Water Structure and Science, References 1501 - 1600

1 - 100

101 - 200

201 - 300

E. Dickinson, Hydrocolloids as emulsifiers and emulsion stabilizers, Food Hydrocolloids, 23 (2009) 1473-1482. [Back]
P. Larouche, J.-J. Max and C. Chapados, Isotope effects in liquid water by infrared spectroscopy. II. factor analysis of the temperature effect on H₂O and D₂O, Journal of Chemical Physics, 129 (2008) 064503. The conclusions in this work was shown to be compatible with the works by Y. Maréchal, Infrared spectra of water. I. Effect of temperature and of H/D isotopic dilution Journal of Chemical Physics, 95 (1991) 5565-5573, and Zelsmann [177]. [Back]
M. Xu, J. P. Larentzos, M. Roshdy, L. J. Criscenti and H. C. Allen, Aqueous divalent metal–nitrate interactions: hydration versus ion pairing, Physical Chemistry Chemical Physics, 10 (2008) 4793-4801. [Back]
L. E. Bove, S. Klotz, A. Paciaroni and F. Sacchetti, Anomalous proton dynamics in ice at low temperatures, Phys. Research Letters, 103 (2009) 165901; E.-S. Moon, C.-W. Lee and H. Kang, Proton mobility in thin ice films: a revisit, Physical Chemistry Chemical Physics, 10 (2008) 4814-4816. [Back, 2, 3]
J. K. Beattie, The intrinsic charge at the hydrophobe/water interface, In Colloid Stability - The Role of Surface Forces, Part II, Vol 2, ed. T. F. Tadros (Wiley-VCH:Weinheim, 2007) pp. 153-164. [Back]
V. P. Korolev, Properties and structure of aqueous urea up to the singular temperature of overcooled water: Isotopy effects, J. Struct. Chem. 49 (2008) 668-678. [Back]
A. A. Galkin and V. V. Lunin, Subcritical and supercritical water: a universal medium for chemical reactions, Russian Chemical Reviews, 74 (2005) 21-35; G. Brunner, Near critical, supercritical water. Part I. Hydrolytic and hydrothermal processes, J. Supercrit. Fluids 47 (2009) 373-381; G. Brunner, Near, supercritical water. Part II. Oxidative processes, J. Supercrit. Fluids 47 (2009) 382-390 [Back]
M. Bernabei, A. Botti, F. Bruni, M. A. Ricci and A. K. Soper, Percolation and three-dimensional structure of supercritical water, Physical Review, E 78 (2008) 021505. [Back]
E. F. Aziz, N. Ottosson, M. Faubel, I. V Hertel and B. Winter, Interaction between liquid water and hydroxide revealed by core-hole de-excitation, Nature, 455 (2008) 89-91. [Back]
C. D. Cappa, J. D. Smith, B. M. Messer, R. C. Cohen and R. J. Saykally, Nature, of the aqueous hydroxide ion probed by X-ray absorption spectroscopy, Journal of Physical Chemistry A 111 (2007) 4776-4785. [Back]
J. J. Novoa, F. Mota, C. Perez del Valle and M. Planas, Structure of the first solvation shell of the hydroxide anion. A model study using OH⁻(H₂O)_n (n = 4, 5, 6, 7, 11, 17) clusters, Journal of Physical Chemistry A, 101 (1997) 7842-7853. [Back]
M. Smiechowski and J. Stangret, Hydroxide ion hydration in aqueous solutions, Journal of Phys. Chem. A 111 (2007) 2889-2897. [Back]
M. Meot-Ner and C. V. Speller, Filling of solvent shells about ions. 1. Thermochemical criteria and the effects of isomeric clusters, J Phys Chem. 90 (1986) 6616-6624. [Back]
W. Li, Y. Zheng and R. Cheng, Transition of hydration states of poly(vinyl alcohol) in aqueous solution, Polymer 49 (2008) 4740-4744. [Back]
J. Thøgersen, S. K. Jensen, C. Petersen, S. R. Keiding, Reorientation of hydroxide ions in water, Chemical Physics Letters, 466 (2008) 1-5. [Back]
P. Shin, Water, water, everywhere, Caveat emptor (buyer beware) The Latest Magazine (2004). [Back]
J. E. B. Randles, Structure at the free surface of water and aqueous electrolyte solutions, Physical Chemistry Liq. 7 (1977) 107-179. [Back]
I. Langmuir, Repulsive forces between charged surfaces in water, and the case of the Jones-Ray effect, Science, 88 (1937) 430-432. [Back]
