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Water Structure and Science References 1601 -> 1700


  1. S. Sudo and S. Yagihara, Universality of separation behavior of relaxation processes in supercooled aqueous
    solutions as revealed bybroadband dielectric measurements, J. Phys. Chem. B 113 (2009) 11448-11452. [Back]
  2. L. Montagnier, J. Aïssa, S. Ferris, J.-L. Montagnier, C. Lavallée, Electromagnetic signals are produced by aqueous nanostructures derived from bacterial DNA sequences, Interdiscip. Sci. Comput. Life Sci. 1 (2009) 81-90. L. Montagnier, J. Aissa, E. Del Giudice, C. Lavallee, A. Tedeschi and G. Vitiello, DNA waves and water, J. Phys.: Conf. Ser. 306 (2011) 012007, arXiv:1012.5166v1 [q-bio.OT]. [Back, 2, 3]
  3. D. Banerjee, S. N. Bhat, S. V. Bhat and D. Leporini, ESR evidence for 2 coexisting liquid phases in deeply supercooled bulk water. PNAS 106 (2009) 11448-11453. [Back]
  4. (a) C. Huang, K. T. Wikfeldt, T. Tokushima, D. Nordlund, Y. Harada, U. Bergmann, M. Niebuhr, T. M. Weiss, Y. Horikawa, M. Leetmaa, M. P. Ljungberg, O. Takahashi, A. Lenz, L. Ojamäe, A. P. Lyubartsev, S. Shin, L. G. M. Pettersson and A. Nilsson, The inhomogeneous structure of water at ambient conditions, PNAS 106 (2009) 15214-15218; (b) F. Mallamace, The liquid water polymorphism, PNAS 106 (2009) 15097-15098; but see A. K. Soper, J. Teixeira, and T. Head-Gordon, Is ambient water inhomogeneous on the nanometer-length scale? PNAS 107 (2010) E44; rebutted by C. Huang, K. T. Wikfeldt, T. Tokushima, D. Nordlund, Y. Harada, U. Bergmann, M. Niebuhr, T. M. Weiss, Y. Horikawa, M. Leetmaa, M. P. Ljungberg, O. Takahashi, A. Lenz, L. Ojamäe, A. P. Lyubartsev, S. Shin, L. G. M. Pettersson and A. Nilsson, Reply to Soper et al.: Fluctuations in water around a bimodal distribution of local hydrogen-bonded structural motifs, PNAS 107 (2010) E45. [Back, 2, 3]
  5. Y. Yonetani and H. Kono, Sequence dependencies of DNA deformability and hydration in the minor groove, Biophys. J. 97 (2009) 1138-1147. [Back]
  6. Y. Zhang and P. S. Cremer, The inverse and direct Hofmeister series for lysozyme, PNAS 106 (2009) 15249-15253. [Back]
  7. C. S. Tian and Y. R. Shen, Structure and charging of hydrophobic material/water interfaces studied by phase-sensitive sum-frequency vibrational spectroscopy, PNAS 106 (2009) 15148-15153.
