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 2601 - 2700


  1. J. J. Shephard and C. G. Salzmann, Molecular reorientation dynamics govern the glass transitions of the amorphous ices, J. Phys. Chem. Lett. 7 (2016) 2281-2285. [Back, 2]
  2. S. Woutersen, M. Hilbers, Z. Zhao and C. A. Angell, Liquid-liquid transition in supercooled aqueous solution involving a low-temperature phase similar to low-density amorphous water, arxiv/papers/1605/1605.08985; Z. Zhao and C. A. Angell, Apparent first-order liquid–liquid transition with pre-transition density anomaly, in water-rich ideal solutions, Angew. Chem. Int. Ed. 55 (2016) 2474-2477. [Back]
  3. M. M. Mekonnen and A. Y. Hoekstra, , Four billion people facing severe water scarcity, Sci. Adv. 2 (2016) e1500323. [Back]
  4. Hydrogen atoms can be located accurately and precisely by x-ray crystallography, M. Woińska, S. Grabowsky, P. M. Dominiak, K. Woźniak and D. Jayatilaka, Sci. Adv. 2 (201 6 ) e1600192. [Back]
  5. S. Tristram-Nagle, Use of X-ray and neutron scattering methods with volume measurements to determine lipid bilayer structure and number of water molecules/lipid. In E. A. Disalvo Ed. Membrane hydration: The role of water in the structure and function of biological membranes (Subcellular biochemistry) (Springer, 2015) pp 17-43. [Back]
  6. C.-Y. Cheng, L. L. C. Olijve, R. Kausik and S. Han, Cholesterol enhances surface water diffusion of phospholipid bilayers, J. Chem. Phys.141 (2014) 22D513. [Back]
  7. C. L. Wennberg, D. van der Spoel and J. S. Hub, Large influence of cholesterol on solute partitioning into lipid
    membranes, J. Am. Chem. Soc. 134 (2012) 5351-5361. [Back]
  8. A. V. Finkelstein and S. O. Garbuzynskiy, Solution of Levinthal’s paradox is possible at the level of the formation and assembly of protein secondary structures, Biophysics 61 (2016) 1-5. Originally published in Biofizika 61 (2016). 5-10. [Back]
  9. U. Ravnskov, D. M Diamond, R. Hama, T. Hamazaki, B.Hammarskjöld, N. Hynes, M. Kendrick, P. H. Langsjoen, A. Malhotra, L. Mascitelli, K. S. McCully, Y. Ogushi, H. Okuyama, P. J. Rosch, T. Schersten, S.Sultan and R. Sundberg, Lack of an association or an inverse association between low-densitylipoprotein cholesterol and mortality in the elderly: a systematic review, BMJ Open 6 (2016) e010401. [Back]
  10. F. de Meyer and B. Smit, Effect of cholesterol on the structure of a phospholipid bilayer, PNAS 106 (2009) 3654-3658. [cBak]
  11. H. M. Vernon, XLV. On the maximum density of water, Philosophical Mag. Ser. 5, 31:192, (1891) 387-392, doi: 10.1080/14786449108620127; L. N. Baturov and I. N. Govor, Anomalies of the natural convection of water near 3.98 °C, Tech. Phys. 61 (2016) 171-174; Originally published in Zhurnal Tekhnicheskoi Fiziki, 61 (2016) 14-17. [Back]
  12. J. M. Brum, R. D. Gibb, J. C. Peters and R. D. Mattes, Satiety effects of psyllium in healthy volunteers, Appetite 105 (2016) 27-36; C. Tan, H. Wei, X. Zhao, C. Xu, Y. Zhou and J. Peng, Soluble fiber with high water-binding capacity, swelling capacity, and fermentability reduces food intake by promoting satiety rather than satiation in rats, Nutrients 8 (2016) 615. [Back]
