V. I. Lobyshev, R. E. Shikhlinskaya
and B. D.Ryzhikov, Experimental evidence for intrinsic luminescence
of water, Journal of Molecular Liquids, 82 (1999)
73-81. [Back, 2]
H. Pfeiffer and K. Heremans, The sound
velocity in ideal liquid mixtures from thermal volume fluctuations, ChemPhysChem, 6 (2005) 697-705.
[Back]
J. W. G. Tyrrell and P. Attard, Images
of nanobubbles on hydrophobic surfaces and their interactions, Physical Review Letters,87 (2001) 176104; H. Schönherr, N. Hain, W. Walczyk D. Wesner and S. I. Druzhinin, Surface nanobubbles studied by atomic force microscopy techniques: Facts, fiction, and open questions, Japanese Journal of Applied Physics, 55 (2016) 08NA01.
[Back, 2]
G. E. Walrafen, Raman H-bond pair volume
for water, Journal of Chemical Physics,121 (2004) 2729-2736. [Back]
G. E. Walrafen and E. Pugh, Raman combinations
and stretching overtones from water, heavy water and NaCl
in water at shifts to ca. 7000 cm−1, Journal of Solution Chemistry, 33 (2004) 81-97.
[Back]
A. Einstein, On the movement of small
particles suspended in a stationary liquid demanded by the
molecular kinetic theory of heat, (Annalen der Physik, 17 (1905) 223) translated in Investigations
on the theory of the Brownian movement, Ed. R. Fürth,
(Dover Publications, Inc., New York, 1956). [Back, 2]
F. S. Stillinger and P. G. Debenedetti,
Alternative view of self-diffusion and shear viscosity, Journal of Physical Chemistry B, 109 (2005) 6604-6609.
[Back]
N. N. Greenwood and A. Earnshaw, Chemistry
of the elements, 2nd Ed. (Butterworth Heinemann,
Oxford, 1997). [Back]
C. N. Ramachandran and N. Sathyamurthy,
Water clusters in a confined nonpolar environment, Chemical Physics Letters, 410 (2005) 348-351. [Back]
A. Pacaroni, S. Cinelli, E. Cornicchi,
A. de Francesco and G. Onori, Fast fluctuations in protein
powders: The role of hydration, Chemical Physics Letters, 410 (2005) 400-403. [Back]
B. S. Kelly and A. G. Splittgerber,
The Pythagorean theorem and the solid state, Journal of Chemical Education, 82 (2005) 756-761. [Back, 2]
M. Boström, F. W. Tavares, S. Finet,
F. Skouri-Panet, A. Tardieu and B. W. Ninham, Why forces
between proteins follow different Hofmeister series for
pH above and below pI, Biophysical Chemistry, 117 (2005) 217-224. [Back]
A. Nilsson, H. Ogasawara, M. Cavalleri,
D. Nordlund, and M. Nyberg, Ph. Wernet, L. G. M. Pettersson,
The hydrogen bond in ice probed by soft x-ray spectroscopy
and density functional theory, Journal of Chemical Physics, 122 (2005) 154505. [Back]
J. M. Headrick, E. G. Diken, R. S. Walters,
N. I. Hammer, R. A. Christie, J. Cui, E. M. Myshakin, M.
A. Duncan, M. A. Johnson and K. D. Jordon, Spectral signatures
of hydrated proton vibrations in water clusters, Science, 308 (2005) 1765-1769. [Back]
W. Fuller, T. Forsyth and A. Mahendrasingam,
Water-DNA interactions as studied by X-ray and neutron fibre
diffraction, Philosophical Transactions of the Royal Society B: Biological Sciences, 359 (2004) 1237-1248. [Back]
H. J. C. Berenden, Discussion, Philosophical Transactions of the Royal Society B,359 (2004)
1266-67. [Back]
R. C. Dougherty, Temperature and pressure
dependence of hydrogen bond strength: A perturbation molecular
orbital approach, Journal of Chemical Physics, 109 (1998) 7372-7378. [Back]
J.-B Brubach, A. Mermet, A. Filabozzi
and A. Gerschel and P. Roy, Signatures of the hydrogen-bonding
in the infrared bands of water, Journal of Chemical Physics, 122 (2005) 184509. [Back]
R. L. Fulton and P. Perhacs, Sharing
analysis of the behavior of electrons in some simple molecules, Journal of Physical Chemistry A, 102 (1998) 8988-9000.
