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Water Structure and Science, References 2401 - 2500


  1. R. Qi, L.-P. Wang, Q. Wang, V. S. Pande and P. Ren, United polarizable multipole water model for molecular mechanics simulation, Journal of Chemical Physics,143 (2015) 014504. [Back]
  2. V. Bianco and G. Franzese, Contribution of water to pressure and cold denaturation of proteins, Physical Review Letters 115 (2015) 108101. [Back]
  3. F. C. Andrews, Colligative properties of simple solutions, Science, 194 (1976) 567-571. [Back]
  4. P. Dey and E. L. Izake, Magnetic nanoparticles boosting the osmotic efficiency of a polymeric FO draw agent: Effect of polymer conformation, Desalination 373 (2015) 79-85. [Back]
  5. I. Pethes and L. Pusztai, Reverse Monte Carlo investigations concerning recent isotopic substitution neutron diffraction data on liquid water, Journal of Molecular Liquids, 212 (2015) 111-116. [Back, 2, 3]
  6. N. F. Bunkin, A. V. Shkirin, P. S. Ignatiev, L. L. Chaikov, I. S. Burkhanov and A. V. Starosvetskij, Nanobubble clusters of dissolved gas in aqueous solutions of electrolyte. I. Experimental proof, Journal of Chemical Physics,137 (2012) 054706; N. F. Bunkin and A. V. Shkirin, Nanobubble clusters of dissolved gas in aqueous solutions of electrolyte. II. Theoretical interpretation, N. F. Bunkina) and A. V. Shkirin, Journal of Chemical Physics,137 (2012) 054707. [Back]
  7. A. Vrij, Light scattering from liquid interfaces. Advan Colloid Interface Sci 2 (1968) 39-64. [Back]
  8. M. J. Shultz, C. Schnitzer, D. Simonelli and S. Baldelli,  Sum frequency generation spectroscopy of the aqueous interface: ionic and soluble molecular solutions,  Int Rev Phys Chem 19 (2000) 123-153; Y. R. Shen and V. Ostroverkhov, Sum-frequency vibrational spectroscopy on water interfaces: polar orientation of water molecules at interfaces, Chemical Reviews, 106 (2006) 1140-1154. [Back, 2]
  9. E. P. Khizhnyak and E. E. Khizhnyak, Self-structuring processes in superficial layers of water studied using method of high resolution infrared thermography. Abstracts of Second Annual Conference on the Physics and Chemistry of Water, Vermont, 2007. [Back]
  10. M. Sammer, A. D. Wexler, P. Kuntke, H. Wiltsche, N. Stanulewicz, E. Lankmayr, J. Woisetschläger and E. C Fuchs, Proton production, neutralisation and reduction in a floating water bridge, Journal of Phys. D: Appl. Phys. 48 (2015) 415501. [Back]
  11. Y. Nonomura, R. Saito and T. Maeno, Helen Keller problem: tactile texture of water isn't necessarily favourable, Aqua Incognita: why ice floats on water and Galileo 400 years on, Ed. P. Lo Nostro and B. W. Ninham, ISBN: 9781925138214 (Connor Court, Ballarat, 2014) pp 306-319. [Back]
  12. Z. Zhang, L. Piatkowski, H. J. Bakker and M. Bonn, Ultrafast vibrational energy transfer at the water/air interface revealed by two-dimensional surface vibrational spectroscopy. Nature, Chem. 3 (2011) 888-893. [Back]
  13. K. Amann-Winkel, R. Böhmer, F. Fujar, C. Gainaru, B. Geil and T. Loerting, Colloquium: Water's controversial glass transitions, Review Mod. Phys. 88 (2016) 011002. [Back]
  14. A. Dehaoui, B. Issenmann and F. Caupin, Viscosity of deeply supercooled water and its coupling to molecular diffusion, Proceedings of the National Academy of Sciences, 112 (2015) 12020-12025. [Back, 2]
  15. K. Winkel, D. T. Bowron, T. Loerting, E. Mayer and J. L. Finney, Relaxation effects in low density amorphous ice: Two distinct structural states observed by neutron diffraction, Journal of Chemical Physics,130 (2009) 204502. [Back]