  8. C. W. C Kendall, A. Esfahani and D. J. A .Jenkins, The link between dietary fibre and human health, Food Hydrocolloids 24 (2010) 42-48. [Back]
  9. M. Gardner, The fantastic combinations of John Conway's new solitaire game "life" Scientific American 223 (1970) 120-123. [Back]
  10. Discussion based on private communication with authors B. Vybiral and P. Voracek (2009). [Back]
  11. K. Szalewicz, C. Leforestierand A. van der Avoird, Towards the complete understanding of water by a first-principles computational approach, Chem. Phys. Lett. 482 (2009) 1-14. [Back]
  12. D. C. Malaspina, J. A. Rodriguez Fris, G. A. Appignanesi and F. Sciortino, Identifying a causal link between structure and dynamics in supercooled water, Europhys. Lett. 88 (2009) 16003; G. A. Appignanesi, J. A. Rodriguez Fris and F. Sciortino, Evidence of a two-state picture for supercooled water and its connections with glassy dynamics, Eur. Phys. J. E 29 (2009) 305-310. [Back]
  13. Y. Fan, X. Chen, L. Yang, P.l S. Cremer and Y. Q. Gao, On the structure of water at the aqueous/air interface, J. Phys. Chem. B 113 (2009) 11672-11679. [Back]
  14. R. N. Tsenkova, l. K. Iordanova, K. Toyoda and D. R. Brown, Prion protein fate governed by metal binding,
    Biochem. Biophys. Res. Comm. 325 (2004) 1005-1012. [Back]
  15. (a) R. Tsenkova, AquaPhotomics: water absorbance pattern as a biological marker for disease diagnosis and disease understanding, NIR News 18:2 (2007) 15-17; R. Tsenkova, Aquaphotomics: extended water mirror approach reveals peculiarities of prion protein alloforms, NIR News 18:6 (2007) 14-17;(b) R. Tsenkova, Aquaphotomics: acquiring spectra of various biological fluids of the same organism reveals the importance
    of water matrix absorbance coordinates and the aquaphotome for understanding biological phenomena, NIR News 19:1 (2008) 7-9; R. Tsenkova, Aquaphotomics: the extended water mirror effect explains why small concentrations of protein in solution can be measured with near infrared light, NIR News 19:4 (2008) 12-13; (c) R. Tsenkova, Aquaphotomics workshop at 2008 IDRC in Chambersburg, NIR News 20:6 (2009) 5-8; (see also [1842]). [Back]
  16. H.-H. Limbach, P. M. Tolstoy, N. Pérez-Hernández, J. Guo, I. G. Shenderovich and G. S. Denisov, OHO Hydrogen bond geometries and NMR chemical shifts: from equilibrium structures to geometric H/D isotope effects, with
    applications for water, protonated water, and compressed ice, Israel J. Chem. 49 (2009) 199-216. [Back]
  17. S. J. Bachmann and W. F. van Gunsteren, An improved simple polarisable water model for use in biomolecular simulation, J. Chem. Phys. 141 (2014) 22D515; based on A.-P. E. Kunz and W. F. van Gunsteren, Development of a nonlinear classical polarization model for liquid water and aqueous solutions: COS/D, J. Phys. Chem. A 113 (2009) 11570-11579. [Back]
  18. K. Ohgaki, N. Q. Khanh, Y. Joden, A. Tsuji and T. Nakagawa, Physicochemical approach to nanobubble solutions, Chem. Eng. Sci. 65 (2010) 1296-1300. [Back]
  19. O. Loboda and V. Goncharuk, Theoretical study on icosahedral water clusters, Chem. Phys. Lett. 484 (2010) 144-147. [Back, 2, 3]
