K. H. Tsai and T.-M. Wu, Local structural
effects on low-frequency vibrational spectrum of
liquid water: The instantaneous-normal-mode analysis, Chem.
Phys. Lett.417 (2005) 390-395. [Back]
R. Mota, R. Parafita, A. Giuliani, M.-J.
Hubin-Franskin, J. M. C. Lourenço, G. Garcia, S.
V. Hoffmann, N. J. Mason, P. A. Ribeiro, M. Raposo and P.
Limão-Vieira, Water VUV electronic state spectroscopy
by synchrotron radiation, Chem. Phys. Lett. 416 (2005) 152-159. [Back]
(a) T. Imai and F. Hirata, Hydrophobic
effects on partial molar volume, J. Chem. Phys.122 (2005) 094509. (b) G. Graziano, Comment
on "Hydrophobic effects on partial molar volume", J. Chem. Phys.123 (2005) 167103.
(c) T. Imai and F. Hirata, Reply to "Comment on 'Hydrophobic
effects on partial molar volume'", J. Chem. Phys.123 (2005) 167104. [Back]
S. Gao, W. House and W. G. Chapman,
NMR/MRI study of clathrate hydrate mechanisms, J. Phys.
Chem. B 109 (2005) 19090-19093. [Back]
J. F. Matthews, C. E. Skopec, P. E.
Mason, P. Zuccato, R. W. Torget, J. Sugiyama, M. E. Himmel
and J. W. Brady, Computer simulation studies of microcrystalline
cellulose Iß, Carbohydr. Res.341 (2005) 138-152. [Back]
D. M. Murphy and T. Koop, Review of
the vapour pressures of ice and supercooled water for
atmospheric applications, Q. J. R. Meteorol. Soc.131 (2005) 1539-1565. [Back, 2]
F. Garczarek and K. Gerwert, Functional
waters in intraprotein proton transfer monitored by FTIR
difference spectroscopy, Nature439 (2005) 109-112. [Back]
J. Lin, I. A. Balabin and D. N. Beratan,
The nature of aqueous tunneling pathways between
electron-transfer proteins, Science310 (2005) 1311-1313. [Back]
B. Czarnik-Matusewicz and S. Pilorz,
Study of the temperature-dependent near-infrared spectra
of water by two-dimensional correlation spectroscopy and
principal components analysis, Vibrational Spectrosc.40 (2005) 235-245. [Back]
C. Knight and S. J. Singer, Prediction
of a phase transition to a hydrogen bond ordered form of
ice VI, J. Phys. Chem. B109 (2005),
21040-21046. [Back]
D. Ben-Amotz, Global thermodynamics
of hydrophobic cavitation, dewetting and hydration, J.
Chem. Phys.123 (2005) 184504. [Back]
H. Choe, M.-H. Hong, Y. Seo, K. Lee,
G. Kim, Y. Cho, J. Ihm and W. Jhe, Formation, manipulation,
and elasticity measurement of a nanometric nolumn of water
molecules,Phys. Rev. Lett.95 (2005) 187801. [Back]
L. Cruzeiro, Why are proteins with glutamine-
and asparagine-rich regions associated with protein misfolding
diseases? J. Phys.: Condens. Matter17 (2005) 7833-7844. [Back]
R. A. Shaw, A. J. Durant and Y. Mi,
Heterogeneous surface crystallization observed in undercooled
water, J. Phys. Chem. B109 (2005)
9865-9868. [Back, 2]
E. Sabadini, T. Cosgrovea and F. do
Carmo Egídio, Solubility of cyclomaltooligosaccharides
(cyclodextrins) in H2O and D2O: a
comparative study, Carbohydr. Res.341 (2006) 270-274. [Back]
H. E. Fischer, A. C. Barnes and P. S.
Salmon, Neutron and x-ray diffraction studies of liquids
and glasses, Rep. Prog. Phys.69 (2006) 233-299. [Back]
E. Herbert and F. Caupin, The limit
of metastability of water under tension: theories and experiments, J. Phys.: Condens. Matter17 (2005)
S3597-S3602. [Back]
W. Saenger, J. Jacob, K. Gessler, T.
Steiner, D. Hoffmann, H. Sanbe, K. Koizumi, S. M. Smith
and T Takaha, Structures of the common cyclodextrins and
their larger analogues - Beyond the doughnut, Chem.
