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 3201- 3300

 

  1. J. K. Lee, D. Samanta, I. Nam, H.G. Nam and R. N. Zare, Spontaneous reduction of biomolecules on the surface of Water droplets, Biophysical Journal, 114 (2018 ) 542a. [Back]
  2. G. N. Ruiz, K. Amann-Winkel, L. E. Bove, H. R. Corti and T. Loerting, Calorimetric study of water’s two glass transitions in the presence of LiCl, Physical Chemistry Chemical Physics, (2018) Article in press. [Back, 2]
  3. M. J. Cuthbertson and P. H. Poole, Mixture like behavior near a liquid-liquid phase transition in simulations of supercooled water, Physical Review Letters, 106 (2011) 115706; F. Cipcigan, V. Sokhan, G. Martyna and J. Crain, Structure and hydrogen bonding at the limits of liquid water stability, Scientific Reports, 8 (2018) 1718. [Back, 2]
  4. R. Parmar and S. K. Majumder, Microbubble generation and microbubble-aided transport process intensification-A state-of-the-art report, Chemical Engineering and Processing, 64 (2013) 79-97. [Back]
  5. Q. Zhao, P. Majsztrik and J. Benziger, Diffusion and interfacial transport of water in Nafion, Journal of Physical Chemistry B, 115 (2011) 2717-2727. [Back]
  6. S. Shimizu and N. Matubayasi, Ion hydration: linking self-diffusion and reorientational motion to water structure, Physical Chemistry Chemical Physics, (2018) Article in press, doi: 10.1039/c7cp07309g. [Back]
  7. N. F. A. van der Vegt and D. Nayar, The hydrophobic effect and the role of cosolvents, Journal of Physical Chemistry B, 121 (2017) 9986-9998. [Back]
  8. A. Campione, L. Gurreri, M. Ciofalo, G. Micale, A. Tamburini and A. Cipollina, Electrodialysis for water desalination: A critical assessment of recent developments on process fundamentals, models and applications, Desalination, (2018) Article in press, doi:10.1016/j.desal.2017.12.044. [Back]
  9. X. Yan, M. Delgado, J. Aubry, O. Gribelin, A. Stocco, F. Boisson-Da Cruz, J. Bernard and F. Ganachaud, Central role of bicarbonateanions in charging water/hydrophobic interfaces, Journal of Physical Chemistry Letters, 9 (2018) 96-103. [Back, 2]
  10. B. Cheng and S.-X. Cui, The important roles of water in protein folding: an approach by single molecule force spectroscopy, Chinese Jourmal of Polymer Science, 36 (2018) 379-384. [Back]
  11. F. Li, Z. Li, Y. Wang, S. Wang, X. Wang, C.Sun and Z. Men, A Raman spectroscopy study on the effects of intermolecular hydrogen bonding on water molecules absorbed by borosilicate glass surface, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, (2018) Article in press, doi:10.1016/j.saa.2018.02.037. [Back]
  12. A. A. Khan, Why would sea-level rise for global warming and polar ice-melt? Geoscience Frontiers, (2018), Article in press, doi: 10.1016/j.gsf.2018.01.008. [Back]
  13. B. Meier, K. Kouril, C. Bengs, H. Kourilová, T. J. Barker, S. J. Elliott, S. Alom, R. J. Whitby and M. H. Levittz, Spin-isomer conversion of water at room temperature, and quantum-rotor-induced nuclear polarization, in the water-endofullerene H2O@C60, arXiv:1802.00676v1 [physics.chem-ph] 2 Feb 2018. [Back]
  14. J. Swiergiel and J. Jadzyn, From supramolecular to conventional polymers: polyethylene glycol, Physical Chemistry Chemical Physics, (2018) Article in press, doi: 10.1039/c8cp00346g. [Back]