  20. (a) S. Baumgartner, M. Wolf, P. Skrabal, F. Bangerter, P. Heusser, A. Thurneysen and U. Wolf, High-field 1H T1 and T2 NMR relaxation time measurements of H2O in homeopathic preparations of quartz, sulfur, and copper sulfate, Naturwissenschaften 96 (2009)1079-1089;(b) U. Wolf, M. Wolf, P. Heusser, A. Thurneysen and S. Baumgartner, Homeopathic preparations of quartz, sulfur and copper sulfate assessed by UV-spectroscopy, eCAM (2009) doi:10.1093/ecam/nep036; (c) J.-L. Demangeat, NMR relaxation evidence for solute-induced nanosized superstructures in ultramolecular aqueous dilutions of silica–lactose, J. Mol. Liquids 155 (2010) 71-79; J.-L. Demangeat, Nanosized solvent superstructures in ultramolecular aqueous dilutions: twenty years’ research using water proton NMR relaxation, Homeopathy 102 (2013) 87-105. [Back]
  21. K. R. Hirsch and W. B. Holzapfel, Symmetric hydrogen bonds in ice X, Phys. Lett. A 101 (1984) 142-144. [Back]
  22. I. A. Brownlee, The physiological roles of dietary fibre, Food Hydrocolloids 25 (2011) 238-250; M. J. Gidley, Hydrocolloids in the digestive tract and related health implications, Curr. Op. Coll. Interface Sci. 18 (2013) 371-378; J.-M. Li and S.-P. Nie, The functional and nutritional aspects of hydrocolloids in foods, Food Hydrocolloids 53 (2016) 46-61 [Back]
  23. D. Jouanneau, M. Guibet, P. Boulenguer, J. Mazoyer, M. Smietana and W. Helbert, New insights into the structure of hybrid κ-/μ-carrageenan and its alkaline conversion, Food Hydrocolloids 24 (2010) 452-461 . [Back]
  24. L. Pusztai, O. Pizio, and S. Sokolowski, Comparison of interaction potentials of liquid water with respect to their consistency with neutron diffraction data of pure heavy water, J. Chem. Phys. 129 (2008) 184103. [Back]
  25. Y. Asahara, M. Murakami, Y. Ohishi, N. Hirao and K. Hirose, Sound velocity measurement in liquid water up to 25 GPa and 900 K: Implications for densities of water at lower mantle conditions, Earth Planet. Sci. Lett. 289 (2010) 479-485. [Back] [Back to Top to top of page]
  26. L. D. Tijing, H. Y. Kim, D. H. Lee, C. S. Kim and Y. I. Cho, Physical water treatment using RF electric fields for the mitigation of CaCO3 fouling in cooling water, Int. J. Heat Mass Transfer 53 (2010) 1426-1437. [Back]
  27. A. Lenz and L. Ojamäe, Computational studies of the stability of the (H2O)100 nanodrop, J. Mol. Structure THEOCHEM 944 (2010) 163-167. [Back, 2]
  28. E. Jéquier and F. Constant, Water as an essential nutrient: the physiological basis of hydration
    Eur. J. Clin. Nutr. (2009) 1-9. [Back]
  29. M. Arakawa, H. Kagi and H. Fukazawa, Annealing effects on hydrogen ordering in KOD doped ice observed using neutron diffraction, J. Mol. Structure 972 (2010) 111-114. [Back]
  30. H. Jansson, R. Bergman and J. Swenson, Slow dielectric response of Debye-type in water and other hydrogen bonded liquids, J. Mol. Structure 972 (2010) 92-98. H. Jansson, R. Bergman, and J. Swenson, Hidden slow dynamics in water, Phys. Rev. Lett. 104 (2010) 017802; R. Richert, Comment on “Hidden Slow Dynamics in Water”, Phys. Rev. Lett. 104 (2010) 249801; Jansson, Bergman, and Swenson Reply: Phys. Rev. Lett. 104 (2010) 249802; C. P. Gainaru and R. Böhmer, Comment on “Hidden Slow Dynamics in Water”, Phys. Rev. Lett. 104 (2010) 249803; Jansson, Bergman, and Swenson Reply: Phys. Rev. Lett. 104 (2010) 249804 (this reply is probably not correct for completely dry propylene carbonate, J. Swensson, Personal commun). [Back]
  31. L. Fu, A. Bienenstock and S. Brennan, X-ray study of the structure of liquid water, J. Chem. Phys. 131 (2009) 234702. [Back, 2]
  32. M. A. Hampton and A. V. Nguyen, Nanobubbles and the nanobubble bridging capillary force, Adv. Colloid Interface Sci. 333 (2009) 800-806. [Back]
