Artigos Sobre a Estrutura da Αgua
[1] Whiting H. A New Theory of Cohesion Applied to the Thermodynamics of Liquids and Solids, Proceedings of the American Academy of Arts and Science 19 (1883/1884) 353-466.
[2] Rφntgen W.C. On the Constitution of Liquid Water, Annalen der Physik 281 (1892) 91-97.
[3] Ball P. Water - an Enduring Mystery, Nature 452 (2008) 291-292.
[4] Krindel P. and Eliezer I. Water Structure Models, Coordination Chemistry Reviews 6 (1971) 217-246.
[5] Stillinger F. H. Water Revisited, Science 209 (1980) 451-457.
[6] Shields R.M., Temelso B. et al. Accurate Predictions of Water Cluster Formation, (H2O)n=2-10, The Journal of Physical Chemistry A 114 (2010) 11725-11737.
[7] Clark G.N. I., Cappa C.D. et al. The Structure of Ambient Water, Molecular Physics 108 (2010)1415-1433.
[8] Giudice E.D. Water as a Free Electric Dipole Laser, Physical Review Letter 61 (1988) 1085-1088.
[9] Silva E.S.A., Duarte H.A. and Belchior J.C. An Approach Based on Genetic Algorithms and DFT for Studying Clusters: (H2O)n (2≤n≤13) Cluster Analysis, Chemical Physics 323 (2006) 553-562.
[10] Hagler A.T., Scheraga H.A. and Nemethy G. Structure of Liquid Water: Statistical Thermodynamic Theory, The Journal of Physical Chemistry 76 (1972) 3229-3243.
[11] Demangeat J.L. NMR Water Proton Relaxation in Unheated and Heated Ultrahigh Aqueous Dilutions of Histamine: Evidence for an Air-Dependent Supra-molecular Organization of Water, Journal of Molecular Liquids 144 (2009) 32-39.
[12] Dubov D.Y. and Vostrikov A.A. Dipole Capture of a Slow Electron by a Water Cluster, Journal of Experimental and Theoretical Physics Letters 86 (2007) 454-457.
[13] Sommerfeld T. and Jordan K.D. Electron Binding Motifs of (H2O)n Clusters, Journal of the American Chemistry Society 128 (2006) 5828-5833.
[14] Stewart G.W. X-Ray Diffraction in Water: The Nature of Molecular Association, Physical Review 37 (1931) 9-16.
[15] Guse C., Simionescu A. et al. Temperature-Dependent Structure of Liquid Water Investigated by Means of Energy-Dissipative X-Ray Diffraction and Molecular Dynamics Simulations, Journal of Physics: Condensed Matter 22 (2010) 325105-325119.
[16] Wermet P., Nordlund D. et al. The Structure of the First Coordination Shell in Liquid Water, Science 304 (2004) 995-999.
[17] Saito S. and Ohmine I. Translational and Orientational Dynamics of a Water Cluster (H2O)108 and Liquid Water: Analysis of Neutron Scattering and Depolarized Light Scattering, The Journal of Chemical Physics 102 (1995) 3566-3579.
[18] Dore J.C. Neutron-Diffractions Studies of Water in the Normal and Super-Cooled Liquid-Phase, Journal de Physique 45 (1984) 49-64.
[19] Ohtomo N., Tokiwano K. and Arakawa K. The Structure of Liquid Water by Neutron Scattering, Bulletin of the Chemical Society of Japan 54 (1981) 1802-1808.
[20] Kelly R.E.A.,Tennyson .J, Groenenboom G.C.and van der Avoird Water Dimer Vibration-Rotation Tunnelling Levels from Vibrationally Averaged Monomer Wavefunctions, Journal of Quantitative Spectroscopy & Radiative Transfer 111 (2010) 1262-1276.
Alteraηυes Fνsicas da Αgua apσs Ultra-Diluiηυes
[1] Miranda A.R., Vannucci A. and Pontuschka W.M. Impedance Spectroscopy of Water in Comparison to High Dilutions of Lithium Chloride, Materials Research Innovations 15 (2011) 302-309.
