J.
Bai, J. Wang and X. C. Zeng, Multiwalled ice helixes and ice nanotubes, Proceedings of the National Academy of Sciences, 103 (2006) 19664-19667. [Back]
K. Koga, G. T. Gao, H. Tanaka and X. C. Zeng, How does water freeze inside carbon nanotubes? Physica A314 (2002) 462-469. [Back]
I. Langmuir, The adsorption of gases on plane surfaces of glass mica and platinum, Journal of the American Chemical Society, 40 (1918) 1361-1403. [Back]
T. Richard, L. Mercury, F. Poulet and L. d’Hendecourt, Diffuse reflectance infrared Fourier transform spectroscopy as a tool to characterise water in adsorption/confinement situations, J. Colloid and Interface Science, 304 (2006) 125-136. [Back]
A. Fouzri, R. Dorbez-Sridi, M. Oumezzine and A. Missaoui, Water confined in silica gel at room temperature X-ray diffraction study. International Journal of Inorg. Mat. 3 (2001) 1315-1317. [Back]
A. Fouzri, R. Dorbez-Sridi, A. Missaoui and M. Oumezzine, Water–silica gel interactions X-ray diffraction study at room and low temperature, Biomol. Eng. 19 (2002) 207-210. [Back]
N. Floquet, J. P. Coulomb, N. Dufau, G. Andre and R. Kahn, (2005) Confined water in mesoporous MCM-41 and nanoporous AlPO4-5: structure and dynamics, Adsorption11 (2007) 139-144. [Back]
S. Takahara, S. Kittak, T. Mori, Y. Kuroda,T. Yamaguchi and M.-C. Bellissent-Funel, Neutron scattering study on dynamics of water molecules confined in MCM-41, Adsorption11 (2005) 479-483. [Back]
N. Floquet, J. P. Coulomb, N. Dufau, G. Andre and R. Kahn, Structural and dynamic properties of confined water in nanometric model porous materials (8 Å ≤ 0≤ 40 Å), Physica B 350 (2004) 265-269. [Back]
H. K. Christenson, Confinement effects on freezing and melting, Journal of Phys Condens. Matter13 (2001) R95-R133. [Back]
B. I. Venzel, E. A. Egorov, V. V. Zhizhenkov and V. D. Kleiner, Determination of the melting point of ice in porous glass in relation to the size of the pores, J. Engineer. Phys. Thermophys.48 (1985) 346-350. [Back]
R. Zangi, Water confined to a slab geometry: a review of recent computer simulation studies, Journal of Phys Condens. Matter16 (2004) S5371-S5388. [Back]
N. V. Churaev, M. J. Setzer, O. A. Kiseleva and V. D. Sobolev, On the thermodynamic equilibrium between ice and electrolyte solutions in the conditions of confined geometry, Colloids Surfaces A: Physicochem. Eng. Aspects300 (2007) 327-334. [Back]
P. Ball, Water - an enduring mystery, Nature, 452 (2008) 291-292. [Back]
N. E. Dorsey, The freezing of supercooled water, Trans American Phil. Soc.38 (1948) 247-328. [Back]
F. C. Brown, The frequent bursting of hot water pipes in household plumbing systems, Physical Review, 8 (1916) 500-503. [Back]
S. B. Ozkan, G. A. Wu, J. D. Chodera and K. A. Dill, Protein folding by zipping and assembly, Proceedings of the National Academy of Sciences, 104 (2007) 11987-11992. [Back]
D. L. Mobley, A. E. Barber, C. J. Fennell and K. A. Dill, Charge asymmetries in hydration of polar solutes, Journal of Physical Chemistry B 112 (2008) 2405-2414; J. S. Jaworski, Why oppositely charged ions of equal radii have different heats
of hydration? ChemTexts3 (2017) 6. [Back]
C. J. Pickard and R. J. Needs, When is H2O not water? Journal of Chemical Physics,127 (2007) 244503. [Back]
Z. Liu, K. Muldrew, R. G. Wan and J. A. Elliott, Measurement of freezing point depression of water in glass capillaries and the associated ice front shape. Physical Review, E67 (2003) 061602. [Back]
R. V. Jasra and I. C. Ahluwalia, Enthalpies of solution, partial molal heat capacities and apparent molal volumes of sugars and polyols in water, J. Solution Chemistry, 11 (1982) 325-338. [Back]
S. E. Pagnotta, M. A. Ricci, F. Bruni, S. McLain and S. Magazú, Water structure around trehalose, Chemical Physics, 345 (2008) 159-163. [Back]