[Back]
V. Gutmann, Fundamental considerations
about liquid water, Pure and Applied Chemistry, 63 (1991) 1715-1724. [Back, 2]
V. Kurkal, R. M. Daniel, J. L. Finney,
M. Tehei, R. V. Dunn and J. C. Smith, Low frequency enzyme
dynamics as a function of temperature and hydration: A neutron
scattering study, Chemical Physics, 317 (2005) 267-273. V. Kurkal-Siebert, R. M. Daniel, J. L. Finney, M. Tehei, R. V. Dunn and J. C. Smith, Enzyme hydration, activity and flexibility: A neutron scattering approach, Journal of Non-Crystalline Solids, 352 (2006) 4387-4393. [Back, 2]
J. Fraxedas, A. Verdaguer, F. Sanz,
S. Baudron and P. Batail, Water nanodroplets confined in
molecular nanobeakers, Surface Science,588 (2005) 41-48. [Back]
T. Okada, K. Komatsu, T. Kawamoto, T.
Yamanaka and H. Kagi, Pressure response of Raman spectra
of water and its implication to the change in hydrogen bond
interaction, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 61 (2005) 2423-2427. [Back, 2]
X. Zhang, Y. Zhu and S. Granick, Hydrophobicity
at a Janus interface, Science, 295 (2002) 663-666. [Back] [Back to Top ]
K. Kotera, T. Saito and T. Yamanaka,
Measurement of positron lifetime to probe the mixed molecular
states of liquid water, Physics Letters A,345 (2005) 184-190. [Back, 2]
H. Nada and Y. Furukawa, Anisotropy
in growth kinetics at interfaces between proton-disordered
hexagonal ice and water: A molecular dynamics study using
the six-site model of H2O, Journal of Cryst. Growth, 283 (2005) 242-256. [Back]
J. D. Watson and F. H. C. Crick, Molecular
structure of nucleic acids, A structure for deoxyribose
nucleic acid, Nature, 171 (1953)
737-738. [Back]
F. Steckel and S. Szapiro, Physical
properties of heavy-oxygen water. Part 1. Density and thermal
expansion, Trans. Faraday Soc.59 (1963)
331-343. [Back]
H. W. Xiang, Vapor pressure and critical point of tritium oxide, Journal of Physical Chemistry Reference Data, 32 (2003) 1707-1711. [Back]
J. M. Schicks, J. Erzinger and M. A.
Ziemann, Raman spectra of gas hydrates - differences and
analogies to ice Ih and (gas saturated) water, Spectrochim.
Acta A Mol. Biomol. Spectr.61 (2005)
2399-2403. [Back, 2]
M. V. Fernández-Serra and E.
Artacho, On electrons and hydrogen-bond connectivity in
liquid water, Physical Review Letters96 (2006) 016404. arXiv:cond-mat/0507319.
[Back]
H. J. Bakker, J. J. Gilijamse and A.
J. Lock, Energy transfer in single hydrogen-bonded water
molecules, ChemPhysChem6 (2005)
1146-1156. [Back]
L.-Å. Näslund, J. Lüning,
Y. Ufuktepe, H. Ogasawara, Ph. Wernet, U. Bergmann, L. G.
M. Pettersson, and A. Nilsson, X-ray absorption spectroscopy
measurements of liquid water, Journal of Physical Chemistry B109 (2005) 13835-13839; A. Nilsson, D. Nordlund, I.Waluyo, N. Huang, H. Ogasawara, S. Kaya, U. Bergmann, L.-Å. Näslund, H. Öström, Ph. Wernet, K. J. Andersson, T. Schiros and L. G. M. Pettersson, X-ray absorption spectroscopy and X-ray Raman
scattering of water and ice; An experimental view, J. Electron Spectr. Rel.Phenomena177 (2010) 99-129. [Back]
S. A. Potekhin and R. S. Khusainova, Spin-dependent absorption of water molecules, Biophysical
Chemistry,118 (2005) 84-87. [Back, 2]
