LABORATORY

OF QUICK CROP

SALVAGE

We work

24 hours a day

7 days a week !

What do we offer ?

We produce authentic poliremadient-adapter and develop technologies for saving sick crops and soils from extreme weather conditions and other stress factors.

Why do you need it ?

Growing up agricultural products becomes more and more complicated every year.

Various factors, including stress ones, create obstacles for obtaining quantitative and qualitative indicators of the final product.

... for which nanocomposite poliremadient-adapter is developed.

Climatic (physical)

  • water mode (drought, lack of moisture in the soil, excessive moisture, flooding, stress caused by the action of water)
  • temperature mode (deviation from optimal – increase or decrease in temperature)
  • lighting, mechanical impacts, soil salinity, anoxia (lack of oxygen)

Chemical

  • mineralization of soil, soil consolidation, the formation of soil conglomerate
  • pesticide loading (insecticides, fungicides, herbicides, industrial waste)
  • harmful gases, xenobiotics (chemical substances foreign to biosphere)
  • after-effects of plant protection products, post-treatment stress factor

Biological

  • phyto-pathogenic impact (diseases caused by pathogens), pest damage, competition with other plants, the impact of animals)

Radiation

  • radionuclide contamination, ultraviolet radiation, gamma radiation, cosmic radiation, X-ray radiation

Technological

  • plowing the land, using heavy equipment, contamination with heavy compounds

Techno-enic

  • acid rain, smog, lines of high-voltage lines, transformer stations, magnetic field strength and other toxins

Geo-pathogenic

  • various kinds of underground cracks and geological fault lines, underground rivers and lakes, field (based on physical fields), pipelines, mines, cable nets, base stations of mobile communication.

Results of our technologies use

Increment of yield of agricultural production

Shortening of the after-ripening period

Improvement of production quality

The principle of nanocomposites

In 1959 professor Richard Feynman gave the lecture «There’s Plenty of Room at the Bottom», in which he indicated: “The principles of physics, as far as I can see, do not speak against the possibility of maneuvering things atom by atom. It is not an attempt to violate any laws; it is something, in principle, that can be done; but in practice, it has not been done because we are too big”.

We offer technologies, which give a possibility to administer certain atoms and create on their base new substances on extremely (subatomic) level, and possibilities of the molecular world, which is now called as nano-world are unlimited.

In nano-scale size is important, because properties of nanoparticles are significantly different from properties of large solid materials. This difference can be explained by two reasons.

Firstly, the nanoparticle has much more bigger specific area, therefore the value of the area of particle amounts to the unit of its volume.   For example, the total surface of the handful of metal chips is much larger than the metal bar of the same mass. While chemical reactions between solid bodies take place on their surfaces, the bigger surface means the higher reaction speed.

Secondly, the smaller the particle is, the more significant are changes in its magnetic, optical and electric properties. Nanoparticles quickly enter reaction with one another.  Nanometer –is one billionth meter or 10-9 m. The nano-seized molecule is equal to one billionth (1/1 000 000 000) particle of common for our dimensions. The size is determining a factor for the success of nano- and molecular technologies.   Many nano-world phenomena do not occur in the macro world. It is the study of the nano-science that will lead to new discoveries.

Nanotechnologies and technologies on an extremely small scale allow the use of completely new methods of industrial production. Previously downstream approach or top-down approach were used, where a large beginning material is divided into many little fragments, which become part of the single mechanism. This approach resembles the work of the ingenious sculptor Michelangelo Buonarroti, who cut off everything unnecessary from the blocks of marble to create a masterpiece. Modern micro-technologies work in the same way.

We have created conditions, under which many nanoparticles and microcapsules will be generated by self-assembly, i.e. on the basis of self-organization and without the direct intervention of the engineers and scientists. This approach received title of upward or bottom up. Atoms and molecules are independently gathered into nanostructure under the action of chemical and catalytic reactions.

For this purpose, ultra-fast means of production in nano- and extremely small scale, which are nano-equipment, were created and methods of technological-catalytic processes were developed. With the help of the above-mentioned equipment, the structure of the biological molecules for determining of complex nano-mechanics of intra-molecular processes, their optical and other properties was examined and studied. Chemical properties provide information about peculiarities of physical, chemical and biological processes on the nano-scale level.

Modeling of nano-equipment and nano-materials is based on the quantum laws of motion and the interaction of electrons, spins, etc. With their help theorists model the behavior of atoms and molecules, as well as study and prognosticate their interaction.  The whole thing depends on sizes and speed, after solving these problems it is possible to create new materials, manipulating nanoparticles, rather than large-scale objects.

There is huge number of such possibilities on atomic and molecular levels in biology chemistry and physics: diffraction, negentropy, emergence, nano-hydraulics, fluorescence, fractal, isometry, laminar flow, derivatization, monocoque, optoelectronics, orbitals, oscillations, photocatalysis, stratification, parallel processing of data, quantum dots, quantum tunneling, self-assembly, spintronics, superconductivity, roughness, thermoelectric effect.

Living organisms may be used to create nanostructures. Nature is overflowed with diverse carbon systems that perform complex chemical, physical and biological functions. We learned to use these biological systems for the synthesis of nanostructures. Nanotechnologies have a huge potential for the biological availability of inorganic, organic and other substances for exposure to individual cells, organs, microorganisms and even ecosystems.

Biological nanotechnologies transform water-insoluble substances into water-soluble ones, which can function in various liquid solutions, including solutions of a living organism. Our technologies allow increasing the bioavailability of the substance into the cell and its structure through the cell membranes. Most replication of viruses, other chemical reactions occur in the intracellular space. Bioavailability is an ability to transport the substance to the destination point in the cell of the plant, animal or human. This property significantly improves transportation of medical agents in the human body, as well as significantly increases yield and an increase in livestock production in the agrarian sector.

How do we work ?

  • You addres us with an issue that concerns you

  • We make an aplication for the beginning of the works execution

  • you provide us with the necessary information: description of problem, samples of sewing materials, samples of diseased plants with soil

  • Up to 72 hours we produce a finished product to solve your problem

The author of the idea and head of the service, scientist Martsinyshyn Yuriy Danylovych

Scientist, engineer-inventor, founder of noosphere valeology, candidate of psychological sciences, candidate of historical sciences. Full member of the Academy of Noosphere Education and Science, head of the research center "Spiritual and ecological securing of health protection and human vital activity" Department of the UNESCO number 843, laureate of the international award in the field of science (The name in science) in the field of scientific research in Oxford, the winner of the main Gran Prix "Golden Pectoral" (2012) for the intellectual development of modern society and the planetary ecological safety of man. Author of Applied Molecular Biosmart Technologies in Nanoscale for the Agrarian, Forest, Water and Human Ecological Safety.

Project Coordinator Zendzel Andriy Yuriyovych

Scientist, engineer, technologist in agricultural production on the issues concerning introduction and development of the latest eco-innovative technologies of soil fertility restoration, and effective cultivation of environmentally clean products with high - energy in the "Scientific Research Institute of Noospheric Valéology Martsinyshyn ® Health Protection and Planetary Ecological Safety of Man"

Our partners

Contacts

Central office
5ch Kurbasa str., Ternopil city, 47000, Ukraine
(“Halytskyi” market, near  “Podolyany” mall)

phone, fax: +38 (0352) 51-11-16
Kyivstar cell: +38 (067) 200-79-80

agrohelp24@gmail.com

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