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Water Structure and Science References 401 500

401. J. C. Smith, F. Merzel, C. S. Verma and S. Fischer, Protein hydration water: structure and thermodynamics, J. Mol. Liq. 101 (2002) 27-33. [Back]
402. P. A. Netz, F. Starr, M. C. Barbosa and H. E. Stanley, Translational and rotational diffusion in stretched water, J. Mol. Liq. 101 (2002) 159-168. [Back, 2]
403. M. Henry, Thermodynamics of hydrogen bond patterns in supramolecular assemblies of water molecules, ChemPhysChem 3 (2002) 607-616. This paper describes the PACHA methodology for uncovering the preferred hydrogen bonding patterns in hydrogen-bonded assemblies. [Back, 2]
404. I. A. Stepanov, Thermodynamics of substances with negative thermal expansion coefficient, Computer Modelling & New Technologies, 4 (2000) 72-74 (I. A. Stepanov reports that there is a misprint in Eq. (11) The correct equation is: for α < 0, C_V = C_Pk_S/k_T). I. A. Stepanov, First law of thermodynamics for materials with
     negative thermal expansion, Materials Res. Innovations 12 (2008) 28-29. I. A. Stepanov, Thermodynamics of substances with negative thermal expansion and negative compressibility, J. Non-Cryst. Solids 356 (2010) 1168-1172. [Back]
405. W. Vorwerg, S. Radosta and E. Leibnitz, Study of a preparative-scale process for the production of amylose, Carbohydr. Polym. 47 (2002) 181-189. [Back]
406. T. H. Plumridge and R. D. Waigh, Water structure theory and some implications for drug design, J. Pharm. Pharmacol. 54 (2002) 1155-1179. [Back]
407. S. R. Dillon and R. C. Dougherty, Raman studies of the solution structure of univalent electrolytes in water, J. Phys. Chem A 106 (2002) 7647-7650. [Back, 2, 3]
408. R. Ohmura, T. Shigetomi, Y. H. Mori, Formation, growth and dissociation of clathrate hydrate crystals in liquid water in contact with a hydrophobic hydrate-forming liquid, J. Cryst. Growth 196 (1999) 164-173. [Back]
409. C. H. Cho, J. Urquidi, S. Singh, S. C. Park and G. W. Robinson, Pressure effect on the density of water, J. Phys. Chem. A 106 (2002) 7557-7561. [Back, 2, 3]
410. V. I. Tikhonov and A. A. Volkov, Separation of water into its ortho and para isomers, Science 296 (2002) 2363. [Back, 2]
411. J. -H. Guo, Y. Luo, A. Augustsson, J. -E. Rubensson, C.Såthe, C. Ågren, H. Siegbahn and J. Nordgren, X-ray emission spectroscopy of hydrogen bonding and electronic structure of liquid water, Phys. Rev. Lett. 89 (2002) 137402; J. Guo and Y. Luo, Molecular structure in water and solutions studied by photon-in/photon-out soft
     X-ray spectroscopy, J. Electron Spectrosc. Relat. Phenom. 177 (2010) 181-191. K. M. Lange, R. Könnecke, S. Ghadimi, R. Golnak, M. A. Soldatov, K. Hodeck, A. Soldatov and E. F. Aziz, High resolution X-ray emission spectroscopy of water and aqueous ions using the micro-jet technique, Chem. Phys. 377 (2010) 1-5. [Back, 2, 3]
412. A. Ben-Naim, Molecular recognition-viewed through the eyes of the solvent, Biophys. Chem. 101-102 (2002) 309-319. [Back]
413. J. Chan, S. F. Knutsen, G. G. Blix, J. W. Lee and G. E. Fraser, Water, other fluids, and fatal coronary heart disease. The Adventist Health Study, Am. J. Epidemiol. 155 (2002) 827-833. [Back]
414. R. S. Phillips, How does active site water affect enzymatic stereorecognition? J. Mol. Cat. B: Enz. 19-20 (2002) 103-107. R. M. Lemieux, How water provides the impetus for molecular recognition in aqueous solution, Acc. Chem. Res. 29 (1996) 373-380. [Back]