  13. S.Cerveny, F. Mallamace, J. Swenson, M.Vogel and L. Xu, Confined water as model of supercooled water, Chem. Rev. 116 (2016) 7608-7625. [Back]
  14. H. Oshima, T. Hayashi and M. Kinoshita, Statistical thermodynamics for actin-myosin binding: The crucial importance of hydration effects, Biophys.J.110 (2016) 2496-2506. [Back]
  15. E. F. van Dishoeck, E. Herbst and D. A. Neufeld, Interstellar water chemistry: From laboratory to observations, Chem. Rev. 113 (2013) 9043-9085. [Back]
  16. W. Chen, S. Chen, Q. Zhang Z. Fan, K.-W.Huang, X. Zhang, Z. Lai and P. Sheng, High-flux water desalination with interfacial salt sieving effect in nanoporous carbon composite membranes, arxiv.org/abs/1604.07567 . [Back]
  17. A. Priye, Y. A. Hassan and V. M. Ugaz, Thermally-targeted adsorptionand enrichment in micro-scale hydrothermal pore environments, 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences, 27-31 October 2013, Freiburg, Germany, pp 605-607; A. Priye, Y. A. Hassan and V. M. Ugaz, Thermally-targeted adsorptionand enrichment in micro-scale hydrothermal pore environments, arXiv:1606.00655 [physics.flu-dyn]. [Back]
  18. D. Bastos-González,, L. Pérez-Fuentes, C. Drummond and J. Faraudo, Ions at interfaces: the central role of hydration and hydrophobicity, Curr. Opin. Coll. Interface Sci. 23 (2016) 19-28. [Back]
  19. M. D. Baer, V. T. Pham, J, L. Fulton, G. K. Schenter, M. Balasubramanian and C. J. Mundy, Is iodate a strongly hydrated cation? J. Phys. Chem. Lett. 2 (2011) 2650-2654. [Back]
  20. D. Kracher, S. Scheiblbrandner, A. K. G. Felice, E. Breslmayr, M. Preims, K. Ludwicka, D. Haltrich, V. G. H. Eijsink and R. Ludwig, Extracellular electron transfer systems fuel cellulose oxidative degradation, Science 352 (2016) 1098-1101; A. T. Martínez, How to break down crystalline cellulose, Science 352 (2016)1050-1051. [Back]
  21. M. Ceriotti, W. Fang, P. G. Kusalik, R. H. McKenzie, A. Michaelides, M. A. Morales and T. E. Markland, Nuclear quantum effects in water and aqueous systems: Experiment, theory, and current challenges, Chem. Rev. 116 (2016) 7529-7550 [Back, 2, 3]
  22. X.-Z. Li, M. I. J. Probert, A. Alavi and A. Michaelides, Quantum nature of the proton in water-hydroxyl overlayers on metal surfaces., Phys. Rev. Lett. 104 (2010) 066102. [Back]
  23. T. Fransson, Y. Harada, N. Kosugi, N. A. Besley, B. Winter, J. J. Rehr, L. G. M. Pettersson and A. Nilsson, X‑ray and electron spectroscopy of water, Chem. Rev. 116 (2016) 7551-7569. [Back]
  24. K.-Y. Law, Definitions for hydrophilicity, hydrophobicity, and superhydrophobicity: Getting the basics right, J. Phys. Chem. Lett. 5 (2014,) 686-688; B. Samuel, H. Zhao and K.-Y. Law, Study of wetting and adhesion interactions between water and various polymer and superhydrophobic surfaces, J. Phys. Chem. C 115 (2011) 14852-14861. [Back]
  25. L. Bocquet and E. Lauga, A smooth future? Nature Mater. (2011) 334-337. [Back]  [Back to Top to top of page]