  16. E. Brandes, C. Stage, H. Motschmann, J. Rieder and R. Buchner, Is surface layering of aqueous alkali halides determined by ion pairing in the bulk solution? Journal of Chemical Physics,141 (2014) 18C509. [Back]
  17. A. Ozkanlar, T. Zhou and A. E. Clark, Towards a unified description of the hydrogen bond network of liquid water: A dynamics based approach, Journal of Chemical Physics,141 (2014) 214107. [Back]
  18. M.-L. Tan, J. R. Cendagorta and T. Ichiye, The molecular charge distribution, the hydration shell, and the unique properties of liquid water, Journal of Chemical Physics,141 (2014) 244504. [Back]
  19. J. A. Sellberg, T. A. McQueen, H. Laksmono, S. Schreck, M. Beye, D. P. DePonte, B. Kennedy, D. Nordlund, R. G. Sierra, D. Schlesinger, T. Tokushima, I. Zhovtobriukh, S. Eckert, V. H. Segtnan, H. Ogasawara, K. Kubicek, S. Techert, U. Bergmann, G. L. Dakovski, W. F. Schlotter, Y. Harada, M. J. Bogan, P. Wernet, A. Föhlisch, L. G. M. Pettersson and A. Nilsson, X-ray emission spectroscopy of bulk liquid water in “no-man’s land”, Journal of Chemical Physics,142 (2015) 044505. [Back, 2]
  20. M.-L. Tan, B. T. Miller, J. Te, J. R. Cendagorta, B. R. Brooks and T. Ichiye, Hydrophobic hydration and the anomalous partial molar volumes in ethanol-water mixtures, Journal of Chemical Physics,142 (2015) 064501. [Back]
  21. C. Wang, H. Lu, Z. Wang, P. Xiu, B. Zhou, G. Zuo, R. Wan, J. Hu and H. Fang, Stable liquid water droplet on a water monolayer formed at room temperature on ionic model substrates, Physical Review Letters 103 (2009) 137801; C. Wang, B. Zhou, P. Xiu and H. Fang, Effect of surface morphology on the ordered water layer at room temperature, Journal of Physical Chemistry C, 115 (2011) 3018-3024; C. Wang, Y. Yang, and H. Fang, Recent advances on “ordered water monolayer that does not completely wet water” at room temperature, Science, China 57 (2014) 802-809. [Back]
  22. D. Chakraborty, A. Taly and F. Sterpone, Stay wet, stay stable? How internal water helps the stability of thermophilic proteins, Journal of Physical Chemistry B, 119 (2015) 12760-12770. [Back]
  23. P. Ben Ishai, S. R. Tripathi, K. Kawase, A. Puzenkoa and Yu. Feldmana, What is the primary mover of water dynamics? Physical Chemistry Chemical Physics, 17 (2015) 15428. [Back,2]
  24. A. Schmidt , K. S. Carslaw, G. W. Mann , A. Rap, K. J. Pringle, D. V. Spracklen, M. Wilson and P. M. Forster, Importance of tropospheric volcanic aerosol for indirect radiative forcing of climate, Atmos. Chemical Physics, 12 (2012) 7321-7339; B. J. Murray, D. O’Sullivan, J. D. Atkinson and M. E. Webb, Ice nucleation by particles immersed in supercooled cloud droplets, Chemical Society Review, 41 (2012) 6519-6554. [Back]
  25. C. Mitterdorfer, M. Bauer, T. G. A. Youngs, D. T. Bowron, C. R. Hill, H. J. Fraser, J. L. Finney and T. Loerting, Small-angle neutron scattering study of micropore collapse in amorphous solid water, Physical Chemistry Chem.P hys. 16 (2014) 16013. [Back] [Back to Top to top of page]
  26. F. N. Keutsch, J. D. Cruzan and R. J. Saykally, The water trimer, Chemical Reviews, 103 (2003) 2533-2577. [Back]