Rev. 98 (1998) 1787-1802. [Back]
A. R. Hedges, Industrial applications
of cyclodextrins, Chem. Rev. 98 (1998) 2035-2044.
[Back]
K. Mazeau, C. Moine, P. Krausz and V.
Gloaguen, Conformational analysis of xylan chains, Carbohydr.
Res.340 (2005) 2752-2760. [Back]
G. Venktaramana, E. Rajagopal, N. Manohara
Murthy, Studies on the effect of chlorides of magnesium,
calcium, strontium and barium on the temperature of the
sound velocity maximum of water, J. Mol. Liq.123 (2006) 68-71. [Back, 2]
D. Xenides, B. R. Randolf and B. M.
Rode, Hydrogen bonding in liquid water: An ab initio QM/MM
MD simulation study, J. Mol. Liq.123 (2006) 61-67. [Back, 2]
U. Peters, R. Sinha, N. Chatterjee,
A. F. Subar, R. G. Ziegler, M. Kulldorff, R. Bresalier,
J. L. Weissfeld, A. Flood, A. Schatzkin and R. B Hayes,
Dietary fibre and colorectal adenoma in a colorectal cancer
early detection programme, Lancet361 (2003) 1491-1495. [Back]
S. A. Bingham, N. E. Day, R. Luben,
P. Ferrari, N. Slimani, T. Norat, F. Clavel-Chapelon, E.
Kesse, A. Nieters, H. Boeing, A. Tjønneland, K. Overvad,
C. Martinez, M. Dorronsoro, C. A. Gonzalez, T. J. Key, A.
Trichopoulou, A. Naska, P. Vineis, R. Tumino, V. Krogh,
H. B. Bueno-de-Mesquita, P. H. M. Peeters, G. Berglund,
G. Hallmans, E. Lund, G. Skeie, R. Kaaks and E. Riboli,
Dietary fibre in food and protection against colorectal
cancer in the European Prospective Investigation into Cancer
and Nutrition (EPIC): an observational study, Lancet361 (2003) 1496-1501. [Back]
Y. Park, D. J. Hunter, D. Spiegelman,
L. Bergkvist, F. Berrino, P. A. van den Brandt, J. E. Buring,
G. A. Colditz, J. L. Freudenheim, C. S. Fuchs, E. Giovannucci,
R. A. Goldbohm, S. Graham, L. Harnack, A. M. Hartman, D.
R. Jacobs, I. Kato, V. Krogh, M. F. Leitzmann, M. L. McCullough,
A. B. Miller, P. Pietinen, T. E. Rohan, A. Schatzkin, W.
C. Willett, A. Wolk, A. Zeleniuch-Jacquotte, S. M. Zhang
and S. A. Smith-Warne, Dietary
fiber intake and risk of colorectal cancer A pooled analysis
of prospective cohort studies, J. Am. Med. Assoc. 294 (2005) 2849-2857. [Back] [Back to Top ]
P. K. Grover and R. L. Ryall, Critical
appraisal of salting-out and its implications for chemical
and biological sciences, Chem. Rev.105 (2005) 1-10 [Back]
C. Cardella, L. De Magistris, E. Florio
and C. W. Smith, Permanent changes in the physico-chemical
properties of water following exposure to resonant circuits, J. Scientific Exploration15 (2001)
501-518. [Back]
(a) B. C. Garrett, Ions at the air/water
interface, Science303 (2004)
1146-1147. (b) E. M. Knipping, M. J. Lakin, K. L. Foster,
P. Jungwirth, D. J. Tobias, R. B. Gerber, D. Dabdub, B.
J. Finlayson-Pitts, Experiments and simulations of ion-enhanced
interfacial chemistry on aqueous NaCl aerosols, Science288 (2000) 301-306. [Back, 2]
M. Starzak and M. Mathlouthi, Temperature
dependence of water activity in aqueous solutions of sucrose, Food Chem.96 (2006) 346-370.