  26. J. Drelich, E. Chibowski, D. D. Meng and K. Terpilowski, Hydrophilic and superhydrophilic surfaces and materials, Soft Matter. 7 (2011) 9804-9828; J. Drelich and A. Marmur, Physics and applications of superhydrophobic
    and superhydrophilic surfaces and coatings, Surface Innovations Institute of Civil Engineers (2013) doi.org/10.1680/si.13.00017. [Back]
  27. F. Perakis, L. De Marco, A. Shalit, F. Tang, Z. R. Kann, T. D. Kühne, R. Torre, M. Bonn, and Y. Nagata, Vibrational spectroscopy and dynamics of water, Chem. Rev. 116 (2016) 7590-7607; D. E. Otten and R. J. Saykally, Spectroscopy and modeling of aqueous interfaces Società Italiana di Fisica (2015) doi: 10.3254/978-1-61499-507-4-137. [Back]
  28. N. Agmon, H. J. Bakker, R. K. Campen, R. H. Henchman, P. Pohl, S. Roke, M. Thämer and A. Hassanali, Protons and hydroxide ions in aqueous systems, Chem. Rev. 116 (2016) 7642-7672. [Back, 2, 3]
  29. O. Björneholm, M. H. Hansen, A. Hodgson, L.-M. Liu, D. T. Limmer, A. Michaelides, P. Pedevilla, J. Rossmeisl, H. Shen, G. Tocci, E. Tyrode, M.-M. Walz, J. Werner and H. Bluhm, Water at interfaces, Chem. Rev. 116 (2016) 7698-7726. [Back]
  30. A. Eiberweiser., A. Nazet., S. E. Kruchinin., M. V. Fedotova.and R. Buchner, Hydration and ion binding of the osmolyte ectoine, J. Phys. Chem. B 119 (2015) 15203-15211. [Back]
  31. N. F. A. van der Vegt, K. Haldrup, S. Roke, J. Zheng, M. Lund and H. J. Bakke, Water-mediated ion pairing: Occurrence and relevance, Chem. Rev. 116 (2016) 7626-7641. [Back]
  32. V. Vinš, M. Fransen, J. Hykl and J. Hrubý, Surface tension of supercooled water determined by using a counterpressure capillary rise method, J. Phys. Chem. B 119 (2015) 5567-5575. [Back]
  33. D. Seo, S. R. German, T. L. Mega and W. A. Ducker, Phase state of interfacial nanobubbles, J. Phys. Chem. C 119 (2015) 14262-14266. [Back]
  34. N. Smolentsev, C. Lütgebaucks, H. I. Okur, A. G. F. de Beer and S. Roke, Intermolecular headgroup interaction and hydration as driving forces for lipid transmembrane asymmetry, J. Am. Chem. Soc. 138 (2016) 4053-4060. [Back]
  35. M. Li, L. Tonggu, X. Zhan, T. L. Mega and L. Wang, Cryo-EM visualization of nanobubbles in aqueous solutions, Langmuir 32 (2016) 11111-11115. [Back]
  36. K. Yasui, T. Tuziuti, W. Kanematsu and K. Kato, Dynamic equilibrium model for a bulk nanobubble and a microbubble partly covered with hydrophobic material, Langmuir 32 (2016) 11101-11110. [Back]
  37. S. Liu, S. Oshita, S. Kawabata, Y. Makino and T. Yoshimoto, Identification of ROS produced by nanobubbles and their positive and negative effects on vegetable seed germination, Langmuir 32 (2016) 11295-11302; S. Liu, S. Oshita, Y. Makino, Q. Wang, Y. Kawagoe and T. Uchida, Oxidative capacity of nanobubbles and its effect on seed
    germination, ACS Sustainable Chem. Eng. 4 (2016) 1347-1353. [Back]
  38. M. Yarom and A. Marmur, Stabilization of boiling nuclei by insoluble gas: Can a nanobubble cloud exist? Langmuir 31 (2015) 7792-7798. [Back]
  39. S. Ljunggren and J. C. Eriksson, The lifetime of a colloid-sized gas bubble in water and the cause of the hydrophobic attraction. Colloids Surfaces A Physicochem. Eng. Asp. 129-130 (1997) 151-155. [Back] .