  27. A. Stevenson, J. A Cray, J. P Williams, R. Santos, R. Sahay, N. Neuenkirchen, C. D McClure, I. R Grant, J. DR. Houghton, J. P Quinn, D. J Timson, S. V Patil, R. S Singhal, J. Antón, J. Dijksterhuis, A. D Hocking, B. Lievens, D. EN Rangel, M. A Voytek, N. Gunde-Cimerman, A. Oren, K. N Timmis, T. J. McGenity and J. E Hallsworth, Is there a common water-activity limit for the three domains of life? Int.Soc. Microbial Ecology J. 9 (2015) 1333-1351. [Back]
  28. N. V. Nucci, M. S. Pometun and A. J. Wand, Mapping the hydration dynamics of ubiquitin, Journal of the American Chemical Society, 133 (2011) 12326-12329. [Back]
  29. S. T. Roberts, K. Ramasesha, P. B. Petersen, A. Mandal and A. Tokmakoff, Proton transfer in concentrated aqueous hydroxide visualized using ultrafast infrared spectroscopy, Journal of Physical Chemistry A 115 (2011) 3957-3972. [Back]
  30. K. P. Gierszal, J. G. Davis, M. D. Hands, D. S. Wilcox, L. V. Slipchenko and D. Ben-Amotz, π-Hydrogen bonding in liquid water, Journal of Physical Chemistry Letters, 2 (2011) 2930-2933. [Back]
  31. D. Ben-Amotz, Unveiling electron promiscuity, Journal of Physical Chemistry Letters, 2 (2011) 1216-1222. [Back]
  32. B. M. Rankin, D. Ben-Amotz, S. T. van der Post and H. J. Bakker, Contacts between alcohols in water are random rather than hydrophobic, Journal of Physical Chemistry Letters, 6 (2015) 688-692. [Back]
  33. M. A. Shannon, P. W. Bohn, M. Elimelech, J. G. Georgiadis, B. J. Mariñas and A. M. Mayes, Science, and technology for water purification in the coming decades, Nature, 452 (2008) 301-310. [Back]
  34. T. D. Wheeler and A. D. Stroock The transpiration of water at negative pressures in a synthetic tree, Nature, 455 (2008) 208-211. [Back]
  35. G. Schirò, Y. Fichou,, F.-X. Gallat,, K. Wood, F. Gabel, M. Moulin, M. Härtlein, M. Heyden, J.-P. Colletier, A. Orecchini, A. Paciaroni, J. Wuttke, D. J. Tobias and M. Weik, Translational diffusion of hydration water correlates with functional motions in folded and intrinsically disordered proteins, Nature, Commun. 6 (2015) 6490. [Back]
  36. B. Meier, S. Mamone, M. Concistrè, J. Alonso-Valdesueiro, A. Krachmalnicoff, R. J. Whitbyand M. H. Levitt, Electrical detection of ortho–para conversion in fullerene-encapsulated water, Nature, Commun. 6 (2015) 8112. [Back]
  37. H. Elgabarty, R. Z. Khaliullin and T. D. Kühne, Covalency of hydrogen bonds in liquid water can be probed by proton nuclear magnetic resonance experiments, Nature, Commun. 6 (2015) 8318. [Back]
  38. M. K. Transtrum, B. B. Machta, K. S. Brown, B. C. Daniels, C. R. Myers and J. P. Sethna, Perspective: Sloppiness and emergent theories in physics, biology, and beyond, Journal of Chemical Physics,143 (2015) 010901. [Back]
  39. H. Kanno, A. Ohnishi, K. Tomikawa and Y. Yoshimura, Raman study of aqueous tetraalkylammonium chloride solutions at low temperatures, J. Raman Spectrosc. 30 (1999)705-713. [Back, 2]
  40. M. Thämer, L. De Marco, K. Ramasesha, A. Mandal and A. Tokmakoff, Ultrafast 2D IR spectroscopy of the excess proton in liquid water, Science, 350 (2015)78-82; N. Agmon, The acid test for water structure, Nature, Chem. 8 (2016) 206-207. [Back, 2, 3]
  41. G. Czakó, E. Mátyus and A. G. Császár, Bridging theory with experiment: A benchmark study of thermally averaged structural and effective spectroscopic parameters of the water molecule, Journal of Physical Chemistry A, 113 (2009) 11665-11678. [Back]
  42. B. Sedunov, Thermal analysis of thermophysical data for equilibrium pure fluids, Journal of Modern Physics, 4 (2013) 8-15 [Back]