  33. E. S. Stoyanov, I. V. Stoyanova and C. A. Reed, The structure of the hydrogen ion (Haq+) in water, J. Am. Chem. Soc.132 (2010) 1484-1485. [Back]
  34. G. Niño-Medina, E. Carvajal-Millán, A. Rascon-Chu, J. A. Marquez-Escalant, V. Guerrero and E. Salas-Muiñoz, Feruloylated arabinoxylans and arabinoxylan gels: structure, sources and applications, Phytochem. Rev. 9 (2010) 111-120. [Back]
  35. S. Dong, Z. Chen and Y. Wang, Neutron scattering and molecular dynamics simulation studies of the phase transition: High-density amorphous ice to low-density amorphous ice, Chem. Phys. 369 (2010) 8-12. [Back]
  36. K. Furić and V. Volovšek, Water ice at low temperatures and pressures; new Raman results, J. Mol. Structure 976 (2010) 174-180. [Back]
  37. B. Benelam and L. Wyness, Hydration and health: a review, Nutr.Bull. 35 (2010) 3-25; F. E. Karet, Disorders of water and acid-base homeostasis, Nephron Physiol. 118 (2011) 28-34. [Back]
  38. S. V. Lishchuk, N. P. Malomuzh and P.l V. Makhlaichuk, Why thermodynamic properties of normal and heavy water are similar to those of argon-like liquids? Phys. Lett. A 374 (2010) 2084-2088. [Back]
  39. T. Tokushima, Y. Harada, Y. Horikawa, O. Takahashi, Y. Senba, H. Ohashi, L. G. M. Pettersson, A. Nilsson and S. Shin, High resolution Xray emission spectroscopy of water and its assignment based on two structural motifs, J. Electron Spectr. Rel. Phenom. 177 (2010) 192-205. [Back, 2]
  40. S. N. Novikov, A. I. Ermolaeva, S. P. Timoshenkov and V. S. Minaev, The influence of the supramolecular structure of water on the kinetics of vaporization, Russ. J. Phys.l Chem. A, 84 (2010) 534-537. [Back]
  41. R. Zimmermann, U. Freudenberg, R. Schweiß, D. Küttner and C. Werner, Hydroxide and hydronium ion adsorption — A survey, Curr. Opinion Colloid Interface Sci. 15 (2010) 196-202. [Back]
  42. K. Davitt, A. Arvengas and F. Caupin, Water at the cavitation limit: Density of the metastable liquid and size of the critical bubble, Europhys. Lett. 90 (2010) 16002. [Back]
  43. K. E. Shaw, C. J. Woods, and A. J. Mulholland, Compatibility of quantum chemical methods and empirical (MM) water models in quantum mechanics/molecular mechanics liquid water simulations, J. Phys. Chem. Lett. 1 (2010) 219-223. [Back]
  44. V. Elia, E. Napoli and M. Niccoli, Thermodynamic parameters for the binding process of the OH- ion with the dissipative structures. Calorimetric and conductometric titrations, J. Therm. Anal. Calorim. 102 (2010) 1111-1118. [Back]
  45. B. Lindman, G. Karlström and L. Stigsson, On the mechanism of dissolution of cellulose, J. Mol. Liquids156 (2010) 76-81; M. Bergenstråhle, J. Wohlert, M. E. Himmel and J. W. Brady, Simulation studies of the insolubility of cellulose, Carbohydr. Res. 345 (2010) 2060-2066 [Back]
  46. J. G. Eberhart, A new four-parameter equation of state and its application in predicting the spinodal temperature
    of water, WATER 1 (2009) 85-91. [Back].
  47. S. E. Pagnotta, S. E. McLain, A. K. Soper, F. Bruni and M. A. Ricci, Water and trehalose: How much do they interact with each other? J. Phys. Chem. B 114 (2010) 4904-4908. [Back]
  48. S. T. Roberts, P. B. Petersen, K. Ramasesha, A.i Tokmakoff, I. S. Ufimtsev, and T. J. Martinez, Observation of a Zundel-like transition state during proton transfer in aqueous hydroxide solutions, PNAS 106 (2009) 15154-15159. [Back]
  49. D. A. Schmidt, S. Funkner, B. P. Born, R. Gnanasekaran, G. W. Schwaab, D. M. Leitner and M. Havenith, Rattling in the cage: Ions as probes of sub-picosecond water network dynamics, J. Am. Chem. Soc. 131 (2009) 18512-18517. [Back]