A. G. Császár, G. Czakó,
T. Furtenbacher, J. Tennyson, V. Szalay, S. V. Shirin, N.
F. Zobov and O. L. Polyansky, On equilibrium structures
of the water molecule, Journal of Chemical Physics,122 (2005) 214305. [Back]
H. A. Harker, M. R. Viant, F. N. Keutsch,
E. A. Michael, R. P. McLaughlin and R. J. Saykally, Water
pentamer: Characterization of the torsional-puckering manifold
by terahertz VRT spectroscopy. Journal of Physical Chemistry A,109 (2005) 6483-6497. [Back]
J. L. F. Abascal, E. Sanz, R. G. Fernández,
and C. Vega, A potential model for the study of ices and
amorphous water: TIP4P/Ice, Journal of Chemical Physics,122 (2005) 234511. [Back]
A. D. Fortes, I. G. Wood, M. Alfredsson,
L. Vocadlo and K. S. Knight, The incompressibility and thermal
expansivity of D2O ice II determined by powder neutron diffraction, J. Appl. Cryst.38 (2005) 612-618. [Back]
Editorial, The end of homeopathy, Lancet, 366 (2005) 690. [Back]
A. Shang, K. Huwiler-Müntener,
L. Nartey, P. Jüni, S. Dörig, J. A. C. Sterne,
D. Pewsner and M. Egger, Are the clinical effects of homoeopathy
placebo effects? Comparative study of placebo-controlled
trials of homoeopathy and allopathy, Lancet, 366 (2005) 726-732; and the correspondence, Are the clinical effects of homoeopathy placebo effects? H. Walach, W. Jonas and G. Lewith, Lancet, 366 (2005) 2081; K. Linde and W. Jonas, Lancet, 366 (2005) 2081-2082; P. Fisher, B. Berman, J. Davidson, D. Reilly, T. Thompson, on behalf of 29 other signatories, Lancet, 366 (2005) 2082-2083; F. Dantas, Lancet, 366 (2005) 2083; A. Shang, P. Jüni, J. A C Sterne, K. Huwiler-Müntener and M. Egger, The Lancet, 366 (2005) 2083-2084; See also, P. Fisher, Homeopathy and The Lancet, Evidence-based Complementary and Alternative Medicine3 (2006) 145-147. [Back]
Z. Xue-Hua, L. Gang, W. Zhi-Hua, Z.
Xiao-Dong and H. Jun, Effect of temperature on the morphology
of nanobubbles at mica/water interface, Chinese Physics, 14 (2005) 1774-1778. [Back, 2]
M. F. Chaplin, I. Kozlov and R. D. Barry,
The preparation and properties of immobilised firefly luciferase
for use in detection of bacteriuria, in ATP Luminescence
Rapid methods in microbiology, Ed. P. E. Stanley, B.
J. McCarthy and R. Smither, (Soc. Appl. Bacteriol. Tech.
Ser. 26, Blackwell Scientific Publications, Oxford, 1989)
pp. 243-249. [Back]
W. Czaja, A. Krystynowicz, S. Bielecki
and R. M. Brown, Microbial cellulose-the natural power to
heal wounds, Biomaterials, 27 (2006)
145-151. [Back]
I. Haque, R. Singh, A. A. Moosavi-Movahedi,
F. Ahmad, Effect of polyol osmolytes on ΔGD,
the Gibbs energy of stabilisation of proteins at different
pH values, Biophysical Chemistry, 117 (2005) 1-12. [Back]
C. A. Royer, Insights
into the role of hydration in protein structure and stability
obtained through hydrostatic pressure studies, Brazilian Journal of Medical and Biological Research,38 (2005) 1167-1173.