  15. G. Stirnemann, E. Duboué-Dijon and D. Laage, Ab Initio simulations of water dynamics in aqueous TMAO
    solutions: Temperature and concentration effects, Journal of Physical Chemistry B, (2018) Article in press, doi: 10.1021/acs.jpcb.7b09989. [Back]
  16. V. M. Gun’ko, V. V. Turov, V. M. Bogatyrev, V. I. Zarko, R. Leboda, E. V. Goncharuk, A. A. Novza, A. V. Turov and A. A. Chuiko, Unusual properties of water at hydrophilic/hydrophobic interfaces, Advances in Colloid and Interface Science, 118 (2005) 125-172. [Back, 2]
  17. L. Feng, Y. Zhang, J. Xi, Y. Zhu, N. ̈ Wang, F. Xia and L. Jiang, Petal effect: A superhydrophobic state with high adhesive force, Langmuir, 24 (2008) 4114-4119. [Back]
  18. G. M. Anderson, The calculated fugacity of water to 1000°C and 10,000 bars, Geochimicha Cosmochimica Acta, 28 (1964) 713-715.; A. D. Chistyakov, Fugacity coefficients for water vapor, Russian Journal of Physical Chemistry A, 81 (2007) 651-653; Original Russian, A .D. Chistyakov, Zhurnal Fizicheskoi Khimii, 81 (2007) 754-756. [Back]
  19. U. Kaatze , Water, the special liquid, Journal of Molecular Liquids (2017) Article in press, doi:10.1016/j.molliq.2018.03.038. [Back]
  20. M. I. Ryzhkin, A. V. Klyuev, V. V. Sinitsyn, and I. A. Ryzhkin, Liquid state of a hydrogen bond network in ice1, JETP Letters, 104 (2016) 248-252; Original Russian Text in Pis’ma v Zhurnal Eksperimental’noi i Teoreticheskoi Fiziki, 104 (2016) 248-253. [Back]
  21. I. A. Ryzhkin, M. I. Ryzhkin, V. V. Sinitsyn and A. V. Klyuev, Model of a surface liquidl-like layer of ice, JETP Letters, 106 (2017) 760-764; Original Russian Text in Pis’ma v Zhurnal Eksperimental’noi i Teoreticheskoi Fiziki, 106 (2017) 724-728. [Back]
  22. V .L. Safonov and A. K. Khitrin, Hydrogen nanobubbles in a water solution of dietary supplement, Colloids and Surfaces A: Physicochem. Eng. Aspects, 436 (2013) 333-336. [Back]
  23. A. Fujii, N. Sugawara, P.-J. Hsu, T. Shimamori, Y.-C. Li, T. Hamashima and J.-L. Kuo, Hydrogen bond network structures of protonated short-chain alcohol clusters, Physical Chemistry Chemical Physics, (2018) Article in press, doi: 10.1039/c7cp08072g. [Back]
  24. S. H. Oh, J. G. Han, J.-M. Kim, Long-term stability of hydrogen nanobubble fuel, Fuel, 158 (2015) 399-404. [Back]
  25. M. Chen, L. Zheng, B. Santra, H.-Y. Ko, R. A. DiStasio, M. L. Klein, R. Car and X. Wu, Hydroxide diffuses slower than hydronium in water because its solvated structure inhibits correlated proton transfer, Nature Chemistry, 10 (2018) 413-419; J. Chen and A. Michaelides, Sticky when wet Nature Chemistry, 10 (2018) 376-377.J. Urquhart, Simulations solve ionic mystery of water, Chemistry World , 15 (2018) 40. [Back]  [Back to Top to top of page]
  26. T. Tuziuti, K. Yasui and W. Kanematsu, Influence of addition of degassed water on bulk nanobubbles, Ultrasonics - Sonochemistry, 43 (2018) 272–274. [Back]
  27. F. Martelli, S. Torquato, N. Giovambattista and R. Car, Large-scale structure and hyperuniformity of amorphous ices, Physical Review Letters, 119 (2017) 136002; D. Bradley, Glass inequality, Materials Today, 21 (2018) 4. [Back]
  28. G. J. T. Tiddy, The properties of water in concentrated surfactant and colloid systems, Journal of the Taiwan Institute of Chemical Engineers, (2018) 1-9. [Back]
