Lab Tests

Dr. Roy, R. August 28, 2007. Letter written by Dr. Roy describing the experiments conducted on DIVINIA Water; results show a stretched O-H bond, long-term structuring/energy associated with DIVINIA Water, purity and pH. Materials Research Laboratory, Penn State University.
 
Dr. Pollack, G. H. May 5, 2011. Recorded high measurement of EZ water signature of DIVINIA Water at 270 nm. Pollack Laboratory, University of Washington.

Dr. Matthews, J. Feb 5, 2016. ​Results of lab tests for deuterium depletion and oxygenation; results show DIVINIA's DDW measurements and oxygen parts per million. Stable Isotopes Facility, UC Davis.

Dr. Shankaraswamy, J. and Dr. Sarika, S. 2017. Value-added fruit processing with EZ water: a holistic cellular healthy diet. Amity International Centre for Post Harvest Technology and Cold Chain Management, Amity University Uttar Pradesh; Amity Institute of Biotechnology, Amity University Uttar Pradesh.

Dr. Bradley, R. 2018. Effects of DIVINIA on kidney and liver function - currently underway. Helfgott Research Institute, National University of Natural Medicine.

Peer-Reviewed Papers & Supporting Research

Roy, R., Rao, M. L. and Kanzius, J., Observations of polarized RF radiation catalysis of dissociation of H2O–NaCl solutions Mater. Res. Innov., 2008, 12, 3–6.

Rao, M.L., Sedlmayr, S., Roy, R., Kanzius, J., Polarized microwave and RF radiation effects on the structure and stability of liquid water. Current Science, 2010, 98, 1500 - 1504. 

 Y. Thomas, The history of the memory of water, Homeopathy, 96 (2007) 151-157. (b) F. Beauvais, Memory of water and blinding, Homeopathy, 97 (2008) 41-42.

K.B. Goodall, In Search of the Fountain of Youth Preliminary Analysis of Deuterium’s Role in DNA Degradation, American Academy of Anti-Aging Medicine, (2003).

 

Mosin, O. V., Ignatov, I. (2012) Isotopic Effects of Deuterium in Bacteria and Micro-algae in Vegetation in Heavy Water D2O, Water: Chemistry and Ecology, No. 3, pp. 83-94.

A. J. Mork and G. H. Pollack, New observations at the air-water interface, J. Undergrad. Research Bioeng. (2008-2010) 105-113, U. Washington.

B. Chai, A. G. Mahtani and G. H. Pollack, Unexpected presence of solute-free zones at metal-water interfaces. Contemp Mater. 3 (2012) 1-12.

H. Yoo, R. Paranji and G. H. Pollack, Impact of hydrophilic surfaces on interfacial water dynamics probed with NMR spectroscopy, Journal of Physical Chemistry Letters, 2 (2011) 532-536.

F. Musumecia and G. H. Pollack, High electrical permittivity of ultrapure water at the water–platinum interface, Chemical Physics Letters, 613 (2014) 19-23

J-M. Zheng, A. Wexler and G. H. Pollack, Effect of buffers on aqueous solute-exclusion zones around ion-exchange resins, Journal of Colloid Interface Science, 332 (2009) 511-514

B. Sulbarán, G. Toriz, G. G. Allan, G. H. Pollack and E. Delgado, The dynamic development of exclusion zones on cellulosic surfaces, Cellulose 21 (2014) 1143-1148. 

J.-M. Zheng and G. H. Pollack, Solute and potential distribution near hydrophilic surfaces, In Water and the cell, Ed. G. H. Pollack, I. L. Cameron and D. N. Wheatley (Springer, Dordrecht, 2006) pp. 165-174.

B. Chai, J. Zheng, Q. Zhao and G. H. Pollack, Spectroscopic studies of solutes in aqueous solution, Journal of Physical Chemistry A 112 (2008) 2242-2247.

Colic, M. and Morse, D., Influence of resonant RF radiation on gas/liquid interface: can it be quantum vacuum radiation? Phys. Rev. Lett., 1998, 80, 2465–2468.

 

Colic, M. and Morse, D., Effects of the amplitude of the radiofrequency electromagnetic radiation on aqueous suspensions and solutions, J. Colloid Interface Sci., 1998, 200, 265–272.

 

C.-S. Chen, W.-J. Chung, I. C. Hsu, C.-M. Wu and W.-C. Chin, Force field measurements within the exclusion-zone of water, Journal of Biological Physics,  38 (2012) 113-120.

I. N. Huszár, Z. Mártonfalvi, A. J. Laki, K. Iván and M. Kellermayer, Exclusion-zone dynamics explored with microfluidics and optical tweezers, Entropy 16 (2014) 4322-4337c

A. De Ninno, Dynamics of formation of the Exclusion Zone near hydrophilic surfaces, Chemical Physics Letters, 667 (2017) 322-326.

Y. Zhang, S. Takizawa and J. Lohwacharin, Spontaneous particle separation and salt rejection by hydrophilic membranes, WATER 7 (2015) 1-18. 

Higashitani, K. and Oshitani, J., Magnetic effects on thickness of adsorbed layer in aqueous solutions evaluated directly by atomic

force microscope. J. Colloid Interface Sci., 1998, 204, 363–368.

Sedlmayr, S., Microwave fluid heating and distillation method, United States Patent 20060289502, published in 2006.

J-M. Zheng, W-C. Chin, E. Khijniak, E. Khijniak Jr. and G. H. Pollack, Surfaces and interfacial water: Evidence that hydrophilic surfaces have a long-range impact, Advances in Colloid and Interface Science, 127 (2006) 19-27

 A. Sharma, D. Toso, K. Kung, G.-W. Bahng and G. H. Pollack, QELBY®-induced enhancement of exclusion zone buildup and seed germination,  Advances in Materials Science and Engineering, 2017 (2017) 2410794.

Y. Zhang, S. Takizawa and J. Lohwacharin, Spontaneous particle separation and salt rejection by hydrophilic membranes, WATER 7 (2015) 1-18.

H. H. Mollenhauer and D. J. Morré, Structural compartmentation of the cytosol: zones of exclusion, zones of adhesion, cytoskeletal and intercisternal elements. In Roodyn D. B. (ed.) Subcellular Biochemistry, vol. 5 (Plenum Press, 1978) pp. 327-362.

 

 H. Yoshida, N, Ise, and T. Hashimoto, Void structure and vapor–liquid condensation in dilute deionized colloidal dispersions, Journal of Chemical Physics, 103 (1995) 10146.

J. C. Henniker, The depth of the surface zone of a liquid, Reviews of Modern Physics, 21 (1949) 322-341

 

P. P. Olodovskii and I. L. Berestova, On changes in the structure of water due to its contact with a soild phase, I NMR-spectroscopy studies, Journal of Engineering Physics and Thermophysics, 62 (1992) 622-627, Translated from Inzhenerno-Fizicheskii Zhurnal, 62 (1992) 853-858. 

 

K. Oehr and P. H. LeMay, The case for tetrahedral oxy-subhydride (TOSH) structures in the exclusion zones of anchored polar solvents including water, Entropy, 16 (2014) 5712-5720. 

R. M. Santilli, A new gaseous and combustible form of water, International Journal of Hydrogen Energy, 31(2006) 1113-1128.

 

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 Energy 32 (2007) 1309-1312.

 

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 (International Journal of Hydrogen Energy, 2006:31(9), 1113–1128), Int J Hydrogen Energy 33 (2008) 922-926. 

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