  50. P. W. Wilson and A. D. J. Haymet, Hydrate formation and reformation in nucleating THF/water mixtures shows no evidence to support a “memory” effect, Chem. Eng. J. 161 (2010) 146-150. [Back] [Back to Top to top of page]
  51. R. D. Ambashta and M. Sillanpää, Water purification using magnetic assistance: a Review, J. Hazardous Mater. 180 (2010) 38-49. [Back]
  52. R.-L. Sang and L. Xu, Reversible formation of regular pentagonal dodecahedral (H2O)20 in a 2D metal–organic framework, CrystEngComm 12 (2010) 1377-1381. [Back, 2]
  53. P. Gilli and G. Gilli, Hydrogen bond models and theories: The dual hydrogen bond model and its consequences, J. Mol. Structure 972 (2010) 2-10. [Back]
  54. T. D. Kühne, M. Krack and M. Parrinello, Static and dynamical properties of liquid water from first principles by a novel Car-Parrinello-like approach, J. Chem. Theory Comput. 5 (2009) 235-241. [Back]
  55. X. Fan, D. Bing , J. Zhang, Z. Shen and J.-L. Kuo, Predicting the hydrogen bond ordered structures of ice Ih, II, III, VI and ice VII: DFT methods with localized based set, Comp. Mater. Sci. 49 (2010) S170-S175. [Back, 2]
  56. J. P. Devlin, I. A. Monreal, Clathrate–hydrate ultrafast nucleation and crystallization from supercooled aqueous nanodroplets, Chem. Phys. Lett. 492 (2010) 1-8. [Back]
  57. C. L. Henry and V. S. J. Craig, The link between ion specific bubble coalescence and Hofmeister effects is the partitioning of ions within the interface, Langmuir 26 (2010) 6478-6483; V. S. J. Craig, Do hydration forces play a role in thin film drainage and rupture observed in electrolyte solutions? Curr. Opin. Coll. Interface Sci. 16 (2011) 597-600. [Back]
  58. A. N. Dunaeva, D. V. Antsyshkin and O. L. Kuskov, Phase Diagram of H2O: Thermodynamic functions
    of the phase transitions of high-pressure ices, Solar System Res. 44 (2010) 202-222. [Back]
  59. N. Schwierz, D. Horinek and R. R. Netz, Reversed anionic Hofmeister series: The interplay of surface charge
    and surface polarity, Langmuir 26 (2010) 7370-7379. [Back]
  60. K. Saleh, L. Forny, P. Guigon and I. Pezron, Dry water: from physico-chemical aspects to process related parameters, Chem. Eng. Res. Design 89 (2011) 537-544. [Back]
  61. A. Perera, V. Meda and R. T. Tyler, Resistant starch: A review of analytical protocols for determining resistant starch and of factors affecting the resistant starch content of foods, Food Res. Int. 43 (2010) 1959-1974. [Back]
  62. A. Shepherd, D. Wingham, D. Wallis, K. Giles, S. Laxon and A. V. Sundal, Recent loss of floating ice and the consequent sea level contribution, Geophys. Res. Lett., 37 (2010) L13503. [Back]
  63. A. P. dos Santos, A. Diehl and Y. Levin, Surface tensions, surface potentials, and the Hofmeister series of electrolyte solutions, Langmuir 26 (2010) 10778-10783. arXiv:1002.2390v1 [cond-mat.soft] 11 Feb 2010. [Back, 2]
  64. E. Tiezzi, M. CatalucciI and N. Marchettini, The supramolecular structure of water: NMR studies, Int. J. Design Nature Ecodynamics 5(1) (2010). [Back]
  65. A. Melinder, Properties and other aspects of aqueous solutions used for single-phase and ice slurry applications, Int. J. Refrigeration 33 (2010) 1506-1512. [Back]
  66. M. French, T. R. Mattsson, N. Nettelmann and R. Redmer, Equation of state and phase diagram of