  29. E. Chibowski and A. Szcześ, Magnetic water treatment – a review of the latest approaches, Chemosphere, 203 (2018) 54-67. [Back]
  30. A. Serva, S. Pezzotti, S. Bougueroua, D. R. Galimberti and M.-P. Gaigeot, Combining ab-initio and classical molecular dynamics simulations to unravel the structure of the 2D-HB-network at the air-water interface, Journal of Molecular Structure (2018) Article in press,, doi: 10.1016/j.molstruc.2018.03.074. [Back]
  31. A. F. Ismail and T. Matsuura, Progress in transport theory and characterization method of Reverse Osmosis (RO) membrane in past fifty years, Desalination, 434 (2018) 2-11. [Back]
  32. S. A. Fischer, B. I. Dunlap and D. Gunlycke, Correlated dynamics in aqueous proton diffusion; arXiv:1803.04735v1 [physics.chem-ph] 13 Mar 2018. [Back]
  33. H. Huang, M. L. Yarmush and O. B. Usta, Long-term deep supercooling of large-volume water via surface sealing with immiscible liquids, arXiv:1803.08914v1 [physics.app-ph] 2018. [Back]
  34. M. Raju, A. van Duin and M. Ihme, Phase transitions of ordered ice in graphene nanocapillaries and carbon nanotubes, Scientific Reports, 8 (2018) 3851. [Back]
  35. J. Wawer and J. Krakowiak, Structural changes of water caused by non-electrolytes: Volumetric and compressibility approach for urea-like analogues, Journal of Molecular Liquids, 259 (2018) 112-123. [Back]
  36. S. Ajito, M, Hirai, H, Iwase, N, Shimizu, N, Igarashi and N, Ohta, Protective action of trehalose and glucose on protein hydration shell clarified by using X-ray and neutron scattering, Physica B: Condensed Matter (2017) Article in press, doi: 10.1016/j.physb.2018.03.040. [Back]
  37. A. K. A. Ahmed, C. Sun, L. Hua, Z. Zhang, Y. Zhang, W. Zhang and T. Marhaba, Generation of nanobubbles by ceramic membrane filters: The dependence of bubble size and zeta potential on surface coating, pore size and injected gas pressure, Chemosphere, (2018) Article in press, doi: 10.1016/j.chemosphere.2018.03.157. [Back]
  38. R. Shi and H. Tanaka, Microscopic structural descriptor of liquid water, The Journal of Chemical Physics, 148 (2018) 124503.. [Back]
  39. P. H. Handle and T. Loerting, Experimental study of the polyamorphism of water. I. The isobaric transitions from amorphous ices to LDA at 4 MPa, The Journal of Chemical Physics, 148 (2018) 124508. [Back]
  40. P. H. Handle and T. Loerting, Experimental study of the polyamorphism of water. II. The isobaric transitions
    between HDA and VHDA at intermediate and high pressures, The Journal of Chemical Physics, 148 (2018) 124509. [Back]
  41. X. Zhang, R. Kumar and D. G. Kuroda, Acetate ion and its interesting solvation shell structure and dynamics, The Journal of Chemical Physics, 148 (2018) 094506. [Back]
  42. N. F. Bunkin, V. A. Kozlov, A. V. Shkirin, B. W. Ninham, A. A. Balashov and S. V. Gudkov, Dynamics of Nafion membrane swelling in H2O/D2O mixtures as studied using FTIR technique, The Journal of Chemical Physics, 148 (2018) 124901. [Back]
  43. G. Gebel, P. Aldebertt and M. Pineri, Swelling study of perfluorosulphonated ionomer membranes, Polymer, 34 (1993) 333-339. [Back]
  44. A. Srivastava and A. Debnatha, Hydration dynamics of a lipid membrane: Hydrogen bond networks
    and lipid-lipid associations, The Journal of Chemical Physics, 148 (2018) 094901. [Back]