I. Vavruch, Thermodynamic method for the evaluation of the pressure coefficient of a liquid-gas interface, Langmuir, 11 (1995) 2843-2844. [Back]
G. N. I. Clark, G. L. Hura, J. Teixeira, A. K. Soper and T. Head-Gordon, Small-angle scattering and the structure
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B. Schwager and R. Boehler, H₂O: another ice phase and its melting curve, High Pressure Research 28 (2008) 431-433. [Back, 2]
X. F. Pang and B. Deng, Investigation of changes in properties of water under the action of a magnetic field, Science in China Series G: Physics, Mechanics & Astronomy, 51(2008) 1621-1632; (some of the data in this paper is questionable). [Back]
R. F. G. J. King, C. Cooke, S. Carroll and J. O'Hara, Estimating changes in hydration status from changes in body mass: Considerations regarding metabolic water and glycogen storage, J. Sports Science 26 (2008) 1361-1363. [Back]
L. Rutten, E. Stolper, D. Spence, D. Reilly and T. Nicolai, Proof against Homeopathy does in fact support Homeopathy, ResearchGate (2006) [accessed Nov 23, 2015]; A. L. B. Rutten and C. F. Stolper, The 2005 meta-analysis of homeopathy: the importance of post-publication data, Homeopathy, 97 (2008) 169-177; P. Wilson, Analysis of a re-analysis of a meta-analysis; in defence of Shang et al. Homeopathy, 98 (2009) 127-128; A. L. B. Rutten and C. F. Stolper, Reply to Wilson, Homeopathy, 98 (2009) 129; R. Lüdtke and A. L. B. Rutten, The conclusions on the effectiveness of homeopathy highly depend on the set of analyzed trials, J. Clin. Epidemiology 61 (2008) 1197-1204. [Back]
E. Sedlák, L. Stagg and P. Wittung-Stafshede, Effect of Hofmeister ions on protein thermal stability: Roles of ion
hydration and peptide groups? Arch. Biochem. Biophys. 479 (2008) 69-73. [Back] [Back to Top ]
G. O. Phillips, Giving nature a helping hand, in Gums and Stabilisers for the Food Industry 14, Ed P. A. Williams and G. O. Phillips (RSC Special publication 316, Cambridge, 2008) pp. 3-28. [Back]
J. Kang, S. W. Cui, J. Chen, G. O. Phillips, Y. Wu and Q. Wang, New studies on gum ghatti (Anogeissus latifolia) part I. Fractionation, chemical and physical characterization of the gum, Food Hydrocolloids 25 (2011) 1984-1990; J. Kang, S. W. Cui, G. O. Phillips, J. Chen, Q. Guo and Q. Wang, New studies on gum ghatti (Anogeissus latifolia) part II. Structure characterization of an arabinogalactan from the gum by 1D, 2D NMR spectroscopy and methylation analysis, Food Hydrocolloids 25 (2011) 1991-1998; J. Kang, S. W. Cui, G. O. Phillips, J. Chen, Q. Guo and Q. Wang, New studies on gum ghatti (Anogeissus latifolia) Part III: Structure characterization of a globular polysaccharide fraction by 1D, 2D NMR spectroscopy and methylation analysis, Food Hydrocolloids 25 (2011) 1999-2007. [Back]
T. Paeschke and W. R. Aimutis, The effect of hydrocolloids on satiety, and weight loss: a review, in Gums and Stabilisers for the Food Industry 14, Ed P. A. Williams and G. O. Phillips (RSC Special publication 316, Cambridge, 2008) pp. 313-325; S. Fiszman and P. Varela, The role of gums in satiety/satiation. A review, Food Hydrocolloids 32 (2013) 147-154. [Back]
D. Pan, L.-M. Liu, G. A. Tribello, B. Slater, A. Michaelides and E. Wang, Surface energy and surface proton order of ice Ih, Physical Review Letters 101 (2008) 155703. [Back]
K. Stokely, M. G. Mazzaa, H. E. Stanley and G. Franzese, Effect of hydrogen bond cooperativity on the behavior of water, Proceedings of the National Academy of Sciences, 107 (2010) 1301-1306; arXiv:0805.3468v2, [cond-mat.soft] (2008). [Back, 2, 3]
H. Lu, Y. Wang, Y. Wu, P. Yang, L. Li and S, Li, Hydrogen-bond network and local structure of liquid water: An atoms-in-molecules perspective, Journal of Chemical Physics,129 (2008) 124512. [Back]
