Neutrino Energy

Neutrino Energy: Next Generation of Solar Energy

Solar power was equally sluggish to develop in its early phases. It wasn’t until almost 20 years after the first solar cell was used in space flight in 1958 that solar cells were used on a large scale in small-scale devices like pocket calculators. Solar electricity generated from the visible spectrum has now been commonplace since the early 1990s thanks to photovoltaic technology. The neutrinovoltaic era has arrived, the next step in this evolutionary process. New high-tech materials based on spiking carbon derivatives are now being developed by the Neutrino Energy Group, which might be utilized to generate power from a section of the infrared spectrum.

A solar cell analogous to a neutrinovoltaic may be likened to a solar cell that can generate electricity even in complete darkness, and this new technology will soon be able to augment traditional photovoltaic systems.

Neutrino Energy Group CEO Holger Thorsten Schubart challenged the group’s members to address the problems of the future. “More than ever before, issues like energy production and environmental protection demand a forward-looking approach as well as solutions that can be implemented over the long term. To extricate ourselves from our dependency on nations that own fossil fuels, we need new technologies that can assist us in making this transition.” Afterwards, Schubart emphasized the need of incorporating current scientific findings into the creation of new energy technology techniques.

He also blasted the public’s lack of knowledge about the recent neutrino advances and stressed their enormous potential to help us address our current issues. “On a daily basis, invisible radiation from space provides us more energy than all remaining fossil fuel sources on the planet put together. This vast supply of energy must be exploited. For the future, prudent study should focus on that “Schubart insisted on this.

Last in the Rankings: Germany

The United States and many other nations have previously recognized important results about neutrinos, but the German scientific community has yet to do so. Schubart claims that Germany is currently ranked last in the world for applied research. While it is certainly exciting to learn about the origin of a single neutrino, or to document neutrino activity in the eternal ice at the South Pole and capture one particle every now and then, one should not lose sight of the actual goal, which is to acquire knowledge that can help us to create a better world,” said Schubart.

On the heels of recent scientific breakthroughs, Neutrino Energy Group’s CEO remarked, “We are now in a position to extract energy from invisible, high-energy cosmic and solar radiation utilizing neutrinovoltaic technology.”

Nobel Prize laureates in physics in 2015 demonstrated that neutrinos had mass, and this was confirmed by the Neutrino Energy Group at the beginning of 2015, which had previously published their hypothesis on converting non-visible cosmic radiation into useful energy. University of Chicago scientists two years later proved neutrinovoltaic technology’s foundation by demonstrating that neutrinos can truly move molecules.

In a collision with Matter that is exceedingly dense

To put it another way, neutrinos may set molecules in motion in a manner similar to the way wind turns a windmill blade. This is only possible if the neutrinos hit a very thick substance. A little amount of kinetic energy is lost when they enter the substance. Massive amounts of neutrinos are constantly pelting our planet’s surface, 24 hours a day and so even in complete darkness. About 60 billion neutrinos per second are predicted to flow through a square centimeter of the Earth’s surface.

Neutrino activity is undetectable in normal circumstances because the materials present in nature are not thick enough to be influenced on a regular basis by them. Although neutrinos have yet to be observed, some scientists believe that they may have an impact on or perhaps be responsible for the occurrence of some biological processes. There is no doubt that neutrinos account for a large proportion of the energy in our cosmos. Using neutrinovoltaic technology, future generations will have to figure out how to harness this energy.

The Neutrino Energy Group has developed and patented a material thick enough to be influenced by neutrinos in partnership with highly skilled material researchers (Atomic Vibrations at Nano Materials). This material will be used to make the cores of neutrinovoltaic cells.

Impulses in both the horizontal and vertical directions

Spiked graphene and silicon are put in several thin layers on a suitable substrate in order to get the desired effect. These layers prevent neutrinos from being collected but instead cause the graphene to receive vertical impulses and the silicon particles to travel horizontally. It is possible to convert kinetic energy into electricity when the layers are of an ideal thickness, since the vibrations of the atoms generate a resonance that resonates with the substrate. Power production increases as the area increases, and even a basic calculation shows that enough electricity may be generated to make power lines and electrical plugs obsolete in the near future.

In my opinion, one of the most promising Methods

“There is no denying that we are living in the twenty-first century, which means that we have access to cutting-edge technologies like space travel, laser surgery, and smartphones with touchscreens. On the other hand, when it comes to energy generation, we’re still using an old-fashioned coin-operated phone booth, “opined Schubart. When Gernot Spanninger, an ex-Austrian Undersecretary of State, asked for more bravery: “It’s time to stop stifling innovation by placing too much emphasis on the past and fear! An energy-production technological revolution cannot be stressed strongly enough, or frequently enough“. According to Spanninger, the 2018 Global Risk Report confirms the conclusions of the Katowice Climate Change Conference:”Today’s greatest hazards are the effects of human-caused climate change and the associated extreme weather. For the sake of future generations, we can’t keep delaying action on climate change. Time to put the most recent scientific findings into action! Using neutrinovoltaic technology, we can create new ways to generate energy. In terms of energy technology, this is one of the most promising options out there.”

WO2016142056A1 is the patent number

Newer, firmer, harder, and more elastic composites are needed to convert neutrino-molecule collision kinetic energy into electricity. This energy can be harnessed by the Neutrino Energy Group in collaboration with Professor Günther Krause. Professor Krause is also a member of the Neutrino Energy Group. According to Krause, following thorough laboratory testing, practical solutions need to be created that will allow the renewable and almost endless power that may be generated from this technology to be put to use in a real-world situation. As well, he made it quite obvious that these new methodologies and cognitive processes will be required. A revolution in energy production and climate stability are both expected as a result of the adoption of this ecologically beneficial technology, according to Krause.

For the German government, neutrino radiation is the key option for augmenting renewable energy supplies now that it has committed to a break from nuclear energy and coal, Professor Krause summarized.

In worldwide neutrino energy research, a historic Memorandum of Cooperation ushers in a new era.

In honor of its 25th anniversary, the Centre for Materials for Electronics Technology (C-MET) in Pune, India, has announced a stronger relationship with Berlin, Germany’s Neutrino Energy Group. Under the provisions of the Memorandum of Cooperation, the two institutions will collaborate to develop novel neutrinovoltaic technologies and establish the framework for mass-production of neutrino energy devices. C-MET Pune, which has established itself as one of the world’s premier institutes for breakthrough nanomaterial research, is an excellent match for neutrinovoltaic technologies based on graphene, a simple, abundant, but complex nanostructure.

Human resources from the C-skilled MET will be trained through an active partnership approach.

The Neutrino Energy Group intends to take use of C-MET Pune’s engineering expertise while also training the first generation of neutrinovoltaic specialists. C-MET Pune’s expertise in a wide range of fields, including 2D materials and quantum dots, will be crucial in developing efficient, powerful, and mass-producible neutrino energy systems.

At the conclusion of the meeting, Dr. Holger Thorsten Schubart, Dr. Bharat Kale, and Dr. Vijar Bhatkar unanimously agreed to sign a Memorandum of Cooperation (MOC), with Dr. Schubart representing the Neutrino Energy Group’s international research team and Dr. Kale and Dr. Bhaktar representing C-MET Pune.

It’s likely that the true impact of this incident will take a long time to be known. Future historians will remember 2022 as the year in which both Germany and India achieved substantial advances in the field of sustainable energy engineering.

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Christophe Rude

Christophe Rude

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