  43. N. Siddiqui, V. Singh, M. M. Deshmukh and R. Gurunath, Structures, stability and hydrogen bonding in inositol conformers, Physical Chemistry Chemical Physics, 17 (2015) 18514-18523. [Back]
  44. R. Fuentes-Azcatl and M. C. Barbosa, Thermodynamic and dynamic anomalous behavior in the TIP4P/ε water model, Physica A 444 (2016) 86-94. [Back]
  45. D. Foss Smith Jr. and J. Overend, Anharmonic force constants of water, Spectrochim. Acta A: Mol. Spectrosc. 28 (1972) 471-483; used in F. H. Stillinger and C. W. David, Polarization model for water and its ionic dissociation products, Journal of Chemical Physics,69 (1978) 1473-1484. [Back]
  46. S. Capponi, M. Heyden, A.-N. Bondar, D. J. Tobias and S. H. White, Anomalous behavior of water inside the SecY translocon, Proceedings of the National Academy of Sciences, 112 (2015) 9016-9021. [Back]
  47. R. T. Mathie and J. Clausen, Veterinary homeopathy: meta-analysis of randomised placebo-controlled trials, Homeopathy, 104 (2015) 3-8; R. T. Mathie and J. Clausen, Veterinary homeopathy: Systematic review of medical conditions studied by randomised trials controlled by other than placebo, BMC Veterinary Research 11 (2015) 236. [Back]
  48. J. M. Franck, Y. Ding, K. Stone, P. Z. Qin and S. Han, Anomalously rapid hydration water diffusion dynamics near DNA surfaces, Journal of the American Chemical Society, 137 (2015) 12013-12023. [Back]
  49. L. Rutten, R. T. Mathie, P. Fisher, M. Goossens and M. van Wassenhoven, Plausibility and evidence: the case of homeopathy, Med. Health Care and Philos. 16 (2013) 525-532. [Back]
  50. D. Riley, M. Fischer, B. Singh, M. Haidvogl and M. Heger, Homeopathy and conventional medicine: An outcomes study comparing effectiveness in a primary care setting. Journal of Alternative and Complementary Medicine,. 7 (2001) 149-159. [Back]  [Back to Top to top of page]
  51. N. N. Mafy, T. Afrin, M. M. Rahman, M. Y. A. Mollah and M. A. B. H. Susan, Effect of temperature perturbation on hydrogen bonding in aqueous solutions of different urea concentrations, RSC Advances, 5 (2015) 59263-59272. [Back]
  52. E. Galicia-Andrés, L. Pusztai, L. Temleitner and O. Pizio, Microscopic structure of methanol–water mixtures: Synchrotron X-ray diffraction experiments and molecular dynamics simulations over the entire composition range, Journal of Molecular Liquids, 209 (2015) 586-595. [Back]
  53. D. A. Sverjensky and F. Huang, Diamond formation due to a pH drop during fluid–rock interactions. Nat. Commun. 6 (2015) 8702; E. Hand, How buried water makes diamonds and oil. Science, 350 (2015) 613-614. [Back]
  54. H. Cavendish, Three papers, containing experiments on factitious air, Phil. Trans. 56 (1766) 141-184. [Back]
  55. E. M. Ahmed, Hydrogel: Preparation, characterization, and applications: A review, Journal of Advanced Research, 6 (2015) 105-121. [Back]
  56. Z. Liu and A. K. Kim, A review of water mist fire suppression systems— Fundamental studies, Journal of Fire Protection Engineering, 10 (1999) 32-50. [Back, 2]
  57. G. Bornhöft P. Matthiessen and M. M. Saar, Homeopathy, in healthcare: effectiveness, appropriateness, safety, costs, (Springer, 2011), ISBN-10: 3642206379. [Back]
  58. B. V. Pandiyan, P. Kolandaiveland P. Deepa, A theoretical perspective of the nature of hydrogen-bond types – the atoms in molecules approach, Molecular Physics, 112 (2014) 1609-1623 [Back]
  59. P.Chen, Y. Ogawa, Y. Nishiyama, M. Bergenstråhle-Wohlert and K. Mazeau, Alternative hydrogen bond models of cellulose II and IIII based on molecular force-fields and density functional theory, Cellulose 22 (2015) 1485-1493. [Back]