[Back]
S. Pal, P. K. Maiti and B. Bagchi, Anisotropic
and sub-diffusive water motion at the surface of DNA and
of an anionic micelle CsPFO, J. Phys.: Condens. Matter17 (2005) S4317-S4331. [Back]
N. Naguib, H. Ye, Y. Gogotsi, A. G.
Yazicioglu, C. M. Megaridis and M. Yoshimura, Observation
of water confined in nanometer channels of closed carbon
nanotubes, Nano Lett. 4 (2004)
2237 -2243. [Back]
C. G. Salzmann, E. Mayer and A. Hallbrucker,
Effect of heating rate and pressure on the crystallization
kinetics of high-density amorphous ice on isobaric heating
between 0.2 and 1.9 GPa, Phys. Chem. Chem. Phys.6 (2004) 5156-5165. [Back]
G. Lamoureux, E. Harder, I. V. Vorobyov,
B. Roux and A. D. MacKerell Jr, A polarizable model of water
for molecular dynamics simulations of biomolecules, Chem.
Phys. Lett.418 (2005) 241-245. [Back]
C. G.Salzmann, T. Loerting, S. Klotz,
P. W.Mirwald, A. Hallbrucker and E. Mayer, Isobaric annealing
of high-density amorphous ice between 0.3 and 1.9 GPa:in
situ density values and structural changes, Phys. Chem.
Chem. Phys.8 (2006) 386-397. [Back, 2]
L. Helm, G. M. Nicolle and A. E. Merbach,
Water and proton exchange processes on metal ions, Adv.
Inorg. Chem. 57 (2005) 327-379. [Back]
B. F. Henson, L. F. Voss, K. R. Wilson
and J. M. Robinson, Thermodynamic model of quasiliquid formation
on H2O ice: Comparison with experiment J.
Chem. Phys.123 (2005) 144707. [Back, 2]
R. M. Santilli, A new gaseous and combustible
form of water, Int. J. Hydrogen Energy31 (2006) 1113-1128. (b) J. J. M. Calo, Comments on “A new gaseous and combustible form of water,” by R.M. Santilli. Int J Hydrogen Energy (2006), Int J Hydrogen Energy32 (2007) 1309-1312. (c) M. O. Cloonan, A chemist’s view of J.M. Calo’s comments on: ‘‘A new gaseous and combustible form of water’’ by R.M. Santilli (Int. J. Hydrogen Energy 2006:31(9), 1113–1128), Int J Hydrogen Energy33 (2008) 922-926. [Back]
M. Roeselová, J. Vieceli, L.
X. Dang, B. C. Garrett, and D. J. Tobias, Hydroxyl radical
at the air-water interface, J. Am. Chem. Soc.126 (2004), 16308 -16309. [Back, 2]
J. Urquidi, C. J. Benmore, J. Neuefeind,
B. Tomberli, C. A. Tulk, M. Guthrie, P. A. Egelstaff and
D. D. Klug, Isotopic quantum effects on the structure of
low density amorphous ice, J. Phys.: Condens. Matter15 (2003) 3657-3664. [Back]
V. Aquilanti, E. Cornicchi, M. M. Teixidor,
N. Saendig, F. Pirani, D. Cappelletti , Glory-scattering
measurement of water-noble-gas interactions: The birth of
the hydrogen bond, Angew. Chem. Int. Ed. 44 (2005) 2356-2360. [Back]
S. Yu. Venyaminov and F. G. Prendergast,
Water (H2O and D2O) molar absorptivity
in the 1000-4000cm-1 range and quantitative infrared
spectroscopy of aqueous solutions, Anal. Biochem. 248 (1997) 234-245. [Back]
J. VandeVondele and M. Sprik, A molecular
dynamics study of the hydroxyl radical in solution applying
self-interaction-corrected density functional methods, Phys.
Chem. Chem. Phys.7 (2005) 1363-1367.
[Back]
Á. Buvári-Barcza, J.