  45. N. R. Samala and N. Agmon, The protonated water trimer and its giant Fermi resonances, Chemical Physics, (2018) Article in press, doi: 10.1016/j.chemphys.2018.04.003. [Back, 2]
  46. L. M. Klevay, Some bottled water may be salubrious, Journal of Trace Elements in Medicine and Biology, (2018) Article in press, doi: 10.1016/j.jtemb.2018.04.003. [Back]
  47. P. H. Poole, F. Sciortino, U. Essmann and H. E. Stanley, Phase behavior of metastable water, Nature, 360, 324-328 (1992); C. W. Sorensen, Still waters run still deeper, Nature, 360 (1992) 303-304. [Back]
  48. C. Lina, J. S. Smitha, S. V. Sinogeikina and G. Shena, Experimental evidence of low-density liquid water upon rapid decompression, Proceedings of the National Academy of Sciences, 115 (2018) 2010-2015. [Back]
  49. R. Shi and H. Tanaka, Impact of local symmetry breaking on the physical properties of tetrahedral liquids, Proceedings of the National Academy of Sciences, (2018) Article in press, doi: 10.1073/pnas.1717233115. [Back]
  50. F. Yang, R.-Z. Wu, C.-X. Yan, X. Yang, D.-G. Zhou and P.-P. Zhou, Quantitative relationships between bond lengths, stretching vibrational frequencies, bond force constants, and bond orders in the hydrogen-bonded complexes involving hydrogen halides, Structural Chemistry, 29 (2018) 513-521; M. Simoncic and T. Urbic, Hydrogen bonding between hydrides of the upper-right part of the periodic table, Chemical Physics,. (2018) Article in press, doi: 10.1016/j.chemphys.2018.03.036. [Back]  [Back to Top to top of page]
  51. O. Tschauner, S. Huang, E. Greenberg, V. B. Prakapenka, C. Ma, G. R. Rossman, A. H. Shen, D. Zhang, M. Newville, A. Lanzirotti and K. Tait, Ice-VII inclusions in diamonds: Evidence for aqueous fluid in Earth’s deep mantle, Science, 359 (2018) 1136-1139. [Back, 2]
  52. K. Komatsu, F. Noritake, S. Machida, A. Sano-Furukawa, T. Hattori, R. Yamane and H. Kagi, Partially ordered state of ice XV, Scientific Reports, 6 (2016) 28920; K. Komatsu, R. Yamane, F. Noritake and S. Machida, Studies on partially ordered state of ice XV, Nihon Kessho Gakkaishi, 59 (2017) 293-300, doi: 10.5940/jcrsj.59.293. [Back]
  53. J. N. Stern and T. Loerting , On the crystallisation temperature of very high-density amorphous ice, Physical Chemistry Chemical Physics, 20 (2018) 12589. [Back]
  54. B. H. Samset, How cleaner air changes the climate, Science, 360 (2018) 148-150. [Back]
  55. S. M. Saba, M. Müller, M. Robinius and D. Stolten, The investment costs of electrolysis - A comparison of cost studies from the past 30 years, International Journal of Hydrogen Energy, 4 (2018) 1209-1223. [Back]
  56. J. Russo, K. Akahane and H. Tanaka, Water-like anomalies as a function of tetrahedrality, Proceedings of the National Academy of Sciences, 115 (2018). E3333-E3341. [Back]
  57. Y. Xiong and F. Peng, Optimization of cavitation venturi tube design for pico and nano bubbles generation, International Journal of Mining Science and Technology, 25 (2015) 523-529; F. F. Peng and X. Yu, Pico–nano bubble column flotation using static mixer-venturi tube for Pittsburgh No. 8 coal seam, International Journal of Mining Science and Technology, 25 (2015) 347-354. [Back]