  60. T. Nishino, N. Hayashi and P. T. Bui, Direct measurement of electron transfer through a hydrogen bond between single molecules, Journal of the American Chemical Society, 135 (2013) 4592-4595. [Back]
  61. F. Hammami, H. Ghalla and S. Nasr, Intermolecular hydrogen bonds in urea–water complexes: DFT, NBO, and AIM analysis, Comput. Theor. Chem. 1070 (2015) 40-47. [Back]
  62. D. Batani, K. Jakubowska, A. Benuzzi-Mounaix, C. Cavazzoni, C. Danson, T. Hall, M. Kimpel, D. Neely, J. Pasley, M. Rabec Le Gloahec and B. Telaro, Refraction index of shock compressed water in the megabar
    pressure range, European Physics Letters, 112 (2015) 36001; D. Batani, K. Jakubowska, A. Benuzzi-Mounaix, C. Cavazzoni, C. Danson, T. Hall, M. Kimpel, D. Neely, J. Pasley, M. Rabec Le Gloahec, Erratum: Refraction index of shock compressed water in the megabar pressure range, European Physics Letters, 112 (2015) 49901. [Back]
  63. S. Imoto, H. Forbert and D. Marx, Water structure and solvation of osmolytes at high hydrostatic pressure: pure water and TMAO solutions at 10 kbar versus 1 bar, Physical Chemistry Chemical Physics, 17 (2015) 24224-24237, [Back]
  64. R. E. Davis, G. R. McGregor and K. B. Enfield, Humidity:A review and primer on atmospheric moisture and human health, Environmental Research, 144 (2016) 106-116. [Back, 2]
  65. M. Seidl, A. Fayter, J. N. Stern, K. Amann-Winkel, M. Bauer and T. Loerting, High-performance dilatometry under extreme conditions, In: Proc. 6th Zwick Academia Day 2015. (Zwick GmbH & Co. KG, Ulm, 2015). [Back]
  66. J. R. Partington, The composition of water (G. Bell and Sons, London, 1928). [Back]
  67. N. E. Dorsey, Properties of ordinary water-substance, ACS Monograph 81 (1968), (Facsimile of the 1940 edition). [Back, 2]
  68. S. A. Thorpe, A. R. Stubbs, A. J. Hall and R. J. Turner, Wave-produced bubbles observed by side-scan sonar, Nature, 296 (1982) 636-638; Looking into the water, Physics Bulletin, 33 (1982) 199. [Back]
  69. F. Franks, Ed. Water A Comprehensive Treatise, Vol. 1, (Plenum Press, New York, 1972). [Back]
  70. G. Jacoby, Über die elektrische Polarisation des Dielektrikums (Concerning the electric polarization of the dielectric), Ann. Physik 377 (1923) 153-160. [Back]
  71. M. Faraday, On the electricity evolved by friction of water and steam against other bodies, Experimental researches in electricity (Lond. Ed. Phil. Mag.) 2 (1843) 106-126. [Back]
  72. P. W. Bridgman, Water, in the liquid and five solid forms, under pressure, Proc. American Acad. Arts Science 47 (1912) 441-558. [Back]
  73. A. T. Poortinga, Long-lived antibubbles: Stable antibubbles through pickering stabilization, Langmuir, 27 (2011) 2138-2141. [Back]
  74. R. Feistel, R. Wielgosz, S. A. Bell, M. F. Camões, J. R. Cooper, P. Dexter, A. G. Dickson, P. Fisicaro, A. H. Harvey, M. Heinonen, O. Hellmuth, H.-J. Kretzschmar, J. W. Lovell-Smith, T. J. McDougall, R. Pawlowicz, P. Ridout, S. Seitz, P. Spitzer, D. Stoica and H. Wolf, Metrological challenges for measurements of key climatological observables: oceanic salinity and pH, and atmospheric humidity. Part 1: overview, Metrologia 53 (2016) R1-R11; R. Pawlowicz, R. Feistel, T. J. McDougall, P. Ridout, S. Seitz and H. Wolf, Metrological challenges for measurements of key climatological observables Part 2: Oceanic salinity, Metrologia 53 (2016) R12-R25; A. G. Dickson, M. F. Camões, P. Spitzer, P. Fisicaro, D. Stoica, R. Pawlowicz and R. Feistel, Metrological challenges for measurements of key climatological observables. Part 3: seawater pH, Metrologia 53 (2016) R26-R39; J. W. Lovell-Smith, R. Feistel, A. H. Harvey, O. Hellmuth, S. A. Bell, M. Heinonen and J. R. Cooper, Metrological challenges for measurements of key climatological observables. Part 4: atmospheric relative humidity, Metrologia 53 (2016) R40-R59. [Back, 2]