Rohonczy, N. Rozlosnik, T. Gilányi, B. Szabó,
G. Lovas, T. Braun, J. Samu and L. Barcza, Aqueous solubilization
of [60]fullerene via inclusion complex formation and the
hydration of C60, J. Chem. Soc., Perkin Trans. 2 (2001) 191-196. [Back, 2]
N. Kometani, K. Takemiya, Y. Yonezawa,
F. Amita and O. Kajimoto, UV spectral shift of benzene in
sub- and supercritical water, Chem. Phys. Lett. 394 (2004) 85-89. [Back]
D. Vukicevic, M. Randic, On Kekulé
structures of buckminsterfullerene, Chem. Phys. Lett.401 (2005) 446-450. [Back]
I. A. Leenson, Sulfuric acid and water:
paradoxes of dilution, J. Chem. Educ.81 (2004) 991-994. [Back]
S. Klotz, J. M. Besson, G. Hamel, R.
J. Nelmes, J. S. Loveday and W. G. Marshall, Metastable
ice VII at low temperature and ambient pressure, Nature398 (1999) 681-684. [Back]
I. L. Cameron, K. M. Kanal and G. D.
Fullerton, Role of protein conformation and aggregation
in pumping water in and out of a cell, Cell. Biol. Int.30 (2005) 78-85. [Back]
U. Kaatze and Y. Feldman, Broadband
dielectric spectrometry of liquids and biosystems, Meas.
Sci. Technol.17 (2006) R17-R35. [Back] [Back to Top ]
I. Danielewicz-Ferchmin and A.R. Ferchmin,
Lowering of the freezing temperature of water at the protein
surface due to electric field, J. Mol. Liq. 124 (2006) 114-120. [Back]
F. Palombo, M. Paolantoni, P. Sassi,
A. Morresi and R. S. Cataliotti, Spectroscopic studies of
the "free" OH stretching bands in liquid alcohols, J. Mol. Liq. 125 (2006) 139-146. [Back]
I. L. Shulgin and E. Ruckenstein, Preferential
hydration and solubility of proteins in aqueous solutions
of polyethylene glycol, Biophys. Chem.120 (2005) 188-198. [Back]
(a) H. Iglev, M. Schmeisser, K. Simeonidis,
A. Thaller and A. Laubereau, Ultrafast superheating and
melting of bulk ice, Nature439 (2006)183-186; (b) M. Schmeisser, H. Iglev, A. Laubereau, Maximum superheating of bulk ice, Chem. Phys. Lett.442 (2007) 171-175. [Back]
M. R. Frank, C. E. Runge, H. P. Scott,
S. J. Maglio, J. Olson, V. B. Prakapenka and G. Shen, Experimental
study of the NaCl-H2O system up to 28 GPa: Implications
for ice-rich planetary bodies, Phys. Earth Planet. Interiors155 (2006) 152-162. [Back]
X. Zhao, A. Striolo, and P. T.Cummings,
C60 binds to and deforms nucleotides, Biophys.
J. 89 (2005) 3856 -3862. [Back]
E. R. Wright, C. V. Iancu, W. F. Tivol
and G. J. Jensen, Observations on the behavior of vitreous
ice at ~82 and ~12K, J. Struct. Biol.153 (2006) 241-252. [Back]
O. Mishima and H. E. Stanley, Decompression-induced
melting of ice IVand the liquid-liquid transition in water, Nature392 (1998) 164-168. [Back]
J. Walker, Boiling
and the Leidenfrost effect, in Fundamentals of Physics,
6th Ed. D. Halliday, R. Resnick and J. Walker: Student companion
site (accessed 17 Jan 2006). [Back]
K. J. Ellis, Human body composition:
in vivo methods, Physiol. Rev.80 (2000) 649-680. [Back]
A. J. Yun, P. Y. Lee and K. A. Bazar,
Clinical benefits of hydration and volume expansion in a
wide range of illnesses may be attributable to reduction
of sympatho-vagal ratio, Med. Hypotheses64 (2005) 646-650. [Back]
J. A.McEwan and J. S. Colwill, The sensory
assessment of the thirst-quenching characteristics of drinks, Food Qual. Prefer. 7 (1996) 101-111. [Back]
S. Chalupka, Tainted water on tap, Am
J. Nursing105 (2005) 40-52. [Back]
(a) P. T. C. Harrison, Fluoride in water:
A UK perspective, J. Fluorine Chem.126 (2005) 1448-1456. (b) Meenakshi and R. C. Maheshwari, Fluoride
in drinking water and its removal, J. Hazard. Mat.137 (2006) 456-463. [Back]
L. Petraccia, G. Liberati, S. G. Masciullo,
M. Grassi and A. Fraioli, Water, mineral waters and health, Clin. Nutrition25 (2006) 377-385. [Back]
R. Gruber, S. Axmann, M..H. Schoenberg,
The influence of oxygenated water on the immune status,
liver enzymes, and the generation of oxygen radicals: a
prospective, randomized, blinded clinical study, Clin.