415. K. R. Wilson, R. D. Schaller, D. T. Co, R. J. Saykally, B. S. Rude, T. Catalano and J. D. Bozek, Surface relaxation in liquid water and methanol studied by x-ray absorption spectroscopy, J. Chem. Phys. 117 (2002 ) 7738-7744. [Back, 2]
416. C-J. Tsai, J. V. Maizel and R. Nussinov, The hydrophobic effect: A new insight from cold denaturation and a two-state water structure, Crit. Rev. Biochem. Mol. Biol. 37 (2002) 55-69. [Back]
417. A. Müller, H. Bögge and E. Diemann, Structure of a cavity-encapsulated nanodrop of water, Inorg. Chem. Commun. 6 (2003) 52-53; Corrigendum: A. Müller, H. Bögge and E. Diemann, Inorg. Chem. Commun. 6 (2003) 329. [Back, 2, 3, 4, 5]
418. M. C. Jarvis, Interconversion of the Ia snd Ib crystalline forms of cellulose by bending, Carbohydr. Res. 325 (2000) 150-154. [Back]
419. H. E. Stanley, M. C. Barbosa, S. Mossa, P. A. Netz, F. Sciortino, F. W. Starr and M. Yamada, Statistical physics and liquid water at negative pressures, Physica A 315 (2002) 281-289. [Back, 2]
420. Danielewicz-Ferchmin and A. R. Ferchmin, Phase diagram of electrostricted H₂O at surfaces of electrodes at 273-373 K: Electric critical point of water, ChemPhysChem 6 (2005) 1499-1509. [Back]
421. J. L. Finney, D. T. Bowron, A. K. Soper, T. Loerting, E. Mayer, and A. Hallbrucker, Structure of a new dense amorphous ice, Phys. Rev. Lett. 89 (2002) 205503. [Back]
422. M. H. Schoenberg, T. C. Hierl, J. Zhao, N. Wohlgemuth and U. A. Nilsson, The generation of oxygen radicals after drinking of oxygenated water, Eur. J. Med. Res. 7 (2002) 109-116. [Back]
423. A. Catenaccio, Y. Daruich and C. Magallanes, Temperature dependence of the permittivity of water, Chem. Phys. Lett. 367 (2003) 669-671. [Back]
424. Y. Sinyak, A. Grigoriev, V. Gaydadimov, T. Gurieva, M. Levinskih and B. Pokrovskii, Deuterium-free water (¹H₂O) in complex life-support systems of long-term space missions, Acta Astronautica 52 (2003) 575-580. [Back, 2]
425. K. R. Harris, Isotope effects and the thermal offset effect for diffusion and viscosity coefficients of liquid water, Phys. Chem. Chem. Phys. 4 (2002) 5841-5845. [Back] [Back to Top ]
426. N. Su and C-F. Wu, Effect of magnetic field treated water on mortar and concrete containing fly ash, Cem. Concr. Comp. 25 (2003) 681-688. [Back]
427. J. Pellicer, V. García-Morales, L. Guanter, M. J. Hernández and M. Dolz, On the experimental values of the water surface tension used in some textbooks, Am. J. Phys. 79 (2002) 705-709. [Back]
428. A. F. Heneghan and A. D. J. Haymet, Liquid-to-crystal heterogeneous nucleation: bubble accelerated nucleation of pure supercooled water, Chem. Phys. Lett. 368 (2003) 177-182. [Back]
429. D. J. Anick, unpublished results (2002), but see [435]. [Back]
430. K. Modig and B. Halle, Proton magnetic shielding tensor in liquid water, J. Am. Chem. Soc. 124 (2002) 12031-12041. [Back, 2]
431. P. Lo Nostro, L. Fratoni, B. W. Ninham and P. Baglioni, Water absorbency by wool fibers: Hofmeister effect, Biomacromolecules 3 (2002) 1217-1224. P. Ganguly, P. Schravendijk, B. Hess and N. F. A. van der Vegt, Ion pairing in aqueous electrolyte solutions with biologically relevant anions J. Phys. Chem. B, 115 (2011) 3734-3739. [Back]
432. S. B. Kiselev and J. F. Ely, Parametric crossover model and physical limit of stability in supercooled water, J. Chem. Phys. 116 (2002) 5657-5665. [Back]