F. Meersman, L. Smeller and K. Heremans, Protein stability
and dynamics in the pressure-temperature plane, Biochimica
Biophys.ica Acta, Proteins and Proteomics,1764 (2006) 346-354. Y. C. Harano and M. Kinoshita, On the physics
of pressure denaturation of proteins, Journal of Physics: Condensed Matter, 18 (2006) L107-L113. Y. Harano, T. Yoshidome and M. Kinoshita, Molecular mechanism of pressure denaturation of proteins, Journal of Chemical Physics, 129 (2008) 145103. M. I. Marqués, Test of cold denaturation mechanism for proteins as a function of water’s structure, Physica A, 375 (2007) 37-43. [Back]
M. T. C. Martins Costa, QM/MM simulations
of polyols in aqueous solution, Journal of Molecular Structure, (Theochem)729 (2005) 47-52. [Back]
J. D. Eaves, J. J. Loparo, C. J. Fecko,
S. T. Roberts, A. Tokmakoff and P. L. Geissler, Hydrogen
bonds in liquid water are broken only fleetingly, Proceedings of the National Academy of Sciences of the United States of America, 102 (2005) 13019-13022; J. J. Loparo, S. T. Roberts and A. Tokmakoff, Multidimensional infrared spectroscopy of water. I. Vibrational dynamics in two-dimensional IR line shapes, Journal of Chemical Physics,125 (2006) 194521; J. J. Loparo, S. T. Roberts and A. Tokmakoff, Multidimensional infrared spectroscopy of water. II. Hydrogen bond switching dynamics, Journal of Chemical Physics,125 (2006) 194522. [Back]
J. C. Hindman, Proton resonance shift
of water in the gas and liquid states, Journal of Chemical Physics, 44 (1966) 4582-4592. [Back] [Back to Top ]
V. M. Gun'ko, V. V. Turov, V. M. Bogatyrev,
V. I. Zarko, R. Leboda, E. V. Goncharuk, A. A. Novza, A.
V. Turov and A. A. Chuiko, Unusual properties of water at
hydrophilic/hydrophobic interfaces, Advances in Colloid and Interface Science, 118 (2005) 125-172. [Back, 2]
K. Ohno, M. Okimura, N. Akai and Y.
Katsumoto, The effect of cooperative hydrogen bonding on
the OH stretching-band shift for water clusters studied
by matrix-isolation infrared spectroscopy and density functional
theory, Physical Chemistry Chemical Physics, 7 (2005) 3005-3014. [Back, 2]
P. Buchanan, N. Aldiwan, A. K. Soper,
J. L. Creek and C. A. Koh, Decreased structure on dissolving
methane in water, Chemical Physics Letters, 415 (2005) 89-93. [Back]
S. S. Iyengar, M. K. Peterson, T. J.
F. Day, C. J. Burnham, V. E. Teige and G. A. Voth, The properties
of ion-water cluster. I. The protonated 21-water cluster, Journal of Chemical Physics,123 (2005) 084309.
[Back, 2]
P. Intharathep, A. Tongraar and K. Sagarik,
Structure and dynamics of hydrated NH4+:
An ab initio QM/MM molecular dynamics simulation, Journal of Computational Chemistry, 26 (2005) 1329-1338.
[Back]
G. P. Johari, Water's size-dependent
freezing to cubic ice, Journal of Chemical Physics,122 (2005) 194504. [Back]
T. James, D. J. Wales and J.Hernández-Rojas,
Global minima of water clusters [H2O]n,
n=<21, described by a five-site empirical potential, Chemical Physics Letters, 415 (2005) 302-307.
[Back, 2]
A. Baranyai, A. Bartók and A.
A. Chialvo, Computer simulation of the 13 crystalline phases
of ice, Journal of Chemical Physics,123 (2005)
054502. [Back]
P. Paricaud, M. Predota, A. A. Chialvo
and P. T. Cummings, From dimer and condensed phases at extreme
conditions: Accurate predictions of the properties of water
by a Gaussian charge polarizable model, Journal of Chemical Physics, 122 (2005) 244511. [Back]
(a) N. F. Zobov, S. V. Shirin, O. L.
Polyansky, J. Tennyson, P.-F. Coheur, P. F. Bernath, M.
Carleer and R. Colin, Monodromy in the water molecule, Chemical
Physics Letters, 414 (2005) 193-197. (b)
G. Tarczay, A. G. Császár, W. Klopper, V.
Szalay, W. D. Allen and H. F. Schaefer III, The barrier
to linearity of water, Journal of Chemical Physics, 110 (1999) 11971-11981. [Back]
