The demand for electricity is growing. The reason for this is the development of artificial intelligence and automation. Hydrocarbon reserves no longer determine the efficiency and competitiveness of a country. It is more important to have advanced technologies in various fields in order to move to a new level of development. The Russian leadership understands this well. The current model of economic growth in Russia is no longer relevant, and for further development it is necessary not only to move forward, but to move to a new technological level. This was stated in an interview with the Expert publication by Maxim Oreshkin, who previously held the post of Minister of Economic Development and is now Deputy Head of the Presidential Administration.

However, the new technological level requires a lot of electricity. For example, Russia has problems with data centers. In particular, in Moscow, St. Petersburg and nearby regions there is not enough electricity for data centers. This seriously limits the development of science, including medicine, in the fight against serious and often incurable diseases. The use of artificial intelligence (AI) and neural networks can reduce investment in drug development by four times and the time of their development by two. And this effect of using AI is achieved in many industries.

Many countries, especially developed ones, associate the increase in electricity production with the development of solar and wind generation. Particularly impressive results have been achieved in China. In January-May 2025, 197.9 GW of solar power plants (SPP) were launched in China, which is 388% more than last year. According to the National Energy Administration, the total capacity of solar panels in China has exceeded 1 TW. For comparison, according to IRENA estimates, by the end of 2024, the total capacity of solar panels outside China was 971.2 GW. Chinese solar energy has made significant progress over the past 15 years: in 2010, the total capacity of SPPs in China exceeded 1 GW for the first time, and in 2017, it exceeded 100 GW. This surge in activity in the industry is due not only to falling technology costs, but also to government programs that encourage the installation of solar panels on homes and the sale of excess power to the grid.

However, the question remains how China manages to maintain the frequency of