersen, J. C. Johnson, K. P. Knutsen and R. J. Saykally, Direct experimental validation of the Jones–Ray effect, Chemical Physics Letters, 397 (2004) 46-50; P. B. Petersen and R. J. Saykally, Adsorption of ions to the surface of dilute electrolyte solutions: The Jones-Ray Effect Revisited, Journal of the American Chemical Society, 127 (2005) 15446-15452; P. B. Petersen and R. J. Saykally, On the nature of ions at the liquid water surface, Annual. Review of Physical Chemistry, 57 (2006) 333-364. [Back, 2, 3]
  75. M. Guthrie, C. A. Tulk, C. J. Benmore and D. D. Klug, A structural study of very high-density amorphous ice, Chemical Physics Letters, 397 (2004) 335-339. [Back] [Back to Top to top of page]
  76. R. B. Sessions, G. L. Thomas and M. J. Parker, Water as a conformational editor in protein folding, Journal of Mol. Biol. 343 (2004) 1125-1133. [Back]
  77. M. A. Anisimov, J. V. Sengers and J. M. H. Levelt-Sengers, Near-critical behavior of aqueous systems, in Aqueous systems at elevated temperatures and pressures: Physical chemistry in water, steam and hydrothermal solutions, ed. D. A. Palmer, R. Fernández-Prini and A. H. Harvey (Elsevier, Amsterdam, 2004) pp. 29-71. [Back]
  78. R. Fernández-Prini, J. L. Alvarez and A. H. Harvey, Aqueous solubility of volatile nonelectrolytes, in Aqueous systems at elevated temperatures and pressures: Physical chemistry in water, steam and hydrothermal solutions, ed. D. A. Palmer, R. Fernández-Prini and A. H. Harvey (Elsevier, Amsterdam, 2004) pp. 73-98; E. Wilhelm, R. Battino and R. J. Wilcock, Low-pressure solubility of gases in liquid water, Chemical Reviews, 77 (1977) 219-262. [Back]
  79. Y. Bouteiller and J. P. Perchard, The vibrational spectrum of (H2O)2: comparison between anharmonic ab initio calculations and neon matrix infrared data between 9000 and 90 cm−1, Chemical Physics, 305 (2004) 1-12. [Back]
  80. A. Bateni, S. S. Susnar, A. Amirfazli and A. W. Neumann, Development of a new methodology to study drop shape and surface tension in electric fields, Langmuir, 20 (2004) 7589-7597. [Back]
  81. L. Glasser, Water, water, everywhere, Journal of Chemical Education, 81 (2004) 414-418. [Back]
  82. Yu. Ya. Efimov and Yu. I. Naberukhin, Thermodynamic functions of liquid water calculated from the temperature evolution of the vibration contour, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 42 (2004) 1789-1794. [Back]
  83. T. Meissner and F. J. Wentz, The complex dielectric constant of pure and seawater from microwave satellite observations, IIEEE Transactions on Geoscience and Remote Sensing, 42 (2004) 1836-1849. [Back, 2]
  84. A.-L. Kjøniksen, M. Hiorth, B. Nyström, Temperature-induced association and gelation of aqueous solutions of pectin. A dynamic light scattering study. European Polymer Journal, 40 (2004) 2427-2435. [Back]
  85. R. Li, Z. Jiang, F. Chen, H. Yang and Y. Guan, Hydrogen bonded structure of water and aqueous solutions of sodium halides: a Raman spectrocopic study, Journal of Molecular Structure, 707 (2004) 83-88. [Back]
  86. (a) Y. Harano and M. Kinoshita, Large gain in translational entropy of water is a major driving force in protein folding, Chemical Physics Letters, 399 (2004) 342-348; (b) Y. Harano, R. Roth and M. Kinoshita, On the energetics of protein folding in aqueous solution, Chemical Physics Letters, 432 (2006) 275-280. [Back]
  87. G. V. Andrievsky, V. K. Klochkov, L. I. Derevyanchenko, Is C60 fullerene molecule toxic?! Fuller. Nanotub. Car. N. 13 (2005) 363-376. K.-T. Kim, M.-H. Jang, J.-Y. Kim and S. D. Kim, Effect of preparation methods on toxicity of fullerene water suspensions to Japanese medaka embryos, Science Total Environ. 408 (2010) 5606-5612; E. A. Kyzyma, A. A. Tomchuk, L. A. Bulavin, V. I. Petrenko, L. Almasy, M. V. Korobov, D. S. Volkov, I. V. Mikheev, I. V. Koshlan, N. A. Koshlan, P. Bláha, M. V. Avdeev and V. L. Aksenov, Structure and toxicity of aqueous fullerene C60 solutions, Journal of Surface Investigation. X-ray, Synchrotron and Neutron Techniques, 9 (2015) 1-5, first published in Poverkhnost’. Rentgenovskie, Sinkhrotronnye i Neitronnye Issledovaniya 1 (2015) 5-9. [Back]
