Water Structure and Science, References 1101 - 1200

1 - 100

101 - 200

201 - 300

S. J. Hawkes, Strategic consequences from errors in Raoult's law paper, Journal of Chemical Education, 73 (1996) 41. [Back]
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Z. Ao and J. Jane, Characterization and modeling of the A- and B-granule starches of wheat, triticale, and barley, Carbohydrate Polymers 67 (2007) 46-55. [Back]
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R. Souda, Liquid-liquid transition in supercooled water investigated by interaction with LiCl and Xe, Journal of Chemical Physics,125 (2006) 181103. [Back, 2]
M. R. Conde, Properties of aqueous solutions of lithium and calcium chlorides: formulations for use in air conditioning equipment design, International Journal of Thermal Science 43 (2004) 367-382. [Back]
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C. D. Cappa, J. D. Smith, B. M. Messer, R. C. Cohen and R. J. Saykally, Effects of cations on the hydrogen bond network of liquid water: New results from X-ray absorption spectroscopy of liquid microjets, Journal of Physical Chemistry B 110 (2006) 5301-5309. [Back] [Back to Top ]
T. M. Seward, C. M. B. Henderson, O. M. Suleimenov and J. M. Charnock, X-ray absorption spectroscopic studies of halide ion hydration in hydrothermal solutions, Geochim. Cosmochim. Acta 70 (2006) A572. [Back]
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M, Smiechowski and J. Stangret, Proton hydration in aqueous solution: Fourier transform infrared studies of HDO spectra, Journal of Chemical Physics,125 (2006) 204508. [Back]
C. A. Chatzidimitriou-Dreismann, Attosecond quantum entanglement in neutron Compton scattering from water in the keV range, Physica B, 385-386 (2006) 1-6. [Back]
D. Laage and J, T. Hynes, Do more strongly hydrogen-bonded water molecules reorient more slowly ? Chemical Physics Letters, 433 (2006) 80-85. [Back]
P. L. Privalov, A. I. Dragan, C. Crane-Robinson, K. J. Breslauer, D. P. Remeta and C. A. S. A. Minetti, What drives proteins into the major or minor grooves of DNA? Journal of Molecular Biology, 365 (2007) 1-9. [Back]
T. M. Kaethner and A. D. Bangham, Selective compartmentation of the hydration products of carbon dioxide in liposomes, and its role in regulating water movement, Biochim Biophys. Acta 468 (1977) 157-161. [Back]
S. Jenkins, S. R. Kirk and P. W. Ayers, The chemical character of very high-pressure ice phases, in Physics and Chemistry of Ice, ed. W. Kuhs (Royal Society of Chemistry, Cambridge, 2007) pp. 265-272. [Back]
H. W. Kreuzer-Martin, M. J. Lott, J. R. Ehleringer and E. L. Hegg, Metabolicprocesses account for the majority of the intracellular water in log-phase Escherichia coli cells as revealed by hydrogen isotopes, Biochemistry 45 (2006), 13622-13630. [Back]
J. Löwe, H. Li, K. H. Downing and E. Nogales, Refined structure of αβ-tubulin at 3.5 Å resolution, Journal of Molecular Biology, 313 (2001) 1045-1057. [Back]
H. Herrmann and U. Aebi, Intermediate filaments: Molecular structure, assembly mechanism, and integration into functionally distinct intracellular scaffolds, Annual Review of Biochemistry, 73 (2004) 749-789. [Back]
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V. Elia, L. Elia, M. Marchese, M. Montanino, E. Napoli, M. Niccoli, L. Nonatelli and F. Savarese, Interaction of “extremely diluted solutions” with aqueous solutions of hydrochloric acid and sodium hydroxide. A calorimetric study at 298 K, Journal of Molecular Liquids, 130 (2007) 15-20. V. Elia, E. Napoli and R. Germano, The “memory of water”: an almost deciphered enigma. Dissipative structures in the extremely diluted aqueous solutions of the homeopathic medicine, Homeopathy, 96 (2007) 163-169. [Back]