D. E. Yount, Skins of varying permeability: A stabilization mechanism for gas cavitation nuclei, J. the Acoustical Society of America, 65 (1979) 1429-1439. [Back]
K. Winkel, M. S. Elsaesser, E. Mayer and T. Loerting, Water polyamorphism: Reversibility and(dis)continuity, Journal of Chemical Physics,128 (2008) 044510. [Back]
K. Winkel, M. Bauer, E. Mayer, M. Seidl, M. S. Elsaesser and T. Loerting, Structural transitions in amorphous H₂O
and D₂O: the effect of temperature, Journal of Physics: Condensed Matter, 20 (2008) 494212. [Back]
M. Lund and P. Jungwirth, Patchy proteins, anions and the Hofmeister series, Journal of Physics: Condensed Matter, 20 (2008) 494218. [Back]
M. Pastorczak, M. Kozanecki and J. Ulanski, Raman resonance effect in liquid water, Journal of Physical Chemistry A 112 (2008) 10705-10707; Y. Wang, F. Li, Z. Dou, C. Sun, W. Fang and Z. Men, Resonance enhancement stimulated Raman scattering of O–H stretching vibration in water molecule, Journal of Molecular Liquids, 324 (2021) 114722. [Back]
M. Scheel, R. Seemann, M. Brinkmann, M. DiMichiel, A. Sheppard and S. Herminghaus, Liquid distribution and cohesion in wet granular assemblies beyond the capillary bridge regime, Journal of Physics: Condensed Matter, 20 (2008) 494236. [Back]
Y. Kajihara, M. Inui, S. Hosokawa, K. Matsuda and A. Q. R. Baron, Dynamical inhomogeneity of liquid Te near the melting temperature proved by inelastic x-ray scattering measurements,Journal of Physics: Condensed Matter, 20 (2008) 494244. [Back]
V. P. Melnikov, A. N. Nesterov, A. M. Reshetnikov and A. G. Zavodovsky, Evidence of liquid water formation during methane hydrates dissociation below the ice point, Chemical Engineering Science, (2008), doi:10.1016/j.ces.2008.10.067. [Back]
D. Banerjee and S. V. Bhat, Spin probe ESR signature of freezing in water: Is it global or local? arXiv:0810.4682v1 [cond-mat.soft] (2008). [Back]
I. Brovchenko and A. Oleinikova, Which properties of a spanning network of hydration water enable biological functions? ChemPhysChem 9 (2008) 2695-2702. [Back]
I. Brovchenko and A. Oleinikova, Multiple phases of liquid water ChemPhysChem 9 (2008) 2660-2675. [Back]
A. K. Soper, Structural transformations in amorphous ice and supercooled water and their relevance to the phase diagram of water, Molecular Physics, 106 (2008) 2053-2076. [Back]
R. J. Nelmes, J. S. Loveday, T. Strässle, C. L. Bull, M. Guthrie, G. Hamel and S. Klotz, Annealed high-density amorphous ice under pressure, Nature Physics, 2 (2006) 414-418; P. H. Handle, M. Seidl and T. Loerting, Relaxation time of high-density amorphous ice, PPhysical Review Letters, 108 (2012) 225901; G. P. Johari, Comment on: “Relaxation time of high-density amorphous ice, by P. H. Handle, M. Seidl, T. Loerting; Physical Review Letters, 108 (2012) 225901”. The α-relaxation time of strained state of high-density amorphous ice at T < Tg, its Tg, and its transformations, Thermochimica Acta, 589 (2014) 76-84; P. H. Handle, M. Seidl, V. Fuentes-Landete and T. Loerting, Ex situ studies of relaxation and crystallization in high-density amorphous ice annealed at 0.1 and 0.2 GPa Includes response to: “Comment on: ‘Relaxation time of high-density amorphous ice’ ” by G. P. Johari, Thermochimica Acta, 636 (2016) 11-22. [Back]
M. Bauer, M. S. Elsaesser, K. Winkel, E. Mayer and T. Loerting, Compression-rate dependence of the phase transition from hexagonal ice to ice II and/or ice III, Physical Review, B 77 (2008) 220105. [Back]
D. T. Bowron, J. L. Finney, A. Hallbrucker, I. Kohl, T. Loerting, E. Mayer and A. K. Soper, The local and intermediate range structures of the five amorphous ices at 80 K and ambient pressure: A Faber-Ziman and Bhatia-Thornton analysis, J. Chemical Physics, 125 (2006) 194502. [Back]