  40. J. Zhu, H. An, M. Alheshibri, L. Liu, P.M. J. Terpstra, G. Liu and V. S. J. Craig, Cleaning with bulk nanobubbles, Langmuir 32 (2016) ) 11203-11211. [Back]
  41. G. A. Cisneros, K. T. Wikfeldt, L. Ojamäe, J .Lu, Y. Xu, H. Torabifard, A. P. Bartók, G. Csányi, V. Molinero and F. Paesani, Modeling molecular interactions in water: from pairwise to many-body potential energy functions, Chem. Rev. 116 (2016) 7501-7528. [Back]
  42. Z.He, W. J. Xie, Z. Liu,1 G. Liu, Z. Wang, Y.Q. Gao and J. Wang, Tuning ice nucleation with counterions on polyelectrolyte brush surfaces, Sci. Adv. 2 (2016) e1600345. [Back]
  43. M. Grossutti and J. R Dutcher, Correlation between chain architecture and hydration water structure in polysaccharides, Biomacromolecules 17 (2016) 1198-1204. [Back]
  44. U. T. D. Huynh, A. Lerbret, F. Neiers, O. Chambin and A. Assifaoui, Binding of divalent cations to polygalacturonate: A mechanism driven by the hydration water, J. Phys. Chem. B 120 (2016) 1021-1032. [Back, 2]
  45. H. Laksmono, T. A. McQueen, J. A. Sellberg, N. D. Loh, C. Huang, D. Schlesinger, R. G. Sierra, C. Y. Hampton, D. Nordlund, M. Beye, A. V. Martin,○ A. Barty, M. M. Seibert, M. Messerschmidt, G. J. Williams, S. Boutet, K. Amann Winkel, T. Loerting, L. G. M. Pettersson, M. J. Bogan and A. Nilsson, Anomalous behavior of the homogeneous ice nucleation rate in “No-Man’s Land”, J. Phys. Chem. Lett. 6 ( 2015) 2826-2832. [Back]
  46. N. F. Bunkin, A. V Shkirin, N. V. Suyazov, V. A Babenko, A. A Sychev, N. V Penkov, K. N Belosludtsev and S. V. Gudkov, Formation and dynamics of ion-stabilized gas nanobubble phase in the bulk of aqueous NaCl solutions, J. Phys. Chem. B 120 (2016) 1291-1303. [Back]
  47. F. Yen, Z. Chi, A. Berlie, X. Liu and A. F Goncharov, Dielectric anomalies in crystalline ice: Indirect evidence
    of the existence of a metastable critical point in H2O, J. Phys. Chem. C 119 (2015) 20618-20622. [Back, 2]
  48. Y. Qin, L. Wang and D. Zhong, Dynamics and mechanism of ultrafast water – protein interactions PNAS 113 (2016) 8424-8429; L. U. L. Brinkmann and J. S. Hub, Ultrafast anisotropic protein quake propagation after CO photodissociation in myoglobin, PNAS 113 (2016) 10565-10570. [Back]
  49. J. J. Barnes, D. A. Kring, R. Tartèse, I. A. Franchi, M. Anand and S. S. Russell, An asteroidal origin for water in the Moon. Nature Comms. 7 (2016) 11684. [Back]
  50. X. Xue, R. M. Pashley and, B. W. Ninham, Novel applications of non Hofmeister ion specificity in bubble interactions, Curr. Opin. Coll. Interface Sci. 23 (2016) 50-57. [Back, 2]  [Back to Top to top of page]
  51. S. Patel and A. Goyal, Applications of natural polymer gum arabic: A Review, Int. J. Food Prop. 18 (2015) 986-998. [Back]
  52. Á. Casado, P. Ramos, J. Rodríguez, N. Moreno and P. Gil, Types and characteristics of drinking water for hydration in the elderly, Crit. Rev. Food Sci. Nutr.,55 (2015) 1633-1641. [Back]
  53. P. Gallo, K. Amann-Winkel, C. A. Angell, M. A. Anisimov, F. Caupin, C.Chakravarty, E. Lascaris, T. Loerting, A. Z. Panagiotopoulos, J. Russo, J. A. Sellberg, H. E. Stanley, H. Tanaka, C. Vega, L. Xu and L. G. M. Pettersson, Water: a tale of two liquids, Chem. Rev. 116 (2016) 7463-7500 [Back, 2]
