Untitled

doi:10.14294/water.2020.1

Cited by 3 publications

(2 citation statements)

References 89 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…К настоящему времени показано, что внешние воздействия (оптическое, плазменное, механическое и др.) способны кардинально изменять макроскопические свойства жидких растворов [2][3][4][5][6][7][8][9][10]. Было опубликовано множество работ, описывающих эти уникальные свойства и особенности структуры воды [11][12][13][14][15][16], поэтому мы хотели бы уделить больше внимания данным, подтверждающим возникновение новых свойств воды и водных растворов после механического воздействия на них.…”

Section: Abstract: Water Technology Water Properties Mechanical Treat...unclassified

The effects of physical treatment on physicochemical and biological properties of water and aqueous solutions

Don,

Stepanov,

Tarasov

2023

Fine Chem. Technol.

View full text Add to dashboard Cite

Objectives. Changes to the properties of water caused by factors such as pressure or temperature, can only be explained by its structural changes. Scientists study changes to the properties of water due to various physical stimuli only without the addition of any substances. Examples of stimuli are acoustic exposure, thermal exposure, pressure variation, shaking, intensive vibration treatment followed by dilutions, vortexing, bubble generation, inter alia.The aim of the present review article is to summarize the available data on how the above processes affect the physicochemical and biological properties of water and aqueous solutions.Results. It has been shown that heating makes water less compressible and decreases air solubility in water, while cooling enhances its viscosity. Acoustic exposure makes the structure of water become coarse-grained, followed by an increase the number of large clusters, pH and temperature inside a cavitation bubble. High pressure enhances the viscosity, self-diffusion, and compressibility of water. For bubble processed water, there are changes in the spin-spin and spin-lattice relaxation times. Reactive oxygen species are formed, as well as increased solubility of gases in liquids and reduced friction. Vortex process technology causes an increase of electrical conductivity of water and reduced viscosity. Intensive vibration treatment and dilution processes result in changes in electrical conductivity of water, dissolved gas concentration, ultrasonic wave velocity, рН, surface tension, dielectric constant, and spectral response. There is also data to support the biological effects of different types of physical treatment of solutions.Conclusions. This review shows that physical treatment of water can induce changes both in physicochemical and biological properties of water and aqueous solutions.

show abstract

Section: Abstract: Water Technology Water Properties Mechanical Treat...unclassified

The effects of physical treatment on physicochemical and biological properties of water and aqueous solutions

Don,

Stepanov,

Tarasov

2023

Fine Chem. Technol.

View full text Add to dashboard Cite

show abstract

“…For more purposeful application, these and other contradictions or emergent properties require a more detailed study. This is especially important for in vivo use, where synergism and antagonism of drugs or magnetic probes with the quantum properties of a biological cell is possible [10][11][12].…”

Section: Introductionmentioning

confidence: 99%

Emergent properties of magnetic ions and nanoparticles in micellar solutions of surfactants: Use in fine technologies

Mirgorod,

Borsch,

Storozhenko

et al. 2023

Fine Chem. Technol.

View full text Add to dashboard Cite

Objectives. To establish expected emergent (unexpected) properties of magnetic materials when obtained in aqueous micellar solutions of surfactants (aqueous quantum materials), and their use in fine technologies.Methods. Chemical synthesis of magnetic nanoparticles in aqueous micellar solutions of surfactants of various nature. Characterization of magnetic solutions and nanoparticles by magnetic measurements, spectroscopy, diffractometry, small-angle X-ray diffraction, scanning probe microscopy, and others.Results. The term “water quantum material” refers to materials (micellar solutions) whose properties are mainly determined by the nuclear quantum effect on macroscopic scales (emergent property). Micellar solutions exhibit phenomena and functionality not always consistent with the classical theory of micellization. The article presents in detail the experimental results that suggest the manifestation of the emergent properties of magnetic materials obtained in aqueous micellar solutions of surfactants. In particular, Gd3+ ions in an aqueous micellar solution of sodium dodecyl sulfate exhibit paramagnetic properties, possibly indicating their random arrangement in solution contrary to the classical theory of micellization with an ordered adsorption layer on micelles. Hybrid Pt–Gd nanoparticles are formed in a quantum material with cetylpyridinium chloride as a matrix, although Gd3+ ions must be repelled by CP+ ions on micelles. Nanosized powders of cobalt ferrite and nickel ferrite obtained in a micellar solution of sodium dodecyl sulfate have superparamagnetic properties, although the presence of their precursor ions in the adsorption layer in classical micelles should lead to ferromagnetic properties.Conclusions. The synthesis of nanoparticles in a quantum material opens up the possibility of reducing ions of different signs in one stage during the processing of metallurgy waste, in order to obtain nanoparticles of various metals and their composites. Magnetic nanoparticles obtained in a quantum surfactant material self-assemble on various substrates, enabling the creation of materials whose residual magnetization and coercive field can be controlled at room temperatures.

show abstract

Current Science and the Black Hole Connection

Meijer

2022

Advances in Media, Entertainment, and the Arts

View full text Add to dashboard Cite

In this chapter, an attempt is made to provide a condensed overview of the alarming state of the art of current scientific endeavor, as it is revealed in an international spectrum of critical reports but often is not openly discussed in the scientific community. These calamities include the lack of a basic analysis of the current scientific world itself, by which major influences of corrupt science policies and the power of traditional views remain in the dark. In addition, there is a worrying increase in technology-induced information dependence. We are facing an information wave of such magnitude that in order to survive we need to learn to ride it in a proper way by realizing our bio-cosmological connections and interconnectedness. The current problems in science, as observed by the present author and extensively put forward by leading scientists all over the world, are listed, and a set of potential solutions is tentatively offered.

show abstract

Untitled

Cited by 3 publications

References 89 publications

The effects of physical treatment on physicochemical and biological properties of water and aqueous solutions

The effects of physical treatment on physicochemical and biological properties of water and aqueous solutions

Emergent properties of magnetic ions and nanoparticles in micellar solutions of surfactants: Use in fine technologies

Current Science and the Black Hole Connection

Contact Info

Product

Resources

About