G. Jákli, Molar volumes of LiI in H₂O and D₂O solutions; Structural hydration interactions, Journal of Chemical Thermodynamics, 41 (2009) 62-68. [Back]
E. Ascolese and G. Graziano, On the cold denaturation of globular proteins, Chemical Physics Letters, 467 (2008) 150-153. [Back]
T. Nakayama, THz frequency dynamics of network/guest atom systems: Liquid water, clathrates, and network glasses, Nuclear Instruments and Methods in Physics Research A 600 (2009) 266-268. [Back]
K. Ovchinnikova and G. H. Pollack, Can water store charge? Langmuir, 25 (2009) 542-547; H. R. Corti and A. J. Colussi, Do concentration cells store charge in water? Comment on Can water store charge? Langmuir, 25 (2009) 6587-6589; K. Ovchinnikova and G. H. Pollack, Response to comment on ¨Can Water Store Charge? Langmuir25(2009) 11202; H. R. Corti and A. J. Colussi, Response to Reply to Comment on Can water store charge? Langmuir, 25 (2009) 11203. [Back] [Back to Top ]
V. Buch, H. Groenzin, I. Li, M. J. Shultz and E. Tosatti, Proton order in the ice crystal surface, Proceedings of the National Academy of Sciences, 105 (2008) 5969-5974. [Back]
J.-L. Demangeat, NMR water proton relaxation in unheated and heated ultrahigh aqueous dilutions of
histamine: Evidence for an air-dependent supramolecular organization of water. Journal of Molecular Liquids, 144 (2009) 32-39; J.-L. Demangeat, NMR relaxation evidence for solute-induced nanosized superstructures in ultramolecular aqueous dilutions of silica–lactose, Journal of Molecular Liquids, 155 (2010) 71-79; J.-L. Demangeat, Gas nanobubbles and aqueous nanostructures: the crucial role of dynamization, Homeopathy, 104 (2015) 101-115. [Back]
E. A. Disalvo, F. Lairion, F. Martini, E. Tymczyszyn, M. Frías, H. Almaleck and G. J. Gordillo, Structural and functional properties of hydration and confined water in membrane interfaces, Biochimica et Biophysica Acta, Biomembranes 1778 (2008) 2655-2670. [Back, 2]
J. Song, Insight into “Insoluble Proteins” with pure water, FEBS Letters 583 (2009) 953-959. [Back]
B. M. Auer and J. L. Skinner, Water: hydrogen bonding and vibrational spectroscopy, in the bulk liquid and
at the liquid/vapor interface, Chemical Physics Letters, 470 (2009) 13-20. [Back]
L. Copeland, J. Blazek, H. Salman and M. C. Tang, Form and functionality of starch, Food Hydrocolloids 23 (2009) 1527-1534. [Back]
T. Tokushima, Y. Harada, O. Takahashi, Y. Senba, H. Ohashi, L. G. M. Pettersson, A. Nilsson and S. Shin, High resolution X-ray emission spectroscopy of liquid water: The observation of two structural motifs, Chemical Physics Letters, 460 (2008) 387-400. [Back]
C. J. Edmonds and D. Burford, Should children drink more water? The effects of drinking water on cognition in children, Appetite 52 (2008) 776-779; C. J. Edmonds and B. Jeffes, Does having a drink help you think? 6–7-Year-old children show improvements in cognitive performance from baseline to test after having a drink of water, Appetite 53 (2009) 469-472. [Back]
Y. Marcus, On water structure in concentrated salt solutions, J. Solution Chemistry, 38 (2009) 513-516. [Back]
A. Herráez, R. M. Hanson and L. Glasser, Interactive 3D phase diagrams using Jmol, Journal of Chemical Education, 86 (2009) 566. [Back, 2]
C. G. Elles, C. A. Rivera, Y. Zhang, P. A. Pieniazek and S. E. Bradforth, Electronic structure of liquid water from polarization-dependent two-photon absorption spectroscopy, Journal of Chemical Physics,130 (2009) 084501. [Back]