Nutrition24 (2005) 407-414. [Back]
G. I. McIntyre, Cell hydration as the
primary factor in carcinogenesis: A unifying concept, Med.
Hypotheses66 (2006) 518-526. G. I. McIntyre, Increased cell hydration promotes both tumor growth and metastasis: A biochemical mechanism consistent with genetic signatures, Med.
Hypotheses69 (2007) 1127-1130. [Back, 2]
I. Otsuka and S. Ozeki, Does magnetic
treatment of water change its properties? J. Phys. Chem.
B110 (2006) 1509-1512. S. Ozeki and I. Otsuka, Transient oxygen clathrate-like hydrate and water networks induced by magnetic fields, J. Phys. Chem.
B110 (2006) 20067-20072. [Back, 2]
E. Ben Jacob, Y. Aharonov and Y. Shapira,
Bacteria harnessing complexity, Biofilms1 (2004) 239-263. [Back]
W. E. Brower, D. J. Schedgick and L.
K. Bigelow , Thick glassy water by liquid quenching on a
diamond wafer J. Phys. Chem. B 106 (2002) 4565-4568. [Back]
R. J. Maughan, The sports drink as a
functional food: formulations for successful performance, Proc. Nutr. Soc.57 (1998) 15-23.
[Back]
K. Kikuchi, Y. Tanaka, Y. Saihara, M.
Maeda, M. Kawamura and Z. Ogumi, Concentration of hydrogen
nanobubbles in electrolyzed water, J. Colloid Interface Sci.298 (2006) 914-919. [Back, 2]
S. Bandyopadhyay, S. Chakraborty, S.
Balasubramanian and B. Bagchi, Sensitivity of polar solvation
dynamics to the secondary structures of aqueous proteins
and the role of surface exposure of the probe, J. Am.
Chem. Soc.127 (2005) 4071-4075. S.
Bandyopadhyay, S. Chakraborty and B. Bagchi, Secondary structure
sensitivity of hydrogen bond lifetime dynamics in the protein
hydration layer, J. Am. Chem. Soc.127 (2005) 16660-16667. [Back] [Back to Top ]
I. Brovchenko, A. Krukau, N. Smolin,
A. Oleinikova, A. Geiger and R. Winter, Thermal breaking
of spanning water networks in the hydration shell of proteins, J. Chem. Phys.123 (2005) 224905.
[Back]
M. Nakasako, Water-protein interactions
from high-resolution protein crystallography, Phil.
Trans. R. Soc. Lond. B359 (2004)
1191-1206. [Back]
A. Oleinikova, N. Smolin, I. Brovchenko,
A. Geiger and R. Winter, Formation of spanning water networks
on protein surfaces via 2D percolation transition, J.
Phys. Chem. B109 (2005) 1988-1998.
N. Smolin, A. Oleinikova, I. Brovchenko, A. Geiger and Roland
Winter, Properties of spanning water networks at protein
surfaces, J. Phys. Chem. B109 (2005) 10995-11005. [Back]
M.C. Amiri and A. A. Dadkhah, On reduction
in the surface tension of water due to magnetic treatment, Colloids Surf., A278 (2006) 252-255. [Back]
A. D. Kney and S. A. Parsons, A spectrophotometer-based
study of magnetic water treatment: Assessment of ionic vs.
surface mechanisms, Water Res.40 (2006) 517-524. [Back]
J. L. Dashnau, K. A. Sharp and J. M.
Vanderkooi, Carbohydrate intramolecular hydrogen bonding
cooperativity and Its effect on water structure, J.