433. A. G. Kalinichev, Molecular simulations of liquid and supercritical water: Thermodynamics, structure, and hydrogen bonding. In: Molecular Modeling Theory: Applications in the Geosciences. Ed. R. T. Cygan and J. D. Kubicki. Rev. Mineralogy Geochem.42 (2001) 83-129. [Back]
434. V. A. Parsegian, Protein-water interactions, Int. Rev. Cytology 215 (2002) 1-31. [Back]
435. D. J. Anick, Polyhedral water clusters, I: Formal consequences of the ice rules, J. Mol. Struct. (Theochem) 587 (2002) 87-96; D. J. Anick, Polyhedral water clusters, II: correlations of connectivity parameters with electronic energy and hydrogen bond lengths, J. Mol. Struct. (Theochem) 587 (2002) 97-110. [Back, 2]
436. R.Ludwig, The effect of hydrogen bonding on the thermodynamic and spectroscopic properties of molecular clusters and liquids, Phys. Chem. Chem. Phys. 4 (2002) 5481-5487. [Back]
437. T. K. Ghanty, V. N. Staroverov, P. R. Koren and E. R. Davidson, Is the hydrogen bond in water dimer and ice covalent? J. Am. Chem. Soc. 122 (2000) 1210-1214. [Back]
438. B. Barbiellini and A. Shukla, Ab initio calculations of the hydrogen bond, Phys. Rev. B 66 (2002) 235101. [Back]
439. R. Rey, K. B. Møller and J. T. Hynes, Hydrogen bond dynamics in water and ultrafast infrared spectroscopy, J. Phys. Chem. A 106 (2002) 11993-11996. [Back, 2]
440. G. W. Robinson, J. Urquidi, S. Singh and C. H. Cho, Protein denaturation described by a two-state structural model of liquid water, Cell. Mol. Biol. 47 (2001) 757-785. [Back]
441. C. Mayer and Y. Timsit, Hydration and structural alterations of A-DNA. Implications for the accuracy off DNA replication, Cell. Mol. Biol. 47 (2001) 815-822. [Back]
442. L. J. Dunne and B. G. Reuben, Application of the field theoretic method of Bohm and Pines to the determination of the activity coefficients of strong 1:1 electrolytes, Chem. Phys. Lett. 242 (1995) 560-569. L. J. Dunne and B. G. Reuben, Erratum (Chem. Phys. Letters 242 (1995) 560), Chem. Phys. Lett. 246 (1995) 358. [Back]
443. D. A. L. Seiler, The stability of intermediate moisture foods with respect to mould growth, in R. Davies, G. G. Birch and K. J. Parker (Eds) Intermediate Moisture Foods, (Applied Science Publishers Ltd., London, 1976) pp 166-181. [Back]
444. A. F. Jalbout, Metamorphosis of polyhedrons 1. Tetrahedron to octahedron, J. Mol. Struct. (Theochem) 619 (2002) 101-106. A. F. Jalbout, Metamorphosis of polyhedrons 2. Octahedron to dodecahedron, J. Mol. Struct. (Theochem) 620 (2002) 197-205. [Back]
445. J. Wolfe, G. Bryant and K. L. Koster, What is 'unfreezable water', how unfreezable is it and how much is there? CryoLetters 23 (2002) 157-166. [Back, 2]
446. C. P. Lawrence & J. L. Skinner, Vibrational spectroscopy of HOD in liquid D₂O. III. Spectral diffusion, and hydrogen-bonding and rotational dynamics, J. Chem. Phys. 118 (2003) 264-272. [Back]
447. J. Poater, X. Fradera, M. Solà, M. Duran and S. Simon, On the electron-pair nature of the hydrogen bond in the framework of the atoms in molecules theory, Chem. Phys. Lett. 369 (2003) 248-255. [Back, 2]
448. J. A. Padró and J. Marti, An interpretation of the low-frequency spectrum of liquid water, J. Chem. Phys. 118 (2003) 452-453. [Back]
449. D. Oakenfull and A. Scott, Gelatin gels in deuterium oxide, Food Hydrocolloids 17 (2003) 207-210. [Back]
450. S. B. Kiselev and J. F. Ely, Physical limit of stability in supercooled D₂O and D₂O+H₂O mixtures, J. Chem. Phys. 118 (2003) 680-689. [Back] [Back to Top ]
