Neutrinos are the most mysterious means of transmitting information in the Universe. Their existence was first suggested by physicist Pauli in 1930. They were discovered experimentally only 26 years later. Physicists are striving to unravel the nature of neutrinos to find answers to the deepest questions about the Universe. Neutrinos are unique particles. They have no charge, almost no mass, and interact only through the weak nuclear force. But they fill every cubic centimeter of space. These particles are born in the interior of stars, during the decay of cosmic rays that reach the atmosphere, and in nuclear reactions occurring inside the Sun. Their numbers make neutrinos both familiar and mysterious—an invisible ocean of energy that permeates everything around us.

3.11.2025 - Press conference in China (https://sputniknews.cn/20251103/1068196750.html ) Holger Thorsten Schubart in the center

But for engineers and materials scientists, the challenge is broader: Can these weak interactions be turned into something useful? And in the first place at present there is a solution to the problem - is it possible to convert a continuous stream of cosmic radiation of the invisible spectrum into electric current? For decades, this question remained only a theory due to the weakness of neutrinos. However, over the past ten years, scientists have begun to understand that at the nanoscale, where crystal lattice vibrations intersect with quantum resonance, even the weakest pulses can be amplified and have a noticeable effect. In recent years, science has made significant progress in studying the conversion of the energy of particles, fields and invisible spectrum radiation, including neutrinos, into electric current. These achievements are inextricably linked with the work carried out by the Neutrino Energy group of companies and personally with the scientific director, mathematician and businessman Holger Thorsten Schubart. This process is based on multilayer nanostructures made of graphene and doped silicon. They are tuned to vibrate at the atomic level. Under the constant bombardment of particles and radiation from space, these layers begin to vibrate, creating an electrical current. This phenomenon allows direct current to be generated without burning fuel or external energy sources.

It should be especially emphasized that in this process energy is not captured, but induced. The materials themselves become resonant instruments. Each collision of a neutrino, muon or photon with a crystal lattice produces an electrical response. This occurs due to the quantum coupling between phonons and electrons. The particle that escapes capture becomes an active participant in continuous transformation. The process of converting movement into energy occurs continuously and silently, making it ideal.

The Neutrinovoltaic system combines several types of interactions. Neutrinos are scattered by electrons, interact with quarks, and coherently scattered by nuclei (CEνNS). The work also involves cosmic muons, radio frequency and microwave fields, thermal and infrared vibrations, and mechanical microvibrations. All these factors complement each other, rather than compete. The effect, although relatively small, for each interaction becomes noticeable when summed over the entire active surface, so the absence or change of one of them does not disrupt the operation of the system. It self-stabilizes and works continuously. The design serves as a bridge between passive observation and active transformation. It combines neutrino physics and applied energy. Unlike solar panels and wind generators, which are dependent on weather, daylight and geographic location, Neutrinovoltaic generators operate regardless of these conditions.

To date, based on pre-industrial life tests, we can confidently state that the fuel-free generator Neutrino Power Cube, created on the basis of Neutrinovoltaic technology, is ready for industrial production. Its output power is 5-6 kW. The generation unit has dimensions of 80x40x60 cm, weight 50 kg, operates silently and without emissions 24/7/365. The generated power is easily scalable by connecting additional modules, which is especially important for power supply to energy-intensive industries, including data centers.

Holger Thorsten Schubart states that today priority is given to organizing the industrial production of Neutrinovoltaic generators. These devices are intended for power supply to private homes, enterprises, organizations, as well as electric transport, including sea and water transport. The construction of plants for the production of Neutrinovoltaic generators, which is already underway in different countries, allows us to quickly enter the electricity generation market. In this regard, plants are being built in several countries, and interest in the development of Neutrinovoltaic energy is growing. For example, on October 31, 2025, an agreement was signed with a large technology company in China to create a joint venture. It will pursue industrial applications of neutrino energy production technology in China and work to transform the global energy structure. The Chinese technology company and the Neutrino Energy group will jointly finance the creation of a Sino-German company that will promote the technology in China and help change the global energy system. Under the agreement, the joint venture will establish research and production activities in China. This will enable the advancement of all-weather power supply technologies in the distributed energy sector. Special power supplies and other areas will also be developed. In the future, the company will take responsibility for technical testing, equipment production, introduction of Neutrinovoltaic production technology in China and its commercial promotion.

Energy is not only an engineering challenge, but also the foundation of opportunity. Autonomous electricity generation, independent of weather conditions or infrastructure, has the potential to change the landscape of equality between regions. This opens up new horizons for remote communities and ensures the smooth operation of critical facilities such as hospitals, schools and data networks. Neutrinovoltaic energy is not only efficient, but also focused on achieving equality. It offers a model of autonomy, freeing one from any form of dependence.

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