  54. A. A. Zavitsas, Some opinions of an innocent bystander regarding the Hofmeister series, Curr. Opin. Coll. Interface Sci. 23 (2016) 72-81. [Back, 2, 3, 4, 5]
  55. A. Einstein, On the volume of a dissolved substance of molecular volume large in comparison with that of the solvent, Ann. Physik 19 (906) 289-306. Corrections, Ann. Physik, 34 (1911) .591-592; N. Straumann, On Einstein’s doctoral thesis, arXiv:physics/0504201v1 [physics.hist-ph] 27 Apr 2005. [Back]
  56. Z. Wu, Q. Cui and A. Yethiraj, A new coarse-grained model for water: The importance of electrostatic interactions J. Phys. Chem. B 114 (2010) 10524-10529. [Back]
  57. A. Aroti, E. Leontidis, E. Maltseva and G. Brezesinski, Effects of Hofmeister anions on DPPC langmuir monolayers at the air-water interface, J. Phys. Chem. B 108 (2004) 15238-15245. [Back]
  58. D. Banerjee, S. V. Bhat and D. Leporini, Electron spin resonance studies of supercooled water, In: Liquid Polymorphism, Ed. H. E. Stanley: Adv. Chem. Phys. 152 (2013) 1-28. [Back]
  59. A. Coghlan, Who needs water? Dry volcanic vents more alive than wet soil. New Scientist 24 Jun (2016); A. Solon, Oases of microbial life in the highest elevation fumaroles on Earth, Undergraduate Honors Theses. Paper 1047, University of Colorado (2016). [Back]
  60. L. P. Santos, T. R. D. Ducati, L. B. S. Balestrin and F. Galembeck, Water with excess electric charge, J. Phys. Chem. C 115 (2011) 11226-11232. [Back, 2, 3]
  61. E. C. Fuchs, M. Sammer, A. D. Wexler, P. Kunkte and J. Woisetschläger, A floating water bridge produces water with excess charge, J. Phys. D: Appl. Phys. 49 (2016) 125502. [Back, 2]
  62. B. H. Patel, C. Percivalle, D. J. Ritson, C. D. Duffy and J. D. Sutherland, Common origins of RNA, protein and lipid precursors in a cyanosulfidic protometabolism, Nature Chem. 7 (2015) 301-307. [Back]
  63. Z. Guo, Y. Liu, Q. Xiao,and X. Zhang, Hidden nanobubbles in undersaturated liquids, Langmuir 32 (2016) 11328-11334. [Back]
  64. L. Wang, X. Miao and G. Pan, Microwave induced interfacial nanobubbles, Langmuir 32 (2016) 11147-11154. [Back]
  65. P. H. Handle and T. Loerting, Dynamics anomaly in high-density amorphous ice between 0.7 and 1.1 GPa, Phys. Rev. B 93 (2016) 064204. [Back]
  66. F. Caupin and A. D. Stroock ,The stability limit and other open questions on water at negative pressure, In Liquid Polymorphism: Adv. Chem.Phys. 152, Ed. H. E. Stanley (2013, John Wiley & Sons) pp 51-80. [Back]
  67. H. D. Willauer, J. G. Huddleston and R. D. Rogers, Solute partitioning in aqueous biphasic systems composed of
    polyethylene glycol and salt: The partitioning of small neutral organic species, Ind. Eng. Chem. Res. 41 (2002) 1892-1904. [Back]
  68. M. A. González, C. Valeriani, F. Caupin and J. L. F. Abascal, A comprehensive scenario of the thermodynamic anomalies of water using the TIP4P/2005 model, (2016) arXiv:1605.05383v1 [cond-mat.stat-mech]. [Back, 2]
  69. A. Yu, P. Carlson and G. H. Pollack, Unexpected axial flow through hydrophilic tubes: Implications for energetics of water, Eur.Phys. J. Special Topics 223 (2014) 947-958. [Back]
  70. P. W. Snyder, M. R. Lockett, D.T. Moustakas and G M. Whitesides, Is it the shape of the cavity, or the shape of