451. D. Rudan-Tasic and C. Klofutar, Osmotic coefficients and solvation thermodynamics of aqueous solutions of some lower poly(ethylene glycol)s at different temperatures, J. Mol. Liq. 103-104 (2003) 187-200. [Back]
452. K. Coutinho, R. C. Guedes, B. J. C. Cabral and S. Canuto, Electronic polarization of liquid water: converged Monte Carlo-quantum mechanics results for the multipole moments, Chem. Phys. Lett. 369 (2003) 345-353. [Back, 2, 3]
453. Y. Tu and A. Laaksonen, The electronic properties of water molecules in water clusters and liquid water, Chem. Phys. Lett. 329 (2000) 283-288. [Back, 2]
454. J. A. Dziuban, Microwave enhanced fast anisotropic etching of monocrystalline silicon, Sensors Actuators A 85 (2003) 133-138. R. Walczak and J. A. Dziuban, Microwave enhanced wet anisotropic etching of silicon utilizing a memory effect of KOH activation-a remote E2MSi process, Sensors Actuators A 116 (2004) 161-170. [Back]
455. N. J. English and J. M. D. MacElroy, Molecular dynamics simulations of microwave heating of water, J. Chem. Phys. 118 (2003) 1589-1592. [Back, 2]
456. H. Ohtaki, Effects of temperature and pressure on hydrogen bonds in water and in formamide, J. Mol. Liq. 103-104 (2003) 3-13. [Back, 2, 3]
457. T. Koop, B. Luo, A. Tsias and T. Peter, Water activity as the determinant for homogeneous ice nucleation in aqueous solution, Nature 406 (2000) 611-614. T. Koop, The water activity of aqueous solutions in equilibrium with ice, Bull. Chem. Soc. Jpn. 75 (2002) 2587-2588. [Back, 2, 3]
458. K. Modig, B. G. Pfrommer and B. Halle, Temperature-dependent hydrogen-bond geometry in liquid water, Phys. Rev. Lett. 90 (2003) 075502. [Back, 2]
459. (a) R. M. Pashley, Effect of degassing on the formation and stability of surfactant-free emulsions and fine teflon dispersions, J. Phys. Chem. B 107 (2003) 1714-1720. (b) D. Schwendel, H. Hayashi, R. Dahint, A. Pertsin, M. Grunze, R. Steitz and F. Schreiber, Interaction of water with self-assembled monolayers: Neutron reflectivity measurements of the water density in the interface region, Langmuir 19 (2003) 2284-2293. [Back, 2]
460. C. G. Salzmann, I. Kohl, T. Loerting, E. Mayer and A. Hallbrucker, Raman spectroscopic study on hydrogen bonding in recovered ice IV, J. Phys. Chem. B 107 (2003) 2802-2807. [Back]
461. W. H. Robertson, E. G. Diken, E. A. Price, J-W. Shin and M. A. Johnson, Spectroscopic determination of the HO^- solvation shell in the HO^-(··HOH)_n clusters, Science 299 (2003) 1367-1372. [Back]
462. N. Kallay, A. Cop, E. Chibowski and L. Holysz, Reversible charging of the ice-water interface II. Estimation of equilibrium parameters, J. Colloid Interface Sci. 259 (2003) 89-96. [Back]
463. D. Lootens, F. Capel, D. Durand, T. Nicolai, P. Boulenguer and V. Langendorff, Influence of pH, Ca concentration, temperature and amidation on the gelation of low methoxyl pectin, Food Hydrocolloids 17 (2003) 237-244. [Back]
464. J-L. Kuo, C. V. Ciobanu, L. Ojamäe, I. Shavitt and S. J. Singer, Short H-bonds and spontaneous self-dissociation in (H₂O)₂₀: Effects of H-bond topology, J. Chem. Phys. 118 (2003) 3583-3588. [Back]
465. (a) E. M. Mas, R. Bukowski and K. Szalewicz, Ab initio three-body interactions for water. II. Effects on structure and energetics of liquid, J. Chem. Phys. 118 (2003) 4404-4413. (b) G. Reddy, C. P. Lawrence, J. L. Skinner and A. Yethiraj, Liquid state theories for the structure of water, J. Chem. Phys. 119 (2003) 13012-13016. [Back, 2]