  58. H. J. Schenk, K. Steppe and S. Jansen, Nanobubbles: a new paradigm for air-seeding in xylem, Trends in Plant Science, 20 (2015) 199-205; H. Gouin, The watering of tall trees – Embolization and recovery, Journal of Theoretical Biology, 369 (2015) 42-50. [Back]
  59. Y. Sun, G. Xie, Y. Peng, W. Xia and J. Sha, Stability theories of nanobubbles at solid–liquid interface: A review, Colloids and Surfaces A: Physicochemical Engineering Aspects, 495 (2016) 176-186. [Back]
  60. J. J. Shephard, B. Slater, P. Harvey, M. Hart, C. L. Bull, S. T. Bramwell and C. G. Salzmann, Doping-induced disappearance of ice II from water’s phase diagram, Nature Physics Letters, (2018) Article in press, doi: 10.1038/s41567-018-0094-z. [Back]
  61. A. De Ninno, Dynamics of formation of the Exclusion Zone near hydrophilic surfaces, Chemical Physics Letters, 667 (2017) 322-326. [Back]
  62. M. Alexander, Forum on osmosis. III. Comments on Hammel and Scholander’s solvent tension theory and its application to the phenomenon of osmotic flow. American Journal of Physioolgy, 237 (1979) R110-R113. [Back]
  63. J. Benedikt, M. M. Hefny, A. Shaw, B. R. Buckley, F. Iza, S. Schäkermann and J. E. Bandow, The fate of plasma-generated oxygen atoms in aqueous solutions: non-equilibrium atmospheric pressure plasmas as an efficient source of atomic O(aq), Physical Chemistry Chemical Physics, (2018) Article in press, doi: 10.1039/c8cp00197a. [Back]
  64. X. Yang, D. Baczyzmalski, C. Cierpka, G. Mutschke and K. Eckert, Marangoni convection at electrogenerated
    hydrogen bubbles, Physical Chemistry Chemical Physics, (2018) Article in press, doi: 10.1039/c8cp01050a. [Back]
  65. T. Samanta, R. Dutta, R. Biswas and B. Bagchi, Infrared spectroscopic study of super-critical water across the Widom line, Chemical Physics Letters, (2018) Article in press, doi: 10.1016/j.cplett.2018.05.005. [Back]
  66. A. Vasylieva, I. Doroshenko, Ye. Vaskivskyi, Ye. Chernolevska and V. Pogorelov, FTIR study of condensed water structure, Journal of Molecular Structure, (2018) Article in press, doi: 10.1016/j.molstruc.2018.05.002. [Back]
  67. Y. Wang, H. Wei and Z. Li, Effect of magnetic field on the physical properties of water, Results in Physics, 8 (2018) 262-267. [Back]
  68. H. Yoon and B. J. Yoon, Observation of the thermal influenced quantum behaviour of water near a solid interface, Scientific Reports, 8 (2018) 7016. [Back]
  69. X. Lian, K. Cheng, D. Wang, W. Zhu and X. Wang, Analysis of crystals of retrograded starch with sharp X-ray diffraction peaks made by recrystallization of amylose and amylopectin, International Journal of Food Properties, 20 (2017) S3224–S3236. [Back]
  70. A. Kilaj, H. Gao, D. Rösch, U. Rivero, J. Küpper and S. Willitsch, Observation of different reactivities of para- and ortho-water towards cold diazenylium ions, arXiv:1804.05925v1 [physics.chem-ph] 16 Apr 2018. [Back]
  71. Q. Sun, The structural origin of hydration repulsive force, arXiv:1803.08241 [physics.chem-ph] 22 Mar 2018. [Back]
  72. S. R. German, M. A. Edwards, Q. Chen and H. S. White, Laplace pressure of individual H2 nanobubbles from pressure-addition electrochemistry, Nano Letters, 16 ( 2016) 6691-6694. [Back]
  73. T. A. Burgo, C. A. Rezende, S. Bertazzo, A. Galembeck and F. Galembeck, Electric potential decay on polyethylene: Role of atmospheric water on electric charge build-up and dissipation, Journal of Electrostatics, 69 (2011) 401-409. [Back]