H. Hirai, T. Tanaka, T. Kawamura, Y. Yamamoto and T. Yagi, Structural changes in gas hydrates and existence of a filled ice structure of methane hydrate above 40 GPa, Journal of Physical Chemistry Solids 65 (2004) 1555-1559. [Back]
WHO, Nutrients in drinking water, (World Health Organization, 2005). [Back]
W.-B. Ko, Y.-H. Park and M.-K. Jeong, Preparation of a water-soluble fullerene [C₇₀] under
ultrasonic irradiation, Ultrasonics 44 (2006) e367-e369. [Back]
(a) I. A. Stepanov, (δS/δV)_U is negative for substances with negative thermal expansion, In: Trends in Chemical Physics Research, Ed. A. N. Linke (Nova Science, Publ. Inc., Hauppauge, New York, 2006) pp. 129-134; (b) I. A. Stepanov, Thermodynamics of iodine under high pressure at low temper atures, Physica B 349 (2004) 251-253; (c) I. A. Stepanov, Calculation of phase transitions in ice which do not obey the Clapeyron equation, Chemical Physics Research Trends, 252, Ed. S. V. Arnold (Nova Science, Publ. Inc., Hauppauge, New York, 2007) pp. 335-341. [Back, 2]
M. Sedlák, Large-scale supramolecular structure in solutions of low molar mass compounds and mixtures of liquids: I. Light scattering characterization, Journal of Physical Chemistry B 110 (2006) 4329-4338; M. Sedlák, Large-scale supramolecular structure in solutions of low molar mass compounds and mixtures of liquids: II. Kinetics of theformation and long-time stability, Journal of Physical Chemistry B 110 (2006) 4339-4345; M. Sedlák, Large-scale supramolecular structure in solutions of low molar mass compounds and mixtures of liquids: III. Correlation with molecular properties and interactions, Journal of Physical Chemistry B 110 (2006) 13976-13984. [Back, 2, 3, 4, 5]
B. Li, D. O. V. Alonso and V. Daggett, The molecular basis for the inverse temperature transition of elastin, Journal of Molecular Biology, 305 (2001) 581-592. [Back]
S. M. Pershin, Two-liquid water, Physics of Wave Phenomena, 13 (2005) 192-208; S. M. Pershin. Harmonic oscillations of the concentration of H-bonds in liquid water, Laser Phys,. 16 (2006) 1184-1190. [Back, 2, 3] [Back to Top ]
S. C. Santucci, D. Fioretto, L. Comez, A. Gessini and C. Masciovecchio, Is there any fast sound in water? Physical Review Letters, 97 2006) 225701. [Back, 2]
O. I. Povarova, I. M. Kuznetsova and K. K. Turoverov, Different disturbances – one pathway of protein unfolding: Actin folding-unfolding and misfolding, Cell Biology International, 31 (2007) 405-412. [Back]
L. R. Pratt, A. Pohorille and D. Asthagir, What is special about water as a matrix of life? (2007) arXiv:physics/0701282v1. [Back]
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O. Andersson, Dielectric relaxation of low-density amorphous ice under pressure, Physical Review Letters 98 (2007) 057602. [Back, 2]
A. Hildebrandt, R. Blossey, S. Rjasanow, O. Kohlbacher and H.-P. Lenhof, Electrostatic potentials of proteins in water: a structured continuum approach, Bioinformatics 23 (2006) e99–e103. [Back]
A. O. Phillips and G. O. Phillip., Biofunctional behaviour and health benefits of a specific gum arabic, Food Hydrocolloids 25 (2011) 165-169. [Back]
X. Tadeo, M. Pons and O. Millet, Influence of the Hofmeister anions on protein stability as studied by thermal denaturation and chemical shift perturbation, Biochemistry 46 (2007) 917-923. [Back]
M. Leetmaa, M. Ljungberg, H. Ogasawara, M. Odelius, L.-Å. Näslund, A. Nilsson and L. G. M. Pettersson, Are recent water models obtained by fitting diffraction data consistent with infrared/Raman and x-ray absorption spectra? Journal of Chemical Physics,125 (2006) 244510. [Back]