466. S. Yoshioki, Application of the independent molecule model to the calculation of free energy and rigid-body motions of water hexamers, J. Mol. Graph. Model. 21 (2003) 487-498. [Back]
467. A. Fernández, J. Kardos and Y. Goto, Protein folding: could hydrophobic collapse be coupled with hydrogen-bond formation? FEBS Lett. 536 (2003) 187-192. [Back]
468. P. Giannouli and E. R. Morris, Cryogelation of xanthan, Food Hydrocolloids 17 (2003) 495-501. [Back, 2]
469. B. J. Sandman, Personal communication (2003). [Back]
470. H-D. Isengard, Rapid water determination in foodstuffs, Trends Food Sci. Tech. 6 (1995) 155-162. [Back]
471. (a) S. Grünke, Main and side reactions in the Karl Fischer solution, Food Control 12 (2001) 419-426. (b) H-D. Isengard and P. Heinze, Determination of total water and surface water in sugars, Food Chem. 82 (2003) 169-172. (c) S. Grünke, The influence of conductivity on the Karl Fischer titration, Food Chem. 82 (2003) 99-105. [Back]
472. F. Franks, Protein stability: the value of 'old literature' Biophys. Chem. 96 (2002) 117-127. [Back]
473. M. Mathlouthi, Water content, water activity, water structure and the stability of foodstuffs, Food Control 12 (2001) 409-417. [Back]
474. H. Valtin, "Drink at least eight glasses of water a day." Really? Is there scientific evidence for "8 x 8"? Am. J. Physiol. Regul. Integr. Comp. Physiol. 283 (2002) R993-1004; R. Wolf, D. Wolf, D. Rudikoff, L. C. Parish, Nutrition and water: drinking eight glasses of water a day ensures proper skin hydration—myth or reality? Clinics in Dermatology 28 (2010) 380-383. [Back]
475. A. Parker, D. Lelimousin, C. Miniou, P. Boulenguer, Binding of galactomannans to kappa-carrageenan after cold mixing, Carbohydr. Res. 272 (1995) 91-96. [Back] [Back to Top ]
476. G. H. Pollack, The role of aqueous interfaces in the cell, Adv. Colloid Interface Sci. 103 (2003) 173-196. [Back]
477. K. Katsuraya, K. Okuyama, K. Hatanaka, R. Oshima, T. Sato and K. Matsuzaki, Constitution of konjac glucomannan: chemical analysis and ¹³C NMR spectroscopy, Carbohydr. Polym. 53 (2003) 183-189. [Back]
478. S. Pérez, M. A. Rodríguez-Carvajal and T. Doco, A complex plant cell wall polysaccharide: rhamnogalacturonan II. A structure in quest of a function. Biochimie 85 (2003) 109-121. [Back]
479. H. Büning-Pfaue, Analysis of water in food by near infrared spectroscopy, Food Chem. 82 (2003) 107-115. [Back]
480. P. Ball, How to keep dry in water, Nature 423 (2003) 25-26. [Back]
481. M. Boström, V. S. J. Craig, R. Albion, D. R. M. Williams and B. W. Ninham, Hofmeister effects in pH measurements: the role of added salt and co-ions, J. Phys. Chem. B 107 (2003) 2875-2878. [Back]
482. A. M. Saitta and F. Datchi, Structure and phase diagram of high density water: The role of interstitial molecules, Phys. Rev. E 67 (2003) 020201(4). [Back]
483. M. Starzak and M. Mathlouthi, Cluster composition of liquid water derived from laser-Raman spectra and molecular simulation data, Food Chem. 82 (2003) 3-22. [Back]
484. (a) W. B. Jonas, T. J. Kaptchuk and K. Linde, A critical overview of homeopathy, Annals Internal Med. 138 (2003) 393-399. (b) H. Walach, W. B. Jonas, J. Ives, R. Van Wijk and O. Weingärtner, Research on homeopathy: State of the art, J. Alt. Complement. Med. 11 (2005) 813-829. [Back]
485. E. E. Fesenko, V. I. Popov, V. V. Novikov and S. S. Khutsyan, Structure formation in water by the action of weak magnetic fields and xenon. Electron microscopic analysis, Biophysics 47 (2002) 365-370. [Back, 2]