A. I. Fisenko and N. P. Malomuzh, The role of the H-bond network in the creation of the life-giving properties of water, Chemical Physics, 345 (2008) 164-172. [Back]
D. Russo, The impact of kosmotropes and chaotropes on bulk and hydration shell water dynamics in a model peptide solution, Chemical Physics, 345 (2008) 200-211. [Back]
M. A. Kiselev, E. V. Zemlyanaya, N. Y. Ryabova, T. Hauss, S. Dante and D. Lombardo, Water distribution function across the curved lipid bilayer: SANS study. Chemical Physics, 345 (2008) 185-190. [Back] [Back to Top ]
M. Sakurai, T. Furuki, K. Akao, D. Tanaka, Y. Nakahara, T. Kikawada, M. Watanabe and T. Okuda, Vitrification is essential for anhydrobiosis in an African chironomid, Polypedilum vanderplanki, Proceedings of the National Academy of Sciences, 105 (2008) 5093-5098. [Back]
M. Heyden, E. Bründermann, U. Heugen, G. Niehues, D. M. Leitner and M. Havenith, Influence of carbohydrates on the solvation dynamics of water answers terahertz absorption measurements and molecular modeling simulations, Journal of the American Chemical Society, 130 (2008) 5773-5779 [Back, 2]
M. Somayazulu, J. Shu, C. Zha, A. F. Goncharov, O. Tschauner, H. Mao and R. J. Hemley, In situ high-pressure x-ray diffraction study of H2O ice VII, Journal of Chemical Physics,128 (2008) 064510; M. Somayazulu, J. Shu, C. Zha, A. F. Goncharov, O. Tschauner, H. Mao and R. J. Hemley, Erratum: “In situ high-pressure x-ray diffraction study of H2O ice VII” [Journal of Chemical Physics,128, 064510 (2008)], Journal of Chemical Physics,128 (2008) 149903. [Back, 2]
S. Gao, W. G. Chapman and W. House, NMR and viscosity investigation of clathrate hydrate formation
and dissociation, Industrial & Engineering Chemistry Research, 44 (2005) 7373-7379. [Back]
S. M. Pershin, Coincidence of rotational energy of H2O ortho-para molecules and translation energy near specific temperatures in water and ice, Phys. Wave Phenomena16 (2008) 15-25. [Back]
K.-T. Chang and C.-I. Weng, An investigation into the structure of aqueous NaCl electrolyte solutions under
magnetic fields, Comput. Mat. Science 43 (2008) 1048-1055. [Back]
A. D. Hammerich and V. J. Buch, An alternative nearneighbor definition of hydrogen bonding in water, Chem Phys.128 (2008) 111101. [Back]
F. Jin, X. J. Gong, J. Yea and T. Ngai, Direct measurement of the nanobubble-induced weak depletion attraction
between a spherical particle and a flat surface in an aqueous solution, Soft Matter4 (2008) 968-971. [Back, 2, 3]
W. H. Goldmann, Actin: a molecular wire, an electrical cable? Cell Biology International, 32 (2008) 869-870. [Back]
F. Jin, X. Ye and C. Wu, Observation of kinetic and structural scalings during slow coalescence of nanobubbles in an aqueous solution, Journal of Physical Chemistry B.111 (2007) 13143-13146. [Back]
M. Otani, I. Hamada, O. Sugino, Y. Morikawa, Y. Okamoto and T. Ikeshoji, Electrode dynamics from first principles, Journal of Phys. Soc. Japan77 (2008) 024802. [Back]
T. Arikawa, M. Nagai and K. Tanaka, Characterizing hydration state in solution using terahertz time-domain attenuated total reflection spectroscopy, Chemical Physics Letters, 457 (2008) 12-17. [Back]
A. De Simone, L. Vitagliano and R. Berisio, Role of hydration in collagen triple helix stabilization, Biochem. Biophys. Research Commun.372 (2008) 121-125. [Back]
C. Krekeler and L. Delle Site, Lone pair versus bonding pair electrons: The mechanism of electronic polarization of water in the presence of positive ions, Journal of Chemical Physics,128 (2008) 134515. [Back]
C. D. Cappa, J. D. Smith, K. R. Wilson and R. J. Saykally, Revisiting the total ion yield x-ray absorption spectra of liquid water microjets, Journal of Physics: Condensed Matter, 20 (2008) 205105. [Back]