  75. Y. Xu and M. Havenith, Perspective: Watching low-frequency vibrations of water in biomolecular recognition by THz spectroscopy, Journal of Chemical Physics,143 (2015) 170901. [Back]  [Back to Top to top of page]
  76. G. V. Barbosa-Cáinovas, A. J. Fontana, Jr., S. J. Schmidt and T. P. Labuza, (Eds.) Water activity in foods: fundamentals and applications, (Blackwell Pub. Ltd., Oxford, 2007). [Back]
  77. B. Slater, A. Michaelides, C. Salzmann and U. Lohmann, A blue-sky approach to understanding cloud formation. Bulletin of the American Meteorological Society, 97 (2016) 1797-1802. [Back]
  78. T. Hama, A. Kouchi and N. Watanabe, Statistical ortho-to-para ratio of water desorbed from ice at 10 kelvin, Science, 351 (2016) 65-67. [Back]
  79. E. A. Zheligovskaya, Structural mechanisms of the Ih–II and II → Ic transitions between the crystalline phases of aqueous ice, Crystallography Rep. 60 (2015) 714-720; originally, E.A. Zheligovskaya, Kristallografiya, 60 (2015) 779-785. [Back]
  80. A. Einstein, Investigations on the theory of the Brownian movement, Ed.with notes R. Fürth, (Dover Pub. Inc., New York, 1956; originally published in 1926). [Back]
  81. A. Perera and R. Mazighi, On the nature of the molecular ordering of water in aqueous DMSO mixtures, J. Chemical Physics, 143 (2015) 154502. [Back]
  82. I-S. Hwang, C-K. Fang, H-C. Ko, C-W. Yang and Y-H. Lu, How nanobubbles nucleate at a hydrophobic/water interface, arXiv:1512.07971 [cond-mat.mes-hall] 25 Dec 2015. [Back]
  83. S. A. Peyman, J. R. McLaughlan, R. H. Abou-Saleh, G. Marston, B. R. G. Johnson, S. Freear, P. L. Coletta, A.F. Markham and S. D. Evans, On-chip preparation of nanoscale contrast agents towards high-resolution ultrasound imaging, Lab on a Chip, 16 (2016) 679-687. [Back]
  84. E. L. Lewis, The practical salinity scale 1978 and its antecedents, IEEE J. Oceanic Engineering, OE-5 (1980) 3-8. [Back]
  85. R. Sender, S. Fuchs and R. Milo, Revised estimates for the number of human and bacteria cells in the body, biorxiv/early/2016/01/06/036103 January 6, 2016. [Back]
  86. J. J. Shephard, S. Klotz and C. G. Salzmann, A new state and structural relaxation pathway of low-density amorphous ice, arXiv:1601.01514 [cond-mat.mtrl-sci] 2016. [Back]
  87. S. A. Lee, N.-J. Tao and A. Rupprecht, A Raman scattering study of the interactions of DNA with its water of hydration, J, Biomol. Struct. Dyn. 31 (2013) 1337-1342. [Back]
  88. D. C. Elton and M. Fernández-Serra, The hydrogen bond network of water supports propagating optical phonon-like modes, Nature, Commun. 7 (2015) 10193; arXiv:1507.06363v3 [cond-mat.soft] 3 Nov 2015; C. Elton and M. Fernández-Serra, Long range optical phonons in liquid water, arXiv:1507.06363 (v3) [cond-mat.soft] Nov 2015. [Back]
  89. M. Kowacz, M. Marchel, J. L. Juknaité, J. M. S. S. Esperança, M. J. Romão, A. L. Carvalho and L. P. N. Rebelo, Infrared light-induced protein crystallization. Structuring of protein interfacial water and periodic self-assembly.
