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Neutrinovoltaics Powers Energy Shift Beyond Grid and Fuel
Technology

Neutrinovoltaics Powers Energy Shift Beyond Grid and Fuel

A global energy transition is no longer optional—it is essential. While solar and wind remain dominant, an emerging technology promises to redefine the infrastructure of the future. Developed by the Neutrino® Energy Group, neutrinovoltaic technology has advanced from concept to industrial reality, offering decentralised, round-the-clock energy generation for use across mobility, aerospace, marine systems, and high-security communication. 

Neutrinovoltaic systems convert the kinetic energy of neutrinos and other non-visible radiation into electricity. These omnipresent particles interact with a nanomaterial made of alternating layers of graphene and doped silicon, generating atomic vibrations. The resulting resonance is transformed into direct current—enabling a controlled and scalable energy source. 

At the centre of this breakthrough is the Neutrino Power Cube, a modular, emission-free generator delivering 5–6 kilowatts of power. Weighing only 50 kilograms, it runs silently and independently of fuel, weather, or location—making it ideal for decentralised, off-grid energy solutions. 

Neutrinovoltaic technology also powers the Pi Car, an electric vehicle that recharges while in motion through embedded neutrinovoltaic materials in its panels. It can gain up to 100 km of range after an hour in ambient conditions. Collaborators on this project include Simplior Technologies, C-MET Pune, and SPEL Technologies, with retrofitting options for existing EV platforms. 

In aerospace, Pi Fly focuses on UAVs and VTOL aircraft powered by neutrinovoltaics and supercapacitors, supported by mobile hydrogen refuelling units. Nautic Pi, the Group’s marine programme, is developing energy-autonomous vessels for remote operations and underwater missions. 

Meanwhile, Project 12742 explores neutrino-based communication systems. Unlike radio waves, neutrinos pass through dense materials with minimal interference, paving the way for secure, real-time transmission through oceans or planetary bodies. 

“With no fuel, no emissions, and no dependency on existing infrastructure, neutrinovoltaics is not just a future solution—it is a present reality,” said the Group. Supported by over 40 countries and a multidisciplinary team of scientists and engineers, Neutrino® Energy Group is actively deploying this technology across sectors. 

A global energy transition is no longer optional—it is essential. While solar and wind remain dominant, an emerging technology promises to redefine the infrastructure of the future. Developed by the Neutrino® Energy Group, neutrinovoltaic technology has advanced from concept to industrial reality, offering decentralised, round-the-clock energy generation for use across mobility, aerospace, marine systems, and high-security communication. Neutrinovoltaic systems convert the kinetic energy of neutrinos and other non-visible radiation into electricity. These omnipresent particles interact with a nanomaterial made of alternating layers of graphene and doped silicon, generating atomic vibrations. The resulting resonance is transformed into direct current—enabling a controlled and scalable energy source. At the centre of this breakthrough is the Neutrino Power Cube, a modular, emission-free generator delivering 5–6 kilowatts of power. Weighing only 50 kilograms, it runs silently and independently of fuel, weather, or location—making it ideal for decentralised, off-grid energy solutions. Neutrinovoltaic technology also powers the Pi Car, an electric vehicle that recharges while in motion through embedded neutrinovoltaic materials in its panels. It can gain up to 100 km of range after an hour in ambient conditions. Collaborators on this project include Simplior Technologies, C-MET Pune, and SPEL Technologies, with retrofitting options for existing EV platforms. In aerospace, Pi Fly focuses on UAVs and VTOL aircraft powered by neutrinovoltaics and supercapacitors, supported by mobile hydrogen refuelling units. Nautic Pi, the Group’s marine programme, is developing energy-autonomous vessels for remote operations and underwater missions. Meanwhile, Project 12742 explores neutrino-based communication systems. Unlike radio waves, neutrinos pass through dense materials with minimal interference, paving the way for secure, real-time transmission through oceans or planetary bodies. “With no fuel, no emissions, and no dependency on existing infrastructure, neutrinovoltaics is not just a future solution—it is a present reality,” said the Group. Supported by over 40 countries and a multidisciplinary team of scientists and engineers, Neutrino® Energy Group is actively deploying this technology across sectors. 

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