[2] L. Montagnier (Prκmio Nobel), J. Aissa, S. Ferris, et al. Electromagnetic Signals are Produced by Aqueous Nanostructures Derived from Bacterial DNA Sequences, Interdisciplinary Science Comput. Life Science 1 (2009) 81-90.
[3] L. Montagnier (Prκmio Nobel), J. Aissa, E. Del Giudice, et al. DNA Waves and Water , Journal of Physics: Conference Series 306 (2011) 012007.
[4] Cacace C.M., Elia L., Elia V., et al. Conductometric and PHmetric Titrations of Extremely Diluted Solutions using HCl Solutions as Titrant A Molecular Model ,Journal of Molecular Liquids 146 (2009) 122-126.
[5] Elia V. and Niccoli M. New Physico-Chemical Properties of Extremely Diluted Aqueous Solutions, Journal of Thermal Analysis and Calorimetry 75 (2004) 815-836.
[6] Rey L. Thermoluminescence of Ultra-High Dilutions of Lithium Chloride and Sodium Chloride, Physica A 323 (2003) 67-74.
[7] Roy R., Tiller W.A., Bell I. and Hoover M.R. The Structure of Liquid Water; Novel Insight from Materials Research; Potential Relevance to Homeopathy, Materials Research Innovation 9 (2006) 98-103.
[8] Lobyshev V.I., Shikhlinskaya R.E. and Ryzhikov B.D. Experimental Evidence for Intrinsic Luminescence of Water, Journal of Molecular Liquids 82 (1999) 73-81.
[9] Jean-Louis D. 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.
[10] Rey L. Low Temperature Thermoluminescence , Nature 144 (1998) 418.
Aηγo Homeopαtica
[1] Singendonk, M et al. High prevalence of complementary and alternative medicine use in the Dutch pediatric oncology population: a multicenter survey , European Journal of Pediatrics 172 (2013) 31-37.
[2] Ernst, E and White, A. The BBC survey of complementary medicine use in the UK , Complementary Therapies in Medicine 8 (2000) 32-36.
[3] Fisher P. Ockhams Razor or Procrustes Axe? Why we should reject philosophical speculation that ignores fact , Journal of Evaluation in Clinical Practice 16 (2010) 282-283.
[4] Campbell D. R. and Banerji P. Cancer patients treated with the Banerji protocols utilising homoeopathic medicine: A Best Case Series
Program of the National Cancer Institute, USA , Oncology Reports 20 (2008) 69-74.
[5] Frenkel M., Mishra B. M., Sen S., Yang P., et al. Cytotoxic effects of ultra-diluted remedies on breast cancer cells , International Journal of Oncology 36 (2010) 395-403.
[6] Jonas W. B. Gaddipati J. P., N. V. Rajeshkumar N. V., et al. Can Homeopathic Treatment Slow Prostate Cancer Growth? , Integrative Cancer Therapies 5 (2006) 343-349.
[7] Bell I.R., Lewis D.A. et al. EEG alpha sensitization in individualized homeopathic treatment of fibromyalgia , International Journal of Neuroscience 114 (2004) 1195-1220.
[8] Belon P., Cumps J., Ennis M. et al. Histamine dilutions modulate basophil activation , Inflammation Research 53 (2004) 181-188.
[9] Banerjee P., Biswas, S.J. et al. A potentized homeopathic drug, arsenicum album 200, can ameliorate genotoxicity induced by repeated injections of arsenic trioxide in mice , Journal of Veterinary Medicine: Series A-Physiology Pathology & Clinical Medicine 54 (2007) 370-376.
[10] Pathak S., Das J.K., et al. Protective potentials of a potentized homeopathic drug, Lycopodium-30, in ameliorating azo dye induced hepatocarcinogenesis in mice , Molecular and Cellular Biochemistry 285 (2006) 121-131.
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