L. Liu, S.-H. Chen, A. Faraone, C.-W.
Yen and C.-Y. Mou, Pressure dependence of fragile-to-strong
transition and a possible second critical point in supercooled
confined water, Physical Review Letters,95 (2005)
117802. This paper was theoretically confirmed by: L. Xu, P. Kumar, S. V. Buldyrev, S.-H. Chen, P. H. Poole, F. Sciortino and H. E. Stanley, Relation between the Widom line and the dynamic crossover in systems with a liquid–liquid phase transition, Proceedings of the National Academy of Sciences, 102 (2005) 16558-16562. [Back]
Z.-F. Wei, Y.-H. Zhang, L.-J. Zhao,
J.-H. Liu and X.-H Li, Observations of the first hydration
layer of isolated cations and anions through the FTIR-ATR
difference spectra, Journal of Physical Chemistry A, 109 (2005) 1337-1342. [Back]
L. H. de la Pena, M. S. G. Razul and
P. G. Kusalik, Impacts of quantization on the properties
of liquid water, Journal of Physical Chemistry A, 109 (2005) 7236-7241. [Back]
M. Umemuraa, Y. Yuguchib and T. Hirotsu,
Hydration at glycosidic linkages of malto- and cello-oligosaccharides
in aqueous solution from molecular dynamics simulation:
Effect of conformational flexibility, Journal of Molecular Structure
(Theochem), 730 (2005) 1-8. [Back]
P. T. Hacker, Experimental
values of the surface tension of supercooled water,
Technical note 2510 (1951) National Advisory Committee for
Aeronautics. [Back]
J. Hrubý and V. Holten, A two-structure model of thermodynamic properties and surface
tension of supercooled water, 14th International Conference on the Properties Water and Steam, Kyoto, 2004. [Back]
H. Yu and W. F. van Gunsteren, Accounting
for polarization in molecular simulation, Computer Physics Communications,172 (2005) 69-85. [Back]
R. Souda, Kinetics of the glass-liquid
transition of water, Chemical Physics Letters, 415 (2005) 146-149. [Back]
R. Feistel and W. Wagner, A
comprehensive Gibbs thermodynamic potential of ice, 14th International Conference on the Properties Water and Steam, Kyoto, 2004. [Back]
D. G. Friend and A. H. Harvey, Properties
of water and aqueous systems: metrological applications, 14th International Conference on the Properties Water and Steam, Kyoto, 2004. [Back]
P. H. Poole, I. Saika-Voivod and F.
Sciortino, Density minimum and liquid-liquid phase transition, Journal of Physics: Condensed Matter, 17 (2005)
L431-L437. [Back, 2]
F. H. Stillinger and A. Rahman, Improved
simulation of liquid water by molecular dynamics, Journal of Chemical Physics, 60 (1974) 1545-1557. [Back]
I. Danielewicz-Ferchmin and A. R. Ferchmin, Note on freezing of water nanolayers under electric fields, Acta Physica Superficierum, 8 (2006) 77-85. [Back]
G. Graziano, Relationship between cohesive
energy density and hydrophobicity, Journal of Chemical Physics,121 (2004) 1878-1882. [Back]
J. D. Smith, C. D. Cappa, K. R. Wilson,
R. C. Cohen, P. L. Geissler and R. J. Saykally, Unified
description of temperature-dependent hydrogen-bond rearrangements
in liquid water, Proceedings of the National Academy of Sciences of the United States of America, 102 (2005) 14171-14174. [Back, 2] [Back to Top ]
A.Khan, Theoretical studies of CO2(H2O)20,24,28 clusters: stabilization of cages in hydrates by CO2 guest molecules, Journal of Molecular Structure (Theochem), 664-665 (2003) 237-245. [Back]
B. Winter, R. Weber, W. Widdra, M. Dittmar,
M. Faubel and I. V. Hertel, Full valence band photoemission
from liquid water using EUV synchrotron radiation, Journal of Physical Chemistry A,108 (2004), 2625 -2632.
[Back]
E. Harder, J. D. Eaves, A. Tokmakoff
and B. J. Berne, Polarizable molecules in the vibrational
spectroscopy of water, Proceedings of the National Academy of Sciences of the United States of America, 102 (2005) 11611-11616. [Back]
U. Käistner, H. Hoffmann, R. Dönges
and J. Hilbig, Structure and solution properties of sodium
carboxymethyl cellulose, Colloids and Surfaces A, 123-124 (1997) 307-328.
[Back]
J.-F. Leterrier, Water and the cytoskeleton, Cellular and Molecular Biology, 47 (2001) 901-923.
[Back]
A. Paliwal, D. Asthagiri, D. Abras,
A. M. Lenhoff and M.E. Paulaitis, Light scattering studies
of protein solutions: Role of hydration in weak protein-protein
interactions. Biophysical Journal,89 (2005)
1564-1573. [Back]
A. S. F. Ramos and S. Techert, Influence
of the water structure on the acetylcholinesterase efficiency, Biophysical Journal,89 (2005) 1990-2003.