    the water in the cavity? Eur. Phys. J. Special Topics 223 (2014) 853-891. [Back]
  71. T. Uchida, K. Yamazaki and K. Gohara, Generation of micro- and nano-bubbles in water by dissociation of gas hydrates, Korean J. Chem. Eng. 33 (2016) 1749-1755. [Back]
  72. V. Mazzini and V. S.J. Craig, Specific-ion effects in non-aqueous systems, Curr. Opin. Colloid & Interface Sci. 23 (2016) 82-93. [Back]
  73. A. V. Fonin, V. N. Uversky, I. M. Kuznetsova and K. K. Turoverov, Protein folding and stability in the presence of osmolytes, Biophysics 61 (2016) 185-192; Originally published Biofizika 61 (2016) 222–230. [Back]
  74. D. W. Deamer and C. D. Georgio, Hydrothermal conditions and the origin of cellular life, Astrobiology 15 (2015) 1091-1095. [Back]
  75. K. Zahnle, L. Schaefer and B. Fegley, Earth’s earliest atmospheres, Cold Spring Harb. Perspect. Biol. 2 (2010) a00489. [Back]  [Back to Top to top of page]
  76. B. Mahmoud, M. Yosra and A. Nadia, Effects of magnetic treatment on scaling power of hard waters, Separation Purification Techn. 171 (2016) 88-92. [Back, 2]
  77. E. Nittinger, N. Schneider, G. Lange and M. Rarey, Evidence of water molecules - A statistical evaluation of water molecules based on electron density, J. Chem. Inf. Model. 55 (2015) 771-783. [Back]
  78. A. Kuffel and J. Zielkiewicz, Water-mediated long-range interactions between the internal vibrations of remote proteins, Phys Chem Chem Phys. 17 (2015) 6728-6733; Correction,. Phys.Chem.Chem.Phys. 18 (2016) 13130; A. Kuffel, How water mediates the long-range interactions between remote protein molecules, Phys Chem Chem Phys. 19 (2017) 5441-5448. [Back]
  79. A. Scheludko,   B. V. Toshev and   D. T. Bojadjiev,  Attachment of particles to a liquid surface (Capillary theory of flotation), J. Chem. Soc., Faraday Trans. 1, 72 (1976) 2815-2828. [Back]
  80. R. H. Tromp, Water–water interfaces, In. Eds. P. R. Lang and Y. Liu, Soft matter at aaqueous interfaces, Springer, 2016, pp 159-186. [Back]
  81. M. C. Weiss, F. L. Sousa, N. Mrnjavac, S. Neukirchen, M. Roettger, S.Nelson-Sathi and W. F. Martin, The physiology and habitat of the last universal common ancestor, Nature Microbiology 1 (2016) 16116. [Back]
  82. S. Christodoulides, E. Dimidi, K. C. Fragkos, A. D. Farmer, K. Whelan and S. M. Scott, Systematic review with meta analysis: effect of fibre supplementation on chronic idiopathic constipation in adults, Alimentary Pharmacol. Therapeutics 44 (2016) 103-116. [Back]
  83. J. F. Nagle, Introductory lecture: Basic quantities in model biomembranes, Faraday Discuss. 161 (2013) 11-29. [Back]
  84. D. Mootz, E.-J. Oellers and M. Wiebcke, First examples of Type I clathrate hydrates of strong acids: Polyhydrates of hexafluorophosphoric,tetrafluoroboric, and perchloric acid, J. Am. Chem. Soc. 109 (1987) 1200-1202. [Back]
  85. J. J. Towey, A. K. Soper and L. Dougan, What happens to the structure of water in cryoprotectant solutions? Faraday Discuss. 167 (2013) 159-176; G. D. Elliott, S. Wang and B. J. Fuller, Cryoprotectants: A review of the actions and applications of cryoprotective solutes that modulate cell recovery from ultra-low temperatures, Cryobiology (2017) Article in press, doi: 10.1016/j.cryobiol.2017.04.004. [Back]
