Energy is one of the most conservative industries, characterized by a long payback period for projects and high capital costs.It is almost impossible for a new player without a strong administrative resource to enter the power generation market, especially if the technologies have pronounced disadvantages, such as dependence, for example, on weather conditions, if we consider solar and wind generation.

Prices for electricity and transport services largely determine the formation of the cost of consumer goods. Over the past year, we have witnessed the strongest currency inflation, when prices, for example, for building materials, including sawn timber, have increased so significantly that it greatly reduces the opportunity for the mass consumer to solve their housing problem. And if such skyrocketing prices are coupled with a boom in electricity driven by the shift away from fossil fuels, the purchasing power of the population and the quality of life could rapidly deteriorate.

At present, with strong political support for the energy transition in power generation and transportation, the company that offers the most efficient green technology will have a real advantage over competitors and, undoubtedly, a significant share of the energy market.

Any technology, even a revolutionary one, will take at least 10-20 years for its widespread implementation, therefore, in order to reach an economy without a carbon footprint by 2050, the technology must already be ready for industrial implementation, because even currently produced electric vehicles are difficult to achieve. be classified as examples of ecological excellence, as they are tied to an electrical outlet, and the current in it still comes mainly from the burning of "dirty" fossil fuels. The most “advanced” energy technologies, which are currently widely known and which will start test industrial production within 1-2 years, include the power generation technology developed by the German company Neutrino Deutschland GmbH under the guidance of mathematician, Doctor of Economics Holger Thorsten Schubart, called Neutrinovoltaic. Technology is fundamentally different from the vector of scientific research that is currently being carried out by the bulk of scientists. And this is not surprising, since real revolutionary discoveries are extremely rare, especially in the field of power generation.

From the very beginning of many years of research work, the Neutrino Deutschland GmbH team has set itself the goal of exploring the possibility of generating electricity under the influence of radiation fields, such as the neutrino flux, including other energy fields that are stable and do not depend on weather conditions and time of day. Energy fields for the needs of electricity supply and electromobility were successfully explored by Nikola Tesla, so the scientific task that the scientists of Neutrino Deutschland GmbH set themselves was not a fantasy task. From the research that the scientific world knew about from the experiments of Nikola Tesla, it followed that electricity could be obtained from energy fields. But the goal was actually not to copy the experiments of Nikola Tesla, for many decades since his death, science has progressively accumulated a serious amount of knowledge that needed only to be comprehended, developed and implemented, but already at a new technological level.

The study of neutrinos and publications of the last 5 years refute the widely held opinion that neutrinos are not capable of interacting with matter: just as low-energy neutrinos interact with atomic nuclei, so do high-energy ones.In principle, the presence of mass in neutrinos is a necessary and sufficient condition for the interaction of neutrinos with matter.The study of neutrinos and publications of the last 5 years refute the widely held opinion that neutrinos are not capable of interacting with matter: just as low-energy neutrinos interact with atomic nuclei, so do high-energy ones.In principle, the presence of mass in neutrinos is a necessary and sufficient condition for the interaction of neutrinos with matter.

It quickly became obvious that a material was required that would allow converting the energy of neutrinos and other radiation fields into electric current, just as solar panels convert radiation in the visible spectrum of radiation. As a result of many years of experiments, a multilayer nanomaterial was created, consisting of alternating layers of graphene and doped silicon, which is applied to a metal foil (Patent EP3265850A1). The mechanism of transformation of the energy of radiation fields, including the effect of cosmic neutrinos, into an electric current lies in their effect on the amplitude and frequency of oscillations of graphene atoms, which occur in the form of graphene waves and are observed in a microscope with high resolution. The addition of alloying elements knocks the graphene electrons out of balance, the electrons closest to silicon experience a certain effect. The overall effect was what physicists call "oblique scattering," a term that defines the process by which electron clouds deflect their motion in one direction, i.e. an electric current appears.It quickly became obvious that a material was required that would allow converting the energy of neutrinos and other radiation fields into electric current, just as solar panels convert radiation in the visible spectrum of radiation. As a result of many years of experiments, a multilayer nanomaterial was created, consisting of alternating layers of graphene and doped silicon, which is applied to a metal foil (Patent EP3265850A1). The mechanism of transformation of the energy of radiation fields, including the effect of cosmic neutrinos, into an electric current lies in their effect on the amplitude and frequency of oscillations of graphene atoms, which occur in the form of graphene waves and are observed in a microscope with high resolution. The addition of alloying elements knocks the graphene electrons out of balance, the electrons closest to silicon experience a certain effect. The overall effect was what physicists call "oblique scattering," a term that defines the process by which electron clouds deflect their motion in one direction, i.e. an electric current appears.

Tightly pressed energy plates, i.e. connected in series, ensure the compactness of direct current sources and the possibility of placing them inside the case not only in electrical appliances, but also in electric vehicle cases. Electric vehicles equipped with such current sources will not need to be charged from a centralized power supply, to implement this ambitious project, Neutrino Deutschland GmbH is working on the creation of a research laboratory, a test and demonstration center and its own production facilities for the production of Pi-electric vehicles with an autonomous power generation plant based on Neutrinovoltaic technology.Tightly pressed energy plates, i.e. connected in series, ensure the compactness of direct current sources and the possibility of placing them inside the case not only in electrical appliances, but also in electric vehicle cases. Electric vehicles equipped with such current sources will not need to be charged from a centralized power supply, to implement this ambitious project, Neutrino Deutschland GmbH is working on the creation of a research laboratory, a test and demonstration center and its own production facilities for the production of Pi-electric vehicles with an autonomous power generation plant based on Neutrinovoltaic technology.

Any new technology must go its own way of technical improvement until recognition and implementation, but today the first decisive steps have already been taken, proving the possibility of applied use of technology, which is based on the transformation of the energy fields around us into electricity. This suggests that in the coming years a serious basis will be created for a new emission-free energy industry, which is necessary to solve climate problems and provide a healthy and environmentally friendly basis for the life of future generations.

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