Phys. Chem. B109 (2005) 24152-24159.
[Back]
M. Sadeghi, H. Naderi-Manesh, M. Zarrabi
and B. Ranjbar, Effective factors in thermostability of
thermophilic proteins, Biophys. Chem.119 (2006) 256-270. [Back]
C. Vega and J. L. F. Abascal, Relation
between the melting temperature and the temperature
of maximum density for the most common models of water, J. Chem. Phys. 123 (2005) 144504.
[Back]
J. L. F. Abascal and C. Vega, A general
purpose model for the condensed phases of water: TIP4P/2005, J. Chem. Phys. 123 (2005) 234505.
This paper derives much from [649]. [Back]
D. J. Anick, Proton and deuteron position
preferences in water clusters: An ab initio study, J.
Chem. Phys.123 (2005) 244309. [Back]
D. J. Anick, Positional isotope effect
for the water tetramer, Comput. Lett. (2006) to
be published. [Back]
G. Job and F. Herrmann, Chemical potential-a
quantity in search of recognition, Eur. J. Phys.27 (2006) 353-371. [Back]
D. D. Wagman, W. H. Evans, V. B. Parker,
R. H. Schumm, I. Halow, S. M. Bailey, K. L. Churney and
R. L. Nuttall, The NBS tables of chemical thermodynamic
properties, J. Phys. Chem. Ref. Data, 11 Suppl. 2 (1982). [Back]
G. Archontis and E. Leontidis. Dissecting
the stabilization of iodide at the air-water interface into
components: A free energy analysis. Chem.Phys. Lett.420 (2006) 199-203. [Back]
(a) Y. Zhao, Y.-H. Kim, M.-H. Du and
S. B. Zhang, First-principles prediction of icosahedral
quantum dots for tetravalent semiconductors, Phys. Rev.
Lett.93 (2004) 01550. (b) K. Nishio,
T. Morishita, W. Shinoda and M. Mikami, Molecular dynamics
simulation of icosahedral Si quantum dot formation from
liquid droplets, Phys. Rev. B72 (2005) 245321. [Back]
M. G. Sajilata, R. S. Singhal and P.
R. Kulkarni, Resistant starch- A review, Comp. Rev.
Food Sci. Food Safety5 (2006) 1-17.
[Back]
H. S. Frank, Structural models, in Water
A Comprehensive Treatise, Vol. 1, Ed. F. Franks, (Plenum
Press, New York, 1972) pp. 515-543. [Back]
R. Roy, W. A. Tiller, I. Bell and M.
R. Hoover, The structure of liquid water; novel insights
from materials research; potential relevance to homeopathy, Mat. Res. Innovat.9-4 (2005)
93-124; online 577-607. [Back, 2, 3]
Y. Wu, H. L. Tepper and G. A. Voth,
Flexible simple point-charge water model with improved liquid
state properties, J. Chem. Phys.124 (2006) 024503. [Back]
M. M. Koza, R. P. May and
H. Schober, On the heterogeneous character of water's amorphous polymorphism, J. Appl. Cryst.40 (2007) s517-s521; arXiv:cond-mat/0706.3296v1. [Back]
W. X. Zhang, C. He, J. S. Lian and Q.
Jiang, Selected crystallization of water as a function of
size, Chem. Phys. Lett.421 (2006)
251-255. [Back]
R. Heyrovska, Ionic concentrations and
hydration numbers of "Supporting electrolytes", Electroanalysis 18 (2006) 351-361. [Back]
J. Xu, K. W. Plaxco and S. J. Allen, Absorption spectra of liquid water and aqueous buffers between 0.3 and 3.72 THz, J. Chem. Phys.124 (2006) 036101. [Back]
H. Kanno and K. Miyata, The location of the second critical point of water, Chem. Phys. Lett.422 (2006) 507 –512. [Back]
T. P. Bonacquisti, A drinking water utility’s perspective on bromide, bromate, and ozonation, Toxicology221 (2006) 145–148. [Back] [Back to Top ]
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