486. T. R. Jensen, M. Ø, Jensen, N. Reitzel, K. Balashev, G. H. Peters, K. Kjaer and T. Bjørnholm, Water in contact with extended hydrophobic surfaces: Direct evidence of weak dewetting, Phys. Rev, Lett. 90 (2003) 086101 (4). [Back]
487. R. Steitz, T. Gutberlet, T. Hauss, B. Klösgen, R. Hratev, S. Schemmel, A. C. Simonsen and G. H. Findenegg, Nanobubbles and their precursor layer at the interface of water against a hydrophobic substrate, Langmuir 19 (2003) 2409-2418. [Back]
488. P. E. Mason, G. W. Neilson, C. E. Dempsey, A. C. Barnes and J. M. Cruickshank, The hydration structure of guanidinium and thiocyanate ions: Implications for protein stability in aqueous solution, Proc. Natl. Acad. Sci. U.S.A. 100 (2003) 4557-4561. [Back]
489. S. Gergely and A. Salgó, Changes in moistrure in moisture content during wheat maturation - what is measured ny near infrared spectroscopy? Near Infrared Spectrosc. 11 (2003) 17-26. [Back]
490. A. A. Kornyshev, A. M. Kuznetsov, E. Spohr and J. Ulstrup, Kinetics of proton transport in water, J. Phys. Chem. B 107 (2003) 3351-3388. [Back]
491. H. Nada and J. P. J. M. van der Eerden, An intermolecular potential model for the simulation of ice and water near the melting point: A six-site model of H₂O, J. Chem. Phys. 118 (2003) 7401-7413. [Back]
492. Y. Brummer, W. Cui and Q. Wang, Extraction, purification and physiochemical characterization of fenugreek gum, Food Hydrocolloids 17 (2003) 229-236. [Back]
493. F. W. Starr, C. A. Angell and H. E. Stanley, Prediction of entropy and dynamic properties of water below the homogeneous nucleation temperature, Physica A 323 (2003) 51-66. [Back]
494. M. Z. Hernandes, J. B. P. da Silva and R.L. Longo, Chemometric study of liquid water simulations. Part I: the parameters of the TIP4P model potential, J. Comput. Chem. 24 (2003) 973-981. [Back]
495. L. R. Milgrom, K. R. King, J. Lee and A. S. Pinkus, On the investigation of homeopathic potencies using low resolution NMR T2 relaxation times: an experimental and critical survey of the work of Roland Conte et al, Br. Homeopath. J., 90 (2001) 5-13. [Back]
496. M. A. Holloway and W. D. Holloway, Micro-cluster liquids and methods of making them and using them, United States Patent 6,521,248 (2003) and International Patent Application WO 01/30754 A2 (2001). [Back]
497. T. V. Prevenslik, Cavitation induced Becquerel effect, Ultrasonics 41 (2003) 323-327. [Back]
498. I. Brovchenko, A. Geiger and A. Oleinikova, Multiple liquid-liquid transitions in supercooled water, J. Chem. Phys. 118 (2003) 9873-9476. I. Brovchenko, A. Geiger and A. Oleinikova, Liquid-liquid phase transitions in supercooled water studied by computer simulations of various water models, J. Chem. Phys. 123 (2005) 044515. [Back, 2, 3]
499. G. K. Anderson, Enthalpy of dissociation and hydration number of carbon dioxide hydrate from the Clapeyron equation, J. Chem. Thermodynamics 35 (2003) 1171-1183. [Back]
500. (a) L. Rey, Thermoluminescence of ultra-high dilutions of lithium chloride and sodium chloride, Physica A 323 (2003) 67-74. (b) L. R. Milgrom, The memory of water regained? Homeopathy 92 (2003) 223-224. (c) L. Rey, Thermoluminescence of deuterated amorphous and crystallineices, Radiation Phys. Chem. 72 (2005) 587-594. (d) L. Rey,Can low-temperature thermoluminescence cast light on the nature of ultra-high dilutions? Homeopathy 96 (2007) 170-174. [Back, 2] [Back to Top ]

 

 

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