    Journal of Crystal Growth, 457 (2017) 362-368. [Back]
  90. W. J. Rhoads, A. Pruden and M. A. Edwards, Survey of green building water systems reveals elevated water age and water quality concerns, Environ. Science : Water Research, Technol. 2 (2016) 164-173. [Back]
  91. R. C. Harris and B. M. Pettitt, Reconciling the understanding of ‘hydrophobicity’ with physics-based models of proteins, Journal of Physics: Condensed Matter, 28 (2016) 083003. [Back]
  92. D. Ben-Amotz, Hydrophobicambivalence: Teetering on the edge of randomness, Journal of Physical Chemistry Letters, 6 (2015) 1696-1701. [Back]
  93. A. Mohajeri and F. F.Nobandegani, Detection and evaluation of hydrogen bond strength in nucleic acid base pairs, Journal of Physical Chemistry A, 112 (2008) 281-295. [Back]
  94. L. Pfister, H. Savenije and F. Fenicia, Leonardo Da Vinci’s Water Theory: on the origin and fate of water, International Association of Hydrological Sciences, (IAHS Press, Wallingford, 2009), ISBN 978-1-901502-34-3. [Back]
  95. A. E. Smith, L. Z. Zhou, A. H. Gorensek, M. Senske and G. J. Pielak, In-cell thermodynamics and a new role for protein surfaces, Proceedings of the National Academy of Sciences, 113 (2016) 1725-1730; K. A. Sharp, Unpacking the origins of in-cell crowding, Proceedings of the National Academy of Sciences, 113 (2016) 1684-1685; K. A. Sharp, Analysis of the size dependence of macromolecular crowding shows that smaller is better, Proceedings of the National Academy of Sciences, 112 (2015) 7990-7995. [Back]
  96. A. D. Usanov, S. S. Ulyanov, N. S. Ilyukhina, and D. A. Usanov, Monitoring of changes in cluster structures in water under AC magnetic field, Optics and Spectroscopy, 120 (2016) 82-85, originally published Optika i Spektroskopiya, 120 (2016) 94-98. [Back]
  97. T. Budtova and P. Navard, Cellulose in NaOH–water based solvents: a review, Cellulose 23 (2016) 5-55; L. Alves, B. Medronho, F. E. Antunes, D.Topgaard and B. Lindman, Dissolution state of cellulose in aqueous systems. 1. Alkaline solvents, Cellulose 23 (2016) 247–258. [Back]
  98. X. Xu and W. A. Goddard III, Peroxone chemistry: Formation of H2O3 and ring-(HO2)(HO3) from O3/H2O2,  Proceedings of the National Academy of Sciences, 99 (2002) 15308-15312. [Back, 2]
  99. M. C. McCarthy, V. Lattanzi, D. Kokkin, O. Martinez Jr. and J. F. Stanton, On the molecular structure of HOOO Journal of Chemical Physics,136 (2012) 034303. [Back, 2]
  100. M. T. C. Martins-Costa, J. M. Anglada and M. F. Ruiz-López, Structure of hydrogen tetroxide in gas phase and in aqueous environments: relationship to the hydroperoxyl radical self-reaction, Structural Chemistry, 27 (2016) 231-242. [Back, 2] [Back to Top to top of page]

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