M. J. Paterson, J. Kongsted, O. Christiansen, K. V. Mikkelsen and C. B. Nielsen, Two-photon absorption cross sections: An investigation of solvent effects. Theoretical studies on formaldehyde and water Journal of Chemical Physics,125 (2006) 184501. [Back]
H. Yada, M. Nagai and K. Tanaka, The intermolecular stretching vibration mode in water isotopes investigated with broadband terahertz time-domain spectroscopy, Chemical Physics Letters, 473 (2009) 279-283. [Back, 2]
C. J. Wu, L. E. Fried, L. H. Yang, N. Goldman and S. Bastea, Catalytic behaviour of dense hot water, Nature Chemistry, 1 ( 2009) 57-62. [Back]
B. Nguyen, S. Neidle and W. D. Wilson, A role for water molecules in DNA-ligand minor groove recognition, Accounts of Chemical Research, 42 (2009) 11-21. [Back]
R. S. Varma, Clean chemical synthesis in water, Org. Chem. Highlights (2007), February. [Back]
Y. Marcus, Effect of ions on the structure of water: Structure making and breaking, Chemical Reviews, 109 (2009) 1346-1370. [Back]
A. K. Lyashchenko and G. G. Malenkov, X-ray investigation of ammonium fluoride-ice systems, Journal of Structural Chemistry, 10 (1969) 616-617, Z. Strukt. Khim. 10 (1969) 724-725; B. Barbiellini, Ch. Bellin, G. Loupias, T. Buslaps and A. Shukla, How the hydrogen bond in NH₄F is revealed with Compton scattering, Physical Review B, 79 (2009) 155115. [Back]
C. Corsaro, J. Spooren, C. Branca, N. Leone, M. Broccio, C. Kim, S.-H. Chen, H. E. Stanley and F. Mallamace, Clustering dynamics in water/methanol mixtures: A nuclear magnetic resonance study at 205 K<T<295 K, Journal of Physical Chemistry B 112 (2008) 10449-10454. [Back]
V. M. F. Gonçalves, A. Reis, M. R. M. Domingues, J. A. Lopes-da-Silva, A. M. Fialho, L. M. Moreira, I.l Sá-Correia and M. A. Coimbra, Structural analysis of gellans produced by Sphingomonas elodea strains by electrospray tandem mass spectrometry, Carbohydrate Polymers 77 (2009) 10-19. [Back]
V. L. Campo, D. F. Kawano, D. B. da Silva Jr. and I. Carvalho, Carrageenans: Biological properties, chemical modifications and structural analysis – A review, Carbohydrate Polymers 77 (2009) 167-180; J. Necas and L. Bartosikova, Carrageenan: a review, Veterinarni Medicina, 58 (2013) 187-205. [Back]
A. F. Goncharov, C. Sanloup, N. Goldman, J. C. Crowhurst, S. Bastea, W. M. Howard, L. E. Fried, N. Guignot, M. Mezouar and Y. Meng, Dissociative melting of ice VII at high pressure, Journal of Chemical Physics, 130 (2009) 124514. [Back]
A. Cavagna, Supercooled liquids for pedestrians, Physics Reports, 476 (2009) 51-124; arXiv:0903.4264v1 [cond-mat.stat-mech]. [Back]
H.-J. Chung, Q. Liu, Impact of molecular structure of amylopectin and amylose on amylose chain
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X. Chen, T. Yang, S. Kataoka, and P. S. Cremer, Specific ion effects on interfacial water structure near
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G. Astray, C. Gonzalez-Barreiro, J.C. Mejuto, R. Rial-Otero, J. Simal-Gándara, A review on the use of cyclodextrins in foods, Food Hydrocolloids, 23 (2009) 1631-1640. [Back]
(a) M. Kinoshita, Roles of translational motion of water molecules in sustaining life, Fronteirs Biosci. 14 (2009) 3419-3454; (b) M. Kinoshita, Importance of translational entropy of water in biological self-assembly processes like protein folding, International Journal of Molecular Sciences, 10 (2009) 1064-1080. [Back, 2]
M. Kinoshita and T. Yoshidome, Molecular origin of the negative heat capacity of hydrophilic hydration, Journal of Chemical Physics,130 (2009)) 144705. [Back]
K. T. Wikfeldt, M. Leetmaa, M. P. Ljungberg, A. Nilsson and L. G. M. Pettersson, On the range of water structure models compatible with X-ray and neutron diffraction data, Journal of Physical Chemistry B, 113 (2009) 6246-6255. [Back]