  88. T. Ikura, Y. Urakubo and I. Nobutoshi, Water-mediated interaction at a protein interface, Chemical Physics, 307 (2004) 111-119. [Back, 2]
  89. A. Mershin, A. A. Kolomenski, H. A. Schuessler and D. V. Nanopoulos, Tubulin dipole moment, dielectric constant and quantum behavior: computer simulations, experimental results and suggestions, BioSystems, 77 (2004) 73-85. [Back]
  90. (a) J. D. Smith, C. D. Cappa, K. R. Wilson, B. M. Messer, R. C. Cohen and R. J. Saykally, Energetics of hydrogen bond network rearrangements in liquid water, Science, 306 (2004) 851-853. This paper has been questioned (b) A. Nilsson, Ph. Wernet, D. Nordlund, U. Bergmann, M. Cavalleri, M. Odelius, H. Ogasawara, L.-Å. Näslund, T. K. Hirsch, L. Ojamäe, P. Glatzel and L. G. M. Pettersson, Comment on" energetics of hydrogen bond network rearrangements in liquid water" Science, 308 (2005) 793a; and supported (c) J. D. Smith, C. D. Cappa, B. M. Messer, R. C. Cohen and R. J. Saykally, Response to comment on "energetics of hydrogen bond network rearrangements in liquid water", Science, 308 (2005) 793b. [Back, 2]
  91. J. F. Lin, B. Militzer, V. V. Struzhkin, E. Gregoryanz, R. J. Hemley and H-K. Mao, High pressure-temperature Raman measurements of H2O melting at 22 GPa and 900 K, Journal of Chemical Physics,121 (2004) 8423-8427. [Back]
  92. A. H. Narten, C. G. Venkatesh, and S. A. Rice, Diffraction pattern and structure of amorphous solid water at 10 and 77 °K, Journal of Chemical Physics,64 (1976) 1106-1121. M. E. Palumbo, The morphology of interstellar water ice, Journal of Physics: Conf.erence Series, 6 (2005) 211-216. [Back]
  93. T. Loerting, C. Salzman, I. Kohl, E. Meyer and A. Hallbrucker, A second distinct structural "state" of high-density amorphous ice at 77 K and 1 bar, Physical Chemistry Chemical Physics, 3 (2001) 5355-5357. [Back]
  94. E. I. Yaseen, T. J. Herald, F. M. Aramouni and S. Alavi, Rheological properties of selected gum solutions, Food Research International, 38 (2005) 111-119. [Back]
  95. D. H. Paik, I-R. Lee, D-S. Yang, J. S. Baskin and A. H. Zewail, Electrons in finite-sized water cavities: hydration dynamics observed in real time, Science, 306 (2004) 672-675. [Back]
  96. M. Praprotnik, D. Janezic and J. Mavri, Temperature dependence of water vibrational spectrum: a molecular dynamics simulation study, Journal of Physical Chemistry A, 108 (2004) 11056-11062. [Back, 2]
  97. A. Botti, F. Bruni. S. Imberti, M. A. Ricci and A. K. Soper, Solvation shell of H+ ions in water, Journal of Molecular Liquids, 117 (2004) 77-79. [Back]
  98. A. Botti, F. Bruni. S. Imberti, M. A. Ricci and A. K. Soper, Solvation shell of OH ions in water, Journal of Molecular Liquids, 117 (2004) 81-84. [Back, 2]
  99. (a) Y. Raichlin, A. Millo and A. Katzir, Investigation of the structure of water using mid-IR fiberoptic evanescent wave spectroscopy, Physical Review Letters, 93 (2004) 185703. (b) A. Millo, Y. Raichlin and A. Katzir, Mid-IR fiberoptic ATR spectroscopy of the solid-liquid phase transition of water, Applied Spectroscopy, 59 (2005) 460-466. [Back, 2, 3, 4]
  100. F. Despa, A. Fernández and R. S. Berry, Dielectric modulation of biological water, Physical Review Letters, 93 (2004) 228104. [Back] [Back to Top to top of page]

 

 

 

Home | Site Index | Site Map | Search | LSBU | Top

 

This page was established in 2004 and last updated by Martin Chaplin on 25 January, 2022


Creative Commons License
This work is licensed under a Creative Commons Attribution
-Noncommercial-No Derivative Works 2.0 UK: England & Wales License