M. V. Kirov, G. S. Fanourgakis, S. S. Xantheas, Identifying the most stable networks in polyhedral water clusters, Chemical Physics Letters, 461 (2008) 180-188. [Back]
G. D. Bontchev, G. A. Bojikov, P. I. Ivanov, M. Milanov, An effect of abnormal ion electromigration rate in aqueous solutions at pH between 2.5 and 4.5, Scripta Scientifica Medica37 (2005) 83-86. [Back]
B. Nguyen, D. Hamelberg, C. Bailly, P. Colson, J. Stanek, R. Brun, S. Neidle and W. D. Wilson, Characterization of a novel DNA minor-groove complex, Biophysical J. 86 (2004) 1028-1041. [Back]
Q. S. Xu, R. B. Kucera, R. J. Roberts and H-C. Guo, An asymmetric complex of restriction endonuclease MspI on its palindromic DNA recognition site. Structure12 (2004) 1741-1747. [Back]
S. H. Sleigh, P. R. Seavers, A. J. Wilkinson, L. E. Ladbury and J. R. H. Tame, Crystallographic and calorimetric analysis of peptide binding to OppA protein. Journal of Molecular Biology,291 (1999) 393-415. [Back]
D. Negoianu and S. Goldfarb, Just add water, J. American Soc. Nephrol.19 (2008) 1-3. [Back]
O. Andersson, Dielectric relaxation of the amorphous ices, Journal of Physics: Condensed Matter,20 (2008) 244115. [Back]
U. Henriksson and J. C. Eriksson, Thermodynamics of capillary rise: Why is the meniscus curved? Journal of Chemical Education, 81 (2004) 150-154; 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. [Back]
F. Caupin, M. W. Cole, S. Balibar and J. Treiner, Absolute limit for the capillary rise of a fluid, Europhysics Letters, 82 (2008) 56004. [Back]
P. A. Pieniazek, J. VandeVondele, P. Jungwirth, A. I. Krylov and S. E. Bradforth, Electronic structure of the water dimer cation, Journal of Physical Chemistry A112 (2008) 6159-6170. [Back] [Back to Top ]
D. A. Turton, J. Hunger, G. Hefter, R. Buchner and K. Wynne, Glasslike behavior in aqueous electrolyte solutions, Journal of Chemical Physics, 128 (2008) 161102. [Back]
A. A. Aleksandrov and D. K. Larkin, Speed of sound, isochoric heat capacity, and coefficient of isothermal compression of heavy water at atmospheric pressure, J. Eng. Phys. Thermophys.34 (1978) 73-75. [Back]
S. J. King and S. D. Price, Electron ionization of H2O, International Journal of Mass Spec.277 (2008) 84-90. [Back]
T.Yoshida, Y. Yasuda, T. Mirnura, Y. Kaneko, H. Nakashima, N. Yamamoto and T. Uryu, Synthesis of curdlan sulfates having inhibitory effects in vitro against AIDS viruses HIV-1 and HIV-2, Carbohydate Research, 276 (1995) 425-436. [Back]
G. R. Somayajulu, New equations for enthalpy of vaporization from the triple point to the critical point, International Journal of Thermophys. 9 (1988) 567-575. [Back]
D. Mohnen, Pectin structure and biosynthesis, Curr. Opin. Plant Biol.11 (2008) 266-277. [Back]
G. J. Guo, Y. G. Zhang, M. Li and C. H. Wu, Can the dodecahedral water cluster naturally form in methane aqueous solutions? A molecular dynamics study on the hydrate nucleation mechanisms, Journal of Chemical Physics,128 (2008) 194504. [Back]
E. Arunan, Hydrogen bonding and other molecular interactions, Curr. Science 92 (2007) 18. [Back]
A. D. Buckingham, J. E. Del Bene and S. A. C. McDowell, The hydrogen bond, Chemical Physics Letters, 463 (2008) 1-10. [Back, 2]
W. S. York and M. A. O’Neill, Biochemical control of xylan biosynthesis — which end is up? Curr. Opin. Plant Biol.11 (2008) 258-265. [Back]
M. Mutwil, S. Debolt and S. Persson, Cellulose synthesis: a complex complex, Curr. Opin. Plant Biol.11 (2008) 252-257. [Back]
A. Kis, S. Kasas, A. J. Kulik, S. Catsicas and L. Forró, Temperature-dependent elasticity of eicrotubules, Langmuir, 24 (2008) 6176-6181. [Back]
B. H. Ali, A. Ziada and G. Blunden, Biological effects of gum arabic: A review of some recent research, Food Chemical Toxicol. 47 (2009) 1-8. [Back]