W. Bailey and K. Sicard, Water fluoridation status: Where are we? Dental Abstr. 54 (2009) 116-117. [Back]
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C. G. Salzmann, P. G. Radaelli, E. Mayer and J. L. Finney, Ice XV: a new thermodynamically stable phase of ice, Physical Review Letters, 103, (2009) 105701; arXiv:0906.2489v1. [Back, 2, 3]
H. R. Corti, Comments on “New physico-chemical properties of extremely dilute solutions. A conductivity study
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H. Chen, J. Xu and G. A. Voth, Unusual hydrophobic interactions in acidic aqueous solutions, Journal of Physical Chemistry B, 113 (2009) 7291-7297. [Back]
S. Chirumbolo M. Brizz,i R. Ortolani, A. Vella and P. Bellavite, Received:Inhibition of CD203c membrane up-regulation in human basophils by high dilutions of histamine: a controlled replication study, Inflamm. Research 58 (2009) 755-764; Y. Almirantis and K. Tsitinidis, Ultra-high dilutions and homeopathy: can they be explained without non-local theory? Homeopathy, 107 (2018) 189-195. [Back]
F. Alimi, M. M. Tlili, M. B. Amor, G. Maurin, C. Gabrielli, Effect of magnetic water treatment on calcium carbonate precipitation. Influence of the pipe material, Chem. Eng. Processing 48 (2009) 1327-1332. [Back]
E. Gojło, M. Smiechowski, A. Panuszko and J. Stangret, Hydration of carboxylate anions: Infrared spectroscopy of aqueous solutions, Journal of Physical Chemistry B 113 (2009) 8128-8136. [Back]
V. L. Voeikov and E. Del Giudice, Water respiration - The basis of the living state, Water 1 (2009) 52-75. [Back]
T. Yokono, S. Shimokawa, M. Yokono and H. Hattori, infrared spectroscopic study of structural change of liquid water induced by sunlight irradiation, Water 1 (2009) 29-34. [Back, 2]
K. Sieg, E. Starokozhev, M. U. Schmidt and W. Püttmann, Inverse temperature dependence of Henry’s law coefficients for volatile organic compounds in supercooled water, Chemosphere 77 (2009) 8-14. [Back]
M. Chaplin, Theory vs experiment: What is the surface charge of water? Water 1 (2009) 1-28. [Back, 2]
M. F. Chaplin, Structuring and behaviour of water in nanochannels and confined adsorption and Phase Behaviour in Nanochannels and Nanotubes, L. Dunne and G. Manos, Ed. Springer, (2009) pp. 241-255. [Back]
M. J. Gidley, I. Hanashiro, N. M. Hani, S. E. Hill, A. Huber, J-L. Jane, Q. Liu, G. A. Morris, A. Rolland-Sabaté, A. M. Striegel, R. G. Gilbert, Reliable measurements of the size distributions of starch molecules in solution: Current dilemmas and recommendations, Carbohydrate Polymers, 79 (2010) 255-261. [Back]
G. Sworn, G. R. Sanderson and W. Gibson, Gellan gum fluid gels, Food Hydrocolloids 9 (1995) 265-271. [Back]
L. Xu, F. Mallamace, Z. Yan, F. W. Starr, S. V. Buldyrev and H. E. Stanley, Appearance of a fractional Stokes–Einstein relation in water and a structural interpretation of its onset, Nature Physics, 5 (2009) 565 -569. [Back]
D. Flammini, M. A. Ricci, and F. Bruni, A new water anomaly: The temperature dependence of the proton mean
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R. Cai, H. Yang, J. He, W. Zhu, The effects of magnetic fields on water molecular hydrogen bonds, Journal of Molecular Structure, 938 (2009) 15-19. [Back]
Y. Nishiyama, Structure and properties of the cellulose microfibril, J. Wood Science 55 (2009) 241-249. [Back]
Y. Marcus, The standard partial molar volumes of ions in solution. Part 4. Ionic volumes in water at 0-100 °C, Journal of Physical Chemistry B 113 (2009) 10285-10291. [Back, 2]
S. K. Ramadugu, Y.-H. Chung, J. Xia and C. J. Margulis, When sugars get wet. A comprehensive study of the behavior of water on the surface of oligosaccharides, Journal of Physical Chemistry B 113 (2009) 11003-11015. [Back, 2]