  74. C. Gainaru, E. Vynokur, K. W. Köster, V. Fuentes-Landete, N. Spettel, J. Zollner, T. Loerting and R. Böhmer, Dynamic signatures of the transition from stacking disordered to hexagonal ice: Dielectric and nuclear magnetic
    resonance studies, The Journal of Chemical Physics, 148 (2018) 134502. [Back]
  75. J. G. Reynolds, B. M. Mauss and R. C. Daniel, The relative viscosity of NaNO3 and NaNO2 aqueous solutions, Journal of Molecular Liquids, (2017) Article in press, doi:10.1016/j.molliq.2018.05.036. [Back]  [Back to Top to top of page]
  76. K. H. Thebo, X. Qian, Q. Zhang, L. Chen, H.-M. Cheng and W. Ren, Highly stable graphene-oxide-based membranes with superior permeability, Nature Communications, 9 (2018) 1486. [Back]
  77. D. J. Johnson, W. A. Suwaileh, A. W. Mohammed and N. Hilal, Osmotic's potential: An overview of draw solutes for forward osmosis, Desalination, 434 (2018) 100-120. [Back, 2, 3]
  78. A. D. Fortes, Accurate and precise lattice parameters of H2O and D2O ice Ih between 1.6 and 270 K from high resolution time-of-flight neutron powder diffraction data, Acta Crystallographica B, 74 (2018) 196-216. [Back]
  79. Y. Kudriavtsev, M.Avendano, G. Ramirez, R. Asomoza-Palacio and L. Manzanilla-Naim, Water vapor interaction with borosilicate glass, Solid State Ionics, 321 (2018) 122-125. [Back]
  80. P. C. Myint and J. L Belof, Rapid freezing of water under dynamic compression, Journal of Physics: Condensed Matter, 30 (2018) 233002. [Back]
  81. A. Vasylieva, I. Doroshenko, Ye. Vaskivskyi, Ye. Chernolevska and V. Pogorelov, FTIR study of condensed water structure, Journal of Molecular Structure, 1167 (2018) 232-238. [Back]
  82. (a) National Health and Medical Research Council. 2015. NHMRC Information Paper: Evidence on the effectiveness of homeopathy for treating health conditions. Canberra: National Health and Medical Research Council; 2015; (b) .B. Poitevin, Australian government report on the clinical effectiveness of homeopathy: Analysis and proposals, La Revue d'Homéopathie, 9 (2018) e4–e15; (c) R. Roberts, A. Tournier and A.Gray, Response by the Homeopathy Research Institute to Australian NHMRC report (2013). [Back]
  83. S. G. Hwang, J. K. Hong, A.Sharma, G. H. Pollack and G. W. Bahng, Exclusion zone and heterogeneous water structure at ambient temperature, PLoS ONE, 13 (2018) e019505. [Back]
  84. A. De Ninno and M. De Francesco, Water molecules ordering in strong electrolytes solutions, Chemical Physics Letters, 705 (2018) 7-11. [Back, 2, 3]
  85. I. S. Klyuzhin, F. Ienna, B. Roeder, A. Wexler and G. H. Pollack, Persisting water droplets on water surfaces, Journal of Physical Chemistry B, 114 (2010) 14020–14027. [Back]
  86. N. Ebrahimi, B. Farahbod and R. Sadeghi, Salting-in and salting-out effects of organic and inorganic ammonium salts on the aqueous polymer solutions, Journal of Chemical Thermodynamics, 123 (2018) 86-98. [Back]
  87. E. M. Lobanov, Shape and volume of liquid meniscus at the surface of a specimen, Journal of Engineering Physics and Thermophysics, 86 (2013) 634-644; translated from Inzhenerno-Fizicheskii Zhurnal, 86 (2013) 595-604. [Back]
  88. F. Helfer, C. Lemckert and Y. G.Anissimov, Osmotic power with Pressure Retarded Osmosis: Theory, performance and trends – A review, Journal of Membrane Science, 453 (2014) 337-358. [Back]