    water at ultrahigh pressures as in planetary interiors. Phys. Rev. B 79 (2009) 054107. N. A. Tahir, Th. Stöhlker, A. Shutov, I. V. Lomonosov, V. E. Fortov, M. French, N. Nettelmann, R. Redmer, A. R. Piriz, C. Deutsch, Y. Zhao, P. Zhang, H. Xu, G. Xiao and W. Zhan, Ultrahigh compression of water using intense heavy ion beams: laboratory planetary physics, New J. Phys. 12 (2010) 073022. [Back]
  67. C. Guse, A. Simionescu, B. Schünemann, R. Hentschke and H. Bomsdorf, Temperature-dependent structure of liquid water investigated by means of energy-dispersive x-ray diffraction and molecular dynamics simulations, J. Phys.: Condens. Matter 22 (2010) 325105. [Back]
  68. J.N. Scott and J. M. Vanderkooi, A new hydrogen bond angle/distance potential energy surface of the quantum water dimer, WATER 2 (2010) 14-28. [Back]
  69. M. K. Budinski and A. Cook, Osmotic pressure of water in Nafion®, Tsinghua Sci. Technol. 15 (2010) 385-390. [Back, 2]
  70. M. V. C. Cardoso and E. Sabadini, The gelling of κ-carrageenan in light and heavy water, Carbohydr. Res. 345 (2010) 2368-2373. [Back]
  71. R. Redmer, T. R. Mattsson, N. Nettelmann and M. French, The phase diagram of water and the magnetic fields of Uranus and Neptune, Icarus 211 (2011) 798-803. [Back]
  72. M. Sharma, R. Resta and R. Car, Dipolar correlations and the dielectric permittivity of water. Phys. Rev. Lett. 98(2007) 247401. [Back]
  73. K. Hyeon-Deuk and K. Ando, Quantum effects of hydrogen atoms on the dynamical rearrangement of hydrogen-bond networks in liquid water, J. Chem. Phys. 132 (2010) 164507. [Back]
  74. E. Fisicaro, C. Compari and A. Braibanti, Hydrophobic hydration processes General thermodynamic model by thermal equivalent dilution determinations, Biophys. Chem. 151 (2010) 119-138. [Back, 2]
  75. S. C. C. Nunes, A. J. L. Jesus, M. J. Moreno, M. Ermelinda and S. Eusébio, Conformational preferences of α,α- trehalose in gas phase and aqueous solution, Carbohydr. Res. 345 (2010) 2048-2059. [Back] [Back to Top to top of page]
  76. N. Miura, H. Yamada and A. Moon, Inter-molecular vibrational study in liquid water and ice by using far infrared spectroscopy with synchrotron radiation of MIRRORCLE 20, Spectrochim. Acta Part A: Mol. Biomol. Spectr. 77 (2010) 1048-1053. [Back]
  77. C. D. Wick and L. X. Dang, The behavior of NaOH at the air-water interface: A computational study, J. Chem. Phys. 133 (2010) 024705. C. D. Wick and O. T. Cummings, Understanding the factors that contribute to ion interfacial behavior, Chem. Phys. Lett. 513 (2011) 161-166. [Back]
  78. Directive 2008/100/EC, Official Journal of the European Union L 285/9 (2008). [Back]
  79. P. W. Dettmar, V. Strugala and J. C. Richardson, The key role alginates play in health, Food Hydrocolloids 25 (2011) 263-266. [Back]
  80. M. C. Jarvis, Plant cell walls: Supramolecular assemblies, Food Hydrocolloids 25 (2011) 257-262. [Back]
  81. W. Li, S. W. Cui, Q. Wang and R. Y. Yada, Studies of aggregation behaviours of cereal β-glucans in dilute aqueous solutions by light scattering: Part I. Structure effects, Food Hydrocolloids 25 (2011) 189-195. [Back]
  82. C. U. Kim, B. Barstow, M. W. Tate and S. M. Gruner, Evidence for liquid water during the high-density to low-density amorphous ice transition, PNAS 106 (2009) 4596-4600. [Back]
  83. S. Juna, P. A. Williams and S. Davies, Determination of molecular mass distribution of amylopectin using asymmetrical flow field-flow fractionation, Carbohydr. Polymers 83 (2011) 1384-1396. [Back]
  84. D. B. Watson, Public health and carrageenan regulation: a review and analysis J. Appl. Phycol. 20 (2008) 505-513. [Back]