(a) M. Sovago, R. K. Campen, G. W. H. Wurpel, M. Müller, H. J. Bakker and M. Bonn, Vibrational response of hydrogen-bonded interfacial water is dominated by intramolecular coupling, Physical Review Letters 100 (2008) 173901; (b) C. S. Tian and Y. R. Shen, Comment on “Vibrational response of hydrogen-bonded interfacial water is dominated by intramolecular coupling”, Physical Review Letters101 (2008) 139401; (c) M. Sovago, R. K. Campen, G. W. H. Wurpel, M. Müller, H. J. Bakker and M. Bonn, Sovago et al. Reply: Physical Review Letters101 (2008) 139402. [Back]
N. V. Nucci and J. M. Vanderkooi, Effects of salts of the Hofmeister series on the hydrogen bond network of water, Journal of Molecular Liquids, 143 (2008) 160-170. [Back]
K. Kiyosawa, Freezing point of mixtures of H216O with H217O and those of aqueous CD3CH2OH and CH313CH2OH solutions, J. Solution Chemistry, 33 (2004) 323-328. [Back]
Y. Fujimura and I. Masaaki, The surface tension of water under high magnetic fields, J. App. Phys.103 (2008) 124903; I. Masaaki and Y. Fujimura, Surface tension of heavy water under high magnetic fields, Applied Physics Letters, 94 (2009) 261902. [Back]
W. R. Gorman, J. D. Brownridge, Reduced heat flow in light water (H2O) due to heavy, Applied Physics Letters, 93 (2008) 034101; A. De Ninno, and A. C. Castellano, Effect of coordination of molecules on the properties of water as solvent, Key Engineering Materials495 (2012) 347-350. [Back]
V. Vlachy, Polyelectrolyte hydration: Theory and experiment, Pure and Applied Chemistry, 80 (2008) 1253-1266. [Back]
M. Brooks, The power of the placebo effect, New Scientist2670 (2008). [Back]
H. Kumano, T. Asaoka, A. Saito, S. Okawa. Formulation of the latent heat of fusion of ice in aqueous solution, International Journal of Refrigeration 32 (2009) 175-182. [Back] [Back to Top ]
H. Yokoyama, M. Kannami and H. Kanno, Existence of clathrate-like structures in supercooled water: X-ray diffraction evidence, Chemical Physics Letters, 463 (2008) 99-102. [Back, 2, 3]
C. Vega, J. L. F. Abascal, M. M. Conde and J. L. Aragones, What ice can teach us about water interactions:
a critical comparison of the performance of different water models, Faraday Discussions,141 (2009) 251-276; arXiv:0901.1803v1 [cond-mat.mtrl-sci]. [Back]
E. Bertoft, K. Piyachomkwan, P. Chatakanonda and K. Sriroth, Internal unit chain composition in amylopectins, Carbohydrate Polymers74 (2008) 527–543. [Back]
L. Smeller, Pressure-temperature phase diagrams of biomolecules, Biochimica et Biophysica Acta, 1595 (2002) 11-29; W. Doster, Comment on “Protein phase diagrams: The physics behind their elliptic shape” [Journal of Chemical Physics,121 (2004) 12671], Journal of Chemical Physics,130 (2009) 087101; V. Bianco et al., How the stability of a folded protein depends on interfacial water properties and residue-residue interactions, Journal of Molecular Liquids, 245 (2017) 129-139. [Back]
F. Meersman, E. Nies and K Heremans, On the thermal expansion of water and the phase behavior of macromolecules in aqueous solution, Z. Naturforsch.63b (2008) 785-790. [Back, 2, 3]
R. Greef and J. G. Frey, The water-like film on water, Physica Status Solidi5 (2008) 1184-1186, 4th International Conference on Spectroscopic Ellipsometry (ICSE4). [Back, 2]
(a) J. L. England, D. Lucent and V. S. Pande, A role for confined water in chaperonin function, J. Am Chem. Soc.130 (2008) 11838-11839; (b) I. A. Kovacs, M. S. Szalay and P. Csermely, Water and molecular chaperones act as
weak links of protein folding networks: Energy landscape and punctuated equilibrium changes point towards a game theory of proteins, FEBS Letters,579 (2005) 2254-2260.. [Back]
K. Kashimoto, J. Yoon, B. Hou, C. Chen, B. Lin, M. Aratono, T. Takiu and M. L. Schlossman, Structure and depletion at fluorocarbon and hydrocarbon/water liquid/liquid interfaces, Physical Review Letters101 (2008) 076102. [Back]