  86. R. H. Henchman and S. J. Cockram, Water's non-tetrahedral side, Faraday Discuss. 167 (2013) 529-550. [Back]
  87. C. G. Salzmann, B. Slater, P. G. Radaelli, J. L. Finney, J. J. Shephard, M. Rosillo-Lopez and J. Hindley, Detailed crystallographic analysis of the ice VI to ice XV hydrogen ordering phase transition, J. Chem. Phys. 145 (2016) 204501. [Back]
  88. V. R. Kumar and P. P. Kiran, Transformation of liquid water to ice VII during propagation of picosecond laser pulses: effects of wavelength and polarization, J. Optical Soc. Am. B 33 (2016) 1157-1168. [Back]
  89. C. Lamy, From hydrogen production by water electrolysis to its utilization in a PEM fuel cell or in a SO fuel cell: Some considerations on the energy efficiencies, Int. J. Hydrogen Energy 41 (2016) 15415-15425. [Back]
  90. V. A. Vlasov, , Diffusion model of gas hydrate dissociation into ice and gas: Simulation of the self-preservation effect, Int. J. Heat Mass Transfer 102 (2016) 631-636. [Back]
  91. W. Zhu, W.-H. Zhao, L. Wang, D. Yin, M. Jia, J. Yang, X. C. Zeng, L. and F. Yuan, Two-dimensional interlocked pentagonal bilayer ice: How do water molecules form the hydrogen bonding network? Phys. Chem. Chem. Phys. 18 (2016) 14216-14221. [Back]
  92. C.-E. Brunchi, M. Bercea, S. Morariu and M. Dascalu, Some properties of xanthan gum in aqueous solutions: effect of temperature and pH, J. Polym. Res. 23 (2016) 123. [Back]
  93. M. Nakano, H. Tateishi-Karimata, S. Tanaka, F. Tama, O. Miyashita, S-i. Nakano and N. Sugimoto, Local thermodynamics of the water molecules around single- and double-stranded DNA studied by grid inhomogeneous solvation theory, Chem. Phys. Lett. 660 (2016) 250-255. [Back]
  94. S. Ruberto, J. Reutzsch and B.Weigand, Experimental investigation of the evaporation rate of supercooled water droplets at constant temperature and varying relative humidity, Int. Commun. Heat. Mass Transf. 77 (2016) 190-194. [Back]
  95. V. P. Voloshin and Yu. I. Naberukhin, Proper and improper hydrogen bonds in liquid water, J. Struct. Chem. 57 (2016) 497-506. [Back]
  96. R. H. Henchman, Water’s dual nature and its continuously changing hydrogen bonds, J. Phys.: Condens. Matter 28 (2016) 384001. [Back]
  97. J. D. Smith and S. W. Rick, Ion clustering in aqueous salt solutions near the liquid/vapor nterface, Condens. Matter Phys. 19 (2016) 23002; arXiv:1603.07106v1 [cond-mat.soft] 23 Mar 2016. [Back]
  98. D. J. Lamport, K. L. Barfoot, G. May, N. Masento, L. Azbel-Jackson, D. T. Field, C. M. Williams, L. T. Butler and J. E. Ellis, The effects of hydration on prospective memory and mood, Appetite 101 (2016) 222. [Back]
  99. P. Pohl, S. M. Saparov and Y. N. Antonenko, The size of the unstirred layer as a function of the solute diffusion coefficient, Biophys. J. 75 (1998) 1403-1409. [Back]
  100. M. Magini, G. Paschina, and G. Piccaluga, On the structure of methyl alcohol at room temperature, J. Chem. Phys. 77 (1982) 2051-2056. [Back]


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


This page was established in 2016 and last updated by Martin Chaplin on 15 August, 2017

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