  85. O. Mishima, Volume of supercooled water under pressure and the liquid-liquid critical point, J. Chem. Phys. 133 (2010) 144503. [Back, 2]
  86. L. Makkonen, Surface melting of ice, J. Phys. Chem. B 101 (1997) 6196-6200. [Back]
  87. J.-J. Max and C. Chapados, Isotope effects in liquid water by infrared spectroscopy. IV. No free OH groups in liquid water, J. Chem. Phys. 133 (2010)164509. [Back]
  88. Y. Suzuki and Y. Tominaga, Polarized Raman spectroscopic study of relaxed high density amorphous ices under pressure, J. Chem. Phys. 133 (2010) 164508. [Back]
  89. C. Z. Liu, C. H. Lin, M. S. Yeh, Y. M. Chao, P. Shen, Surface modification and planar defects of calcium carbonates by magnetic water treatment, Nanoscale Res. Lett. 5 (2010) 1982-1991. [Back]
  90. D. Liu, X. Chen, Y. Yue, M, Chen and Q. Wu, Structure and rheology of nanocrystalline cellulose, Carbohydr. Polymers 84 ( 2011) 316-322. [Back]
  91. J. G. Watterson, Does solvent structure underlie osmotic mechanisms? Phys. Chem. Liq. 16 (1987) 313-316; E. Del Giudice, E. C. Fuchs and G. Vitiello, Collective molecular dynamics of a floating water bridge, WATER 2 (2010) 69-82, see also [1361]; E. Del Giudice, A. Tedeschi, G.Vitiello and V. Voeikov, Coherent structures in liquid water close to hydrophilic surfaces, J. Phys.: Conf. Ser. 442 (2013) 012028; G. Preparata, QED Coherence in Matter (London: World Scientific,1995); E. Del Giudice, V. Voeikov, A. Tedeschi and G. Vitiello, The origin and the special role of coherent water in living systems, in, Fields of the Cell, Ed. D.Fels, M. Cifra, F. Scholkmann, (Research Signpost, Kerala, 2015) ISBN: 978-81-308-0544-3, pp 95-111. [Back, 2, 3]
  92. Á. G. Marín and D. Lohse, Building water bridges in air: Electrohydrodynamics of the floating water bridge, Physics of fluids 22 (2010) 122104. see also [1361]. [Back]
  93. A. Szczes, E. Chibowski, L. Hołysz and P. Rafalski, Effects of static magnetic field on water at kinetic condition, Chem. Eng. Process. 50 (2011) 124-127. [Back]
  94. V. K. Konyukhov, Mixed state of spin moments of two protons in the water molecule and stability of its spin isomers, Bull. Lebedev Phys. Instit. 37 (2010) 359-360. [Back]
  95. D. Zhong, S. K. Pal and A. H. Zewail, Biological Water: A critique, Chem. Phys. Lett. 503 (2010) 1-11. [Back]
  96. J. J. Effing, I. J. McLennan and J. C. T. Kwak, Associative phase separation observed in a hydrophobically modified poly (acrylamide)/sodium dodecyl sulfate system, J. Phys. Chem. 98 (1994) 2449-2502. [Back]
  97. X. Pang and B. Deng, Infrared absorption spectra of pure and magnetized water at elevated temperatures, Europhys. Lett. 92 (2010) 65001. [Back, 2, 3]
  98. A. Angulo-Sherman, H. Mercado-Uribe, Dielectric spectroscopy of water at low frequencies: The existence of an isopermitive point, Chem. Phys. Lett. 503 (2011) 327-330. [Back]
  99. G. F. Reiter, A.I. Kolesnikov, S. J. Paddison, P. M. Platzman, A.P. Moravsky, M. A. Adams and J. Mayers, Evidence for an anomalous quantum state of protons in nanoconfined water, Phys. Rev. B 85 (2012) 045403; arXiv:1101.4994v1 [cond-mat.mes-hall]. [Back, 2]
  100. M. Tanaka and A. Mochizuki, Clarification of the blood compatibility mechanism by controlling the water Structure at the blood–poly(meth)acrylate interface, J. Biomaterials Sci. 21 (2010) 1849-1863. [Back] [Back to Top to top of page]




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