O. Andersson, Relaxation time of water’s high-density amorphous ice phase, Physical Review Letters 95 (2005) 205503; O. Andersson and A. Inaba, Dielectric properties of high-density amorphous ice under pressure, Physical Review, B 74 (2006) 184201. [Back]
O. N. Pestova, Yu. P. Kostikov and M. K. Khripun, X-ray phase analysis of structure of water salt NaCl-H₂O and KCl-H₂O, Russian J.ournal of Applied Chemistry, 77 (2004) 1066-1069. [Back]
A. I. Erokhin, Water structure and supergigahertz phonons, Journal of Russian Laser Research, 23 (2002) 369-380. [Back]
J.-P. Luminet, J. Weeks, A. Riazuelo, R. Lehoucq and J.-P. Uzan, Dodecahedral space topology as an explanation for weak wide-angle temperature correlations in the cosmic microwave background, Nature, 425 (2003) 593-595; C. Seife, Polyhedral model gives the universe an unexpected twist, Science, 302 (2003) 209; N. J. Cornish, D. N. Spergel, G. D. Starkman and E. Komatsu, Constraining the topology of the Universe, Physical Review Letters 92(2004) 201302; J. Weeks and J. Gundermann, Dodecahedral topology fails to explain quadrupole-octupole alignment, arXiv:astro-ph/0611640 (2006). [Back]
H. L. Bagger, C. C. Fuglsang and P. Westh, Hydration of a glycoprotein: relative water affinity of peptide and glycan moieties, Eur. Biophysical Journal, 35 (2006) 367-371. [Back]
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E. V. Ivanov, E. J. Lebedeva, V. K. Abrosimov and N. G. Ivanova, Structural contribution to the effect of hydrophobic hydration of noble gases, J. Struct. Chem. 46 (2005) 253-263; E. V. Ivanov and V. K. Abrosimov, Estimation of solubility and thermodynamic characteristics of solvation of radon in deuterated water at 0.1 MPa and 278-318 K, Radiochemistry,48 (2006) 244-248. [Back, 2]
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Y. Kameda, M. Sasaki, M. Yaegashi, K. Tsuji, S. Oomori, S. Hino and T. Usuki, Hydration structure around the carboxyl group studied by neutron diffraction with ¹²C/¹³C and H/D isotopic substitution methods, Journal of Solution Chemistry, 33 (2004) 733-745. [Back]
R. D. Oparin, M. V. Fedotova and V. N. Trostin, Relationship between the structural state of water and the character of ion hydration in concentrated 1:1 aqueous solutions of electrolytes in extreme conditions, Journal of Structural Chemistry, 43 (2002) 467-472. [Back]
Y. Hayashi, Y. Katsumoto, S. Omori, N. Kishii and Akio Yasuda, Liquid structure of the urea-water system studied by dielectric spectroscopy, Journal of Physical Chemistry B 111 (2007) 1076-1080. [Back]
F. Jin, J. Ye, L. Hong, H. Lam and C. Wu, Slow relaxation mode in mixtures of water and organic molecules: supramolecular structures or nanobubbles? Journal of Physical Chemistry B, 111 (2007) 2255-2261. [Back, 2, 3, 4, 5]
S. Shimokawa1, T. Yokono, M. Yokono, T. Yokokawa and T. Araiso, Effect of sunlight on liquid structure of water, Jap.anese Journal of Applied Physics, 46 (2007) 333-335. [Back, 2]
D. Assafrão and J. R. Mohallem, The isotopic dipole moment of HDO, Journal of Phys. B: At. Mol. Opt. Phys. 40 (2007) F85-F91. [Back]
A. Poynor, L. Hong, I. K. Robinson and S. Granick, How water meets a hydrophobic surface, Physical Review Letters 97 (2006) 266101. [Back] [Back to Top ]
(a) N. Y. Sidorova and D. C. Rau, Role of water in the EcoRI-DNA Binding, In Restriction Nucleases, Springer Verlag, ed. A. M. Pingoud, Nucleic Acids and Molecular Biology 14 (2004) 319-335; (b) N. Y. Sidorova and D. C. Rau, Differences between EcoRI nonspecific and ‘‘Star’’ sequence complexes revealed by osmotic stress, Biophysical Journal, 87 (2004) 2564-2576; (c) J. Sun, H. Viadiu, A. K. Aggarwal and H. Weinstein, Energetic and structural considerations for the mechanism of protein sliding along DNA in the nonspecific BamHI-DNA complex, Biophysical Journal, 84 (2003) 3317-3325; A. Marcovitz, A. Naftaly and Y. Levy, Water organization between oppositely charged surfaces: Implications for protein sliding along DNA, Journal of Chemical Physics,142 (2015) 085102. [Back]