  89. E. Riveros-Perez and R. Riveros, Water in the human body: An anesthesiologist's perspective on the connection between physicochemical properties of water and physiologic relevance, Annals of Medicine and Surgery, 26 (2018) 1-8. [Back]
  90. M. Kukizaki and M. Goto, Size control of nanobubbles generated from Shirasu-porous-glass (SPG) membranes, Journal of Membrane Science, 281 (2006) 386-396. [Back]
  91. N. Bidin, S. R. Azni, M. A. A. Bakar, A. R. Johari, D. H. F. A. Munap, M. F. Salebi, S. N. A.. Razak, N. S. Sahidan and S. N. A. Sulaiman, The effect of sunlight in hydrogen production from water electrolysis, International Journal of hydrogen energy, 42 (2017) 133-142. [Back]
  92. N. Agmon, Infrared spectroscopy: The acid test for water structure, Nature Chemistry, 8 (2016) 206-207. [Back]
  93. D. Vigoureux and J-M. Vigoureux, How can freezing water burst pipes and containers? European Journal of Physics, 39 (2018) 045808. [Back]
  94. A. Singraber, T. Morawietz, J. Behler and C. Dellago, Density anomaly of water at negative pressures from first principles, Journal of Physics: Condensed Matter, 30 (2018) 254005. [Back]
  95. F.Merino, S. Pospich, J. Funk, T. Wagner, F. Küllmer, H.-D. Arndt, P. Bieling and S. Raunser, Structural transitions of F-actin upon ATP hydrolysis at near-atomic resolution revealed by cryo-EM, Nature Structural & Molecular Biology, 25 (2018) 528537. [Back]
  96. R. S. Singh, J. W. Biddle, P. G. Debenedetti and M. A. Anisimov, Two-state thermodynamics and the possibility of a liquid-liquid phase transition in supercooled TIP4P/2005 water,The Journal of Chemical Physics, 144 (2016) 144504; J. W. Biddle, R. S. Singh, E. M. Sparano, F. Ricci, M. A. González, C. Valeriani, J. L. F. Abascal, P. G. Debenedetti, M. A. Anisimov and F. Caupin, Two-structure thermodynamics for the TIP4P/2005 model of water covering supercooled and deeply stretched regions, The Journal of Chemical Physics, 146 (2017) 034502. [Back]
  97. J. Swiergiel and J. Jadzyn, From supramolecular to conventional polymers: polyethylene glycol, Physical Chemistry Chemical Physics, 20 (2018) 6045-6049. [Back]
  98. C. Goy, M. A. C. Potenza, S. Dedera, M. Tomut, E. Guillerm, A. Kalinin, K.-O. Voss, A. Schottelius, N. Petridis, A. Prosvetov, G. Tejeda, J. M. Fernández, C. Trautmann, F. Caupin, U. Glasmacher and R. E. Grisenti, Shrinking of rapidly evaporating water microdroplets reveals their extreme supercooling, Physical Review Letters, 120 (2018) 015501. [Back]
  99. F. Mouhat, S. Sorella, R. Vuilleumier, A. M. Saitta and M. Casula, Fully quantum description of the Zundel ion: combining variational quantum Monte Carlo with path integral Langevin dynamics, Journal of Chemical Theory and Computation, 13 (2017) 2400-2417. [Back]
  100. S. Klotz, K. Komatsu, H. Kagi, K. Kunc, A. Sano-Furukawa, S. Machida and T. Hattori, Bulk moduli and equations of state of ice VII and ice VIII, Physical Review B 95 (2017) 174111. [Back, 2]  [Back to Top to top of page]

 


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

 

This page was established in 2018 and last updated by Martin Chaplin on 18 August, 2018


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