[Back]
A. A. Shibkov, M. A. Zheltov, A. A.
Korolev, A. A. Kazakov and A. A. Leonov, Crossover from
diffusion-limited to kinetics-limited growth of ice crystals, Journal of Crystal Growth, 285 (2005) 215-227.
[Back]
I. A. Brownlee, A. Allen,J. P. Pearson,
P. W. Dettmar, M. E. Havler, M. R. Atherton and E. Onsøyen,
Alginate as a source of dietary fiber, Critical Reviews of Food
Science and Nutrition, 45 (2005) 497-510. [Back]
R. E. Wasylishen and D. L. Bryce, A
revised experimental absolute magnetic shielding scale for
oxygen, Journal of Chemical Physics,117 (2002)
10061-10066. [Back]
(a) S. Magazù, F. Migliardo,
C.Mondelli and M. Vadalà, Correlation between bioprotective
effectiveness and dynamic properties of trehalose-water,
maltose-water and sucrose-water mixtures, Carbohydrate
Research,340 (2005) 2796-2801; (b) S. Magazù, F. Migliardo and A. J. Ramirez-Cuesta, Changes in vibrational modes of water and bioprotectants in solution, Biophysical Chemistry, 125 (2007)138-142; (c) F. Affouard, P. Bordat, M. Descamps, A.
Lerbret, S. Magazù, F. Migliardo, A. J. Ramirez-Cuesta
and M. F. T. Telling, A combined neutron scattering and
simulation study on bioprotectant systems, Chemical Physics, 317 (2005) 258 -266. [Back]
A. K. Soper, An asymmetric
model for water structure, Journal of Physics: Condensed Matter, 17 (2005) S3273-S3282. [Back, 2]
M. Fuxreiter, M. Mezei, I. Simon and
R. Osman, Interfacial water as a "hydration fingerprint"
in the non-cognate complex of BamHI, Biophysical Journal,89 (2005) 903-911. [Back]
D. A. Doshi, E. B. Watkins, J. N. Israelachvili
and J. Majewski, Reduced water density at hydrophobic surfaces:
Effect of dissolved gases, Proceedings of the National Academy of Sciences of the United States of America, 102 (2005) 9458-9462. [Back]
N. Bremond, M. Arora, C.-D.
Ohl and D. Lohse, Cavitation on surfaces, Journal of Physics:
Condensed Matter, 17 (2005) S3603-S3608.
[Back]
R. P Sear, The cytoplasm of
living cells: a functional mixture of thousands of components, Journal of Physics: Condensed Matter, 17 (2005)
S3587-S3595. [Back]
A. V. Tschulakow, Y. Yan and W. Klimek,
A new approach to the memory of water, Homeopathy, 94 (2005) 241-247. [Back]
Ph. Wernet, D. Testemale, J.-L. Hazemann,
R. Argoud, P. Glatzel, L. G. M. Pettersson, A. Nilsson and
U. Bergmann, Spectroscopic characterization of microscopic
hydrogen-bonding disparities in supercritical water, Journal of Chemical Physics, 123 (2005) 154503. [Back]
H. J. Bakker, M. F. Kropman and A. W.
Omta, Effect of ions on the structure and dynamics of liquid
water, Journal of Physics: Condensed Matter, 17 (2005) S3215-S3224. [Back, 2]
Y. Zhang, S. Furyk, D. E. Bergbreiter
and P. S. Cremer, Specific ion effects on the water solubility
of macromolecules: PNIPAM and the Hofmeister series, Journal of the American Chemical Society, 127 (2005) 14505-14510.
[Back]
P. Buchanan, A. K. Soper, H. Thompson,
R. E. Westacott, J. L. Creek, G. Hobson and C. A. Koh, Search
for memory effects in methane hydrate: Structure of water
before hydrate formation and after hydrate decomposition, Journal of Chemical Physics,123 (2005) 164507.
[Back]
B. Buffett and D. Archer, Global inventory
of methane clathrate: sensitivity to changes in the deep
ocean, Earth and Planetary Science Letters, 227 (2004) 185-199. [Back]
D. S. Olander and S. A. Rice, Preparation
of amorphous solid water, Proceedings of the National Academy of Sciences, 69 (1972) 98-100. [Back] [Back to Top ]