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L. Hecht, A Keplerian solution to the quasicrystal problem, 21st Century Science Technol. 18 (2005) 6-9; C. Xiao, N. Fujita, K. Miyasaka, Y. Sakamoto and O. Terasaki, Dodecagonal tiling in mesoporous silica, Nature, 487(2012) 349-353. [Back]
A. Müller and S. Roy, En route from the mystery of molybdenum blue via related manipulatable building blocks to aspects of materials science, Coord. Chemical Reviews, 245 (2003) 153–166. [Back]
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A. Oleinikova, H. Weingärtner, M. Chaplin, E. Diemann, H. Bögge and A. Müller, Self-association based on glue type interfacial/confined highly structured water leads to {Mo₁₅₄}_{≈ 1165} super-clusters: A dielectric relaxation study,ChemPhysChem 8 (2007) 646-649. [Back]
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M. F. Chaplin, Water structuring at colloidal surfaces, In. Surface Chemistry in Biomedical and environmental Science, Ed. J. Blitz and V. Gun’ko, NATO Security Through Science, Series, Springer (2006) pp. 1-10. [Back, 2]
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K. D. Collins, G. W. Neilson and J. E. Enderby, Ions in water: Characterizing the forces that control chemical processes and biological structure, Biophysical Chemistry, 128 (2007) 95-104. [Back, 2, 3]
V. A. Shepherd, The cytomatrix as a cooperative system of macromolecular and water networks, Curr. Topics Develop. Biol. 75 (2006) 171-223. [Back]
S. I. Mussatto and I. M. Mancilha, Non-digestible oligosaccharides: A review, Carbohydrate Polymers 68 (2007) 587-559. [Back]
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Z. Szolnoki, A dynamically changing intracellular water network serves as a universal regulator of the cell: The water-governed cycle, Biochemical and Biophysical Research Communications, 357 (2007) 331-334. [Back]
D. Liu, Y. Zhang, C.-C. Chen, C.-Y. Mou, P. H. Poole and S.-H. Chen, Observation of the density minimum in deeply supercooled confined water, Proceedings of the National Academy of Sciences, 104 (2007) 9570-9574; arXiv:0704.2221. [Back]
U. Heugen, G. Schwaab, E. Bründermann, M. Heyden, X. Yu, D. M. Leitner and M. Havenith, Solute-induced retardation of water dynamics probed directly by terahertz spectroscopy, Proceedings of the National Academy of Sciences, 103 (2006) 12301-12306. [Back]
S.-H. Chen, L. Liu, E. Fratini, P. Baglioni, A. Faraone and E. Mamontov, Observation of fragile-to-strong dynamic crossover in protein hydration water, Proceedings of the National Academy of Sciences, 103 (2006) 9012-9016. J. Swenson1, H. Jansson, J. Hedström and R. Bergman, Properties of hydration water and its role in protein dynamics, Journal of Physics: Condensed Matter, 19 (2007) 205109; F. Mallamace, P. Baglioni, C. Corsaro, S.-H. Chen, D. Mallamace, C. Vasi and H. E. Stanley, The influence of water on protein properties, Journal of Chemical Physics,141 (2014) 165104. [Back]
O. Markovitch and N. Agmon, Structure and energetics of the hydronium hydration shells, Journal of Physical Chemistry A 111 (2007) 2253-2256. [Back]
X. Xu, R. P. Muller and W. A. Goddard, The gas phase reaction of singlet dioxygen with water: A water-catalyzed mechanism, Proceedings of the National Academy of Sciences, 99 (2002) 3376-3381. [Back]
C. A. Angell, Glass transition dynamics in water and other tetrahedral liquids: ‘order–disorder’ transitions versus ‘normal’ glass transitions, Journal of Physics: Condensed Matter, 19 (2007) 205112. [Back, 2, 3] [Back to Top ]