A. K. Soper and C. J. Benmore, Quantum differences between heavy and light water, Physical Review Letters101 (2008) 065502. [Back, 2, 3]
H. Nagase, N. Ogawa, T. Endo, M. Shiro, H. Ueda and M. Sakurai, Crystal structure of an anhydrous form of trehalose: Structure of water channels of trehalose polymorphism, Journal of Physical Chemistry B 112 (2008) 9105-9111; A. Cesàro, O. De Giacomo and F. Sussich, Water interplay in trehalose polymorphism, Food Chemistry, 106 (2008) 1318-1328. [Back]
A. Poynor, L. Hong, I. K. Robinson, S. Granick, Z. Zhang and P. A. Fenter, How water meets a hydrophobic surface, Physical Review Letters97 (2006) 266101; B. M. Ocko, A. Dhinojwala and J. Daillant, Comment on ‘‘How water meets a hydrophobic surface’’ Physical Review Letters, 101 (2008) 039601; A. Poynor, L. Hong, I. K. Robinson, S. Granick, P. A. Fenter and Z. Zhang, Reply, Physical Review Letters, 101 (2008) 039602. [Back]
O. Markovitch, H. Chen, S. Izvekov, F. Paesani, G. A. Voth and N. Agmon, Special pair dance and partner selection: elementary steps in proton transport in liquid water, Journal of Physical Chemistry B112 (2008) 9456-9466. [Back]
A. Pietropaolo, R. Senesi, C. Andreani, A. Botti, M. A. Ricci and F. Bruni, Excess of proton mean kinetic energy in supercooled water, Physical Review Letters, 100 (2008) 127802; A. K. Soper, Comment on “Excess of proton mean kinetic energy in supercooled water” Physical Review Letters103 (2009) 069801; A. Pietropaolo, R. Senesi, C. Andreani, A. Botti, M. A. Ricci and F. Bruni, Pietropaolo et al. Reply: Physical Review Letters103 (2009) 069802. [Back, 2]
R. Mishra and R. Winter, Cold- and pressure-induced dissociation of protein aggregates and amyloid fibrils, Angewandte Chemie International Edition, 47 (2008) 6518- 6521. [Back]
S. Dorbolo, H. Caps and N. Vandewalle, Fluid instabilities in the birth and death of antibubbles, New Journal of Phys.5 (2003) 161.1-161.9; P. G. Kim and H. A. Stone, Dynamics of the formation of antibubbles, Europhysics Letters, 83 (2008) 54001. [Back]
A. Pazur and M. Winklhofer, Magnetic effect on CO2 solubility in seawater: A possible link between geomagnetic field variations and climate, Geophys. Research Letters, 35 (2008) L167. [Back]
A. V. Dobrynin, Theory and simulations of charged polymers: From solution properties to polymeric nanomaterials, Curr.Opinion Colloid Interface Science 13 (2008) 376-388. [Back, 2]
A. A. Zaitsev and V. N. Afanasiev, The development of the theory of strong electrolyte solutions, J. Solution Chemistry, 37 (2008) 1425-1436. [Back]
D. Ben-Amotz and R. Underwood, Unraveling water’s entropic mysteries: A unified view of nonpolar, polar, and ionic hydration, Accounts of Chemical Research, 41 (2008) 957-967. [Back]
F. Mallamace, C. Corsaro, M. Broccio, C. Branca, N. González-Segredo, J. Spooren, S.-H. Chen and H. E. Stanley, NMR evidence of a sharp change in a measure of local order in deeply supercooled confined water, Proceedings of the National Academy of Sciences, 105 (2008) 12725-12729. [Back]
H. Yada, M. Nagai and K. Tanaka, Origin of the fast relaxation component of water and heavy water revealed by terahertz time-domain attenuated total reflection spectroscopy, Chemical Physics Letters, 464 (2008) 166-170. [Back]
H. Kumano, T. Hirata and T. Kudoh. Effects of poly-vinyl alcohol on supercooling phenomena of water, International Journal of Refrigeration32 (2009) 454-461. [Back]
P. Ritz, S. Vol, G. Berrut, I. Tack, M.J. Arnaud and J. Tichet, Influence of gender and body composition on
hydration and body water spaces, Clin. Nutr.27 (2008) 740-746. [Back]
M. Mucha, T. Frigato, L. M. Levering, H. C. Allen, D. J. Tobias, L. X. Dang and P. Jungwirth, Unified molecular picture of the surfaces of aqueous acid, base, and salt solutions, Journal of Physical Chemistry B109 (2005) 7617-7623. [Back] [Back to Top ]