Our planet has suffered a lot in the past decade from fossil fuels and greenhouse gas emissions, and the alternative renewable energy sources that we have at the moment aren’t adequate enough. However, we shouldn’t lose faith because there are a large number of dedicated and talented scientists and energy experts around the world that have invested a lot of time, and energy into harnessing the power of neutrinos and other non-visible radiations in order to achieve an energy efficient and sustainable future. A future that is now possible thanks to Neutrino Energy Groupe and the amazing Neutrinovoltaic technology. Things, however, certainly didn’t start that way.

In the past, when scientists or people in general met or heard of Neutrino Energy Group founder Holger Thorsten Schubart and his dreams, no one would have disagreed if you’d called Schubart a lunatic, since for many years, the majority of people regarded Schubart’s visions as unrealistic. As opposed to investing in solar cells or creating wind farms, Schubart was adamant about generating sustainable energy from neutrinos and other non-visible radiation. Schubart believes that it is possible to generate electricity from non-visible cosmic radiation, and he has provided evidence to show that he is accurate in making this assertion.

The use of neutrinos and other kinds of non-visible radiation as a source of energy is, in many ways, comparable to the use of photovoltaics. This is because both types of radiation have the ability to convert light into electricity. Instead of collecting neutrinos and other kinds of non-visible radiation, a portion of the energy contained in their kinetic energy is absorbed and then converted into electricity. This is done rather than trying to capture neutrinos themselves.

As opposed to other renewable energy sources in terms of efficiency and dependability, neutrinovoltaic technology does not have the same shortcomings. Due to the fact that neutrinos are able to pass through almost every known material, neutrinovoltaic cells do not require exposure to sunlight in order to work effectively. They are appropriate for use both indoors and outdoors, as well as underwater, making them very versatile.

This technology is not negatively affected by snow or other inclement weather thanks to the simplicity with which neutrinovoltaic devices may be shielded while they produce electricity. Because neutrinovoltaic cells do not depend on visible light for their operation, they can continue to create the same amount of energy even if the number of daylight hours is greatly decreased therefor offering a consistent supply of power since they are not affected by changes in the environment or seasonal changes.

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In addition to making, it possible to develop reliable autonomous sources of energy supply, neutrinovltaic technology will provide mankind on a global scale with a new environmentally friendly source of inexpensive and safe energy, freeing us from the dictates of not only resource supply companies, but also oil and gas corporations, through their widespread adoption into our everyday lives. And this isn’t simply another round of technical advancement; it’s a revolution in the conventional energy supply system, one that will have a profound impact on both the future economic growth of our civilization and the environmental well-being of our planet.

At this point in time, the most significant threats to mankind and our planet are climate change and the severe weather occurrences that are a direct result of it. No more time can be wasted on either the health of future generations or the preservation of our natural resources and environment. It is time to put into practice the most current findings in scientific research! Neutrinovoltaic technology presents opportunities in the field of energy generation that were not before conceivable. It’s one of the most promising methods to create electricity that’s both environmentally friendly and efficient.

From humble beginnings

The scientific world was first perplexed by Schubart’s commitment to what seemed to be a deluded vision. Schubart had definitely taken a different path, since he had already amassed all the money he needed with flying colours. He wanted to alleviate humanity’s energy dilemma and preserve the Earth. Schubart’s neutrino research group was self-funded until 2019. Schubart fronted every single dime that went into the founding of Neutrino Energy Group, and naysayers were willing to brand him irresponsible from the sidelines.

However, as time has progressed, more and more hard scientists have been infected with Schubart’s unwavering faith in his convictions, and at this point, the dream of neutrino energy has won over some of the most influential scientific minds of our century. The number of people who embrace Schubart’s theory has increased to an unfathomable degree, and the number of important scholars who have joined the Scientific Council of the Neutrino Energy Group continues to rise.

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“We sing a song to the foolishness of the brave! To the madness of the brave, we sing glory!”

This quote is brilliantly evoked by Schubart’s vivid dream. As early as the year 2000, scientists were investigating the idea of producing electricity from neutrinos. Schubart’s unusual attempts to gather an international team of scientists capable of proactively addressing the neutrino issue began with the observation of an unexplained increase in atomic vibration while seeking to enhance the efficiency of solar cells.

In 2008, it became abundantly evident that Schubart’s fantasy was really more on the mark than anybody had given him credit for, and attempts started to be made to commercialize the energy that might suddenly be generated from passing neutrinos. On the other hand, history is replete with instances of brilliant innovations that were never brought to public attention as a result of mitigating circumstances that obscured the potential of human ingenuity. It is our responsibility to ensure that the same thing does not occur with neutrino energy, and the members of the Scientific Council of the Neutrino Energy Group, have committed themselves to the undertaking of guaranteeing that Schubart’s vision will not be unsuccessful.

The future of neutrino energy is bright

Before 2015, the majority opinion in the scientific world was that neutrinos do not possess mass. However, when Takaaki Kajita of Japan and Arthur McDonald of Canada were given the Nobel Prize in Physics jointly, this view was met with widespread outrage throughout the scientific community. They came to the conclusion independently that neutrinos do, in fact, have mass, which suggests that these ethereal particles may be used in the generation of energy if they are channeled properly.

The scientific world has already been compelled to concede that neutrinos have mass, and the practical foundation of neutrinovoltaic physics has already been established, and this monumental finding took place years ago. The most recent findings from tests conducted on neutrino energy at German institutions such as the Karlsruhe Institute of Technology are often covered by mainstream magazines like Der Spiegel (KIT). Scientists at ETH (Eidgenossische Technische Hochschule, Zürich) have shown that materials with thicknesses between 10 and 20 nanometers are severely impacted by surface vibrations. These materials are 5,000 times thinner than a human hair, yet the behavior of the whole material is determined by small vibrations on the surface of a single nanoparticle. In addition to revealing intriguing information about the behavior of matter at nano-thicknesses, these investigations independently validate neutrinovoltaic technology.

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Practical neutrinovoltaic technology now exists

Schubart has been discussing the possibility of neutrino energy since 2008, but it is only now that his ideas are being independently confirmed by experts from across the globe. This heightened interest in neutrinovoltaics is not unexpected. After all, technologies with the potential to radically revolutionize the global energy infrastructure appear just once in a generation.

The future neutrino-centric sustainable energy infrastructure is on its way

Already, the technology of neutrinovoltaics has broken out of the confines of the laboratory and is quickly finding its way into consumer gadgets all around the world. In the not-too-distant future, there will be smart houses that run only on the invisible rays of the universe, as well as cellphones that will never need to be charged again. The ability of neutrino energy to generate electricity locally, at the location where it will be used, is possibly the most important benefit that it provides. As a result of this, there is no drop in voltage and there is also no need for the usage of cables or plugs.

Neutrinovoltaic energy devices are very space-efficient, and they call for very little in the way of maintenance or replacement parts. Neutrino Power Cubes of varying output capacities are already in the process of being produced, and consumers will soon have access to these clean energy sources that provide prices that are comparable with existing options. Imagine being able to connect your phone, TV, or space heater into a Neutrino Power Cube that functions in the dark, underground, underwater, or anyplace else in the globe. This would be possible with the Neutrino Power Cube. One of the biggest scientific revolutions of the 21st century will be the development of neutrino energy technology and the utopian future of boundless renewable energy is just around the corner.

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