The power industry is highly conservative because of the long payback times and high capital costs associated with electricity projects. When technologies have severe restrictions, like solar and wind power’s reliance on weather conditions, it becomes extremely difficult for new entrants to enter the power generating market without huge administrative resources. Several factors, like the cost of electricity and the accessibility of transportation networks, contribute to the final price of mass-market items. The public’s capacity to meet their housing needs has been severely hampered by the steep price hikes in building materials experienced over the past year, particularly lumber. If the price of energy increases at the same rate as the fossil fuel phaseout, people’s purchasing power and quality of life could decline.

A company that creates the most effective green technology for generating and transporting power will have a significant competitive advantage and, without a doubt, a sizable share of the market. Even today’s electric cars are not examples of environmental excellence because they must be plugged into an electrical outlet, and the electricity used to power these outlets comes primarily from the burning of „dirty“ fossil fuels like coal and oil. This means that the technology needed to achieve a carbon-free economy by 2050 must be ready for industrial adoption today.

The Neutrino Energy Group, led by German mathematician and doctor of economics Holger Thorsten Schubart, has developed one of the most „advanced“ energy technologies, which is being widely acknowledged and set to undergo testing in industrial production within the next year or two. The new technology significantly modifies the standard scientific research vector now employed by the vast majority of scientists. That’s to be expected, given the rarity of true innovations in the field of electrical power generation. The Neutrino Energy Group began studying the possibility of creating electricity from neutrinos and other kinds of non-visible radiations that are constant and independent of weather conditions or time of day or night. The target set by the experts of Neutrino Energy Group was not out of reach because Nikola Tesla had already made substantial progress in the energy disciplines of power generation and electric mobility. Nikola Tesla’s experiments demonstrated to the scientific community that energy fields might be employed to generate electricity.

In reality, the goal was to comprehend, develop, and put into practice a new technical level of knowledge that had been accumulated over the many years following Nikola Tesla’s death, rather than to precisely reproduce his experiments. Recent neutrino studies and publications refute the widely held belief that neutrinos cannot interact with matter: just as low-energy neutrinos engage with atomic nuclei, so too do high-energy neutrinos. For neutrinos to engage with matter, they must possess an appreciable quantity of mass. Fast progress was made in developing a material that could convert the energy from neutrinos and other radiation fields into an electric current. After years of research and development, scientists have created a multi-layer nanomaterial that consists of alternating layers of graphene and doped silicon, all of which is coated on a metal foil (Patent EP3265850A1). When radiation fluxes like cosmic neutrinos influence on the amplitude and frequency of graphene atom vibrations, which can be seen as waves in a high-resolution microscope, an electrical current is produced. The electrons in graphene, especially those closest to silicon, were thrown off balance by dopant elements. When clouds of electrons scatter their motion in an oblique direction, the resulting electric current is called oblique scattering.

As you may have noticed, neutrino energy‘s potential is literately limitless; for instance, neutrinovoltaic cells do not encounter the same hurdles as other renewable energy sources in terms of efficiency and reliability. Continuous neutrino energy production is possible even when the sun isn’t shining and the wind isn’t blowing. This is a huge advantage, since it allows the technology to produce power continuously, 24/7, throughout the whole year. Due to the fact that neutrinos pass through almost all man-made and natural materials with little resistance, neutrinovoltaic devices may be deployed both inside and outdoors, as well as underwater. Neutrinos continue to bombard the Earth independent of climatic circumstances, making neutrinovoltaic technology humanity’s first fully sustainable energy innovation.

And here is another cool fact about neutrino energy: it’s an energy source that doesn’t require energy storage systems. Neutrinovoltaic technology offers the potential to alleviate the burden of renewable energy sources that rely on storage, even on a small scale. Even if neutrino energy satisfies just 10 percent of a renewable power grid’s entire energy demands, it still eliminates the need to store 10 percent of that system’s electricity in batteries. Decentralization is the essence of neutrinovoltaic technology’s attractiveness. Its Cells can be integrated directly into mobile phones, appliances, automobiles, and other energy-consuming equipment, therefore making it unnecessary to store or squander power by transporting it across the city.

However, the energy sector isn’t the only one profiting from neutrinos’ limitless potential; the electro-mobility business also benefits greatly from them. While the bulk of electric vehicle users still get their power from a wall outlet, anything powered by neutrinovoltaic technology receives its power from the environment. No one has been interested in this kind of energy until now since the internal combustion engine was not intended for it, but for an electric automobile, the ambient energy is like a constant fuel pump, an unlimited cosmic ray surge from the sun, light, neutrinos, and other invisible radiation.

The Car Pi project is a resounding success thanks to the respected Neutrino Energy Group in Berlin, Germany. The company is working hard on developing, constructing, and manufacturing the Car Pi into a one-of-a-kind car that draws its energy simply from the environment—completely independent of the “dishonest” electricity that comes from the combustion of fossil fuels. Making this invention one of the most ambitious tasks ever undertaken by mankind, and it is getting closer to becoming a reality.

This remarkable vehicle generates its own energy by utilizing neutrinos and other non-visible radiations, making it the world’s first automobile that does not require recharging at a standard charging station, instead pulling what it requires to circulate eternally, whether driving or simply sitting motionless. Depending on the situation, just leaving the car outside for an hour can give it up to 100 kilometres of range.

Electric cars are not the only ones that will benefit thanks to neutrinos and other non-visible radiations. After the success of the Car Pi project, the neutrino energy group will move on to the Nautic Pi project as their next step. For the purpose of adapting the technology to electric yachts and boats, more than one thousand engineers will be hired, and more than one billion dollars will be invested. This will make it possible for these vessels to sail the oceans without using even a single drop of fossil fuel, nor will they be required to store energy in batteries.

Neutrino Energy is truly the power of the future, and it is all thanks to the Neutrino Energy Group’s efforts and its impressive neutrinovoltaic technology. Humanity now has a long-awaited and trustworthy solution to the current energy crisis. Due to their hard work, more substantial changes will take place, and hopefully others will follow in their footsteps, and we will live in a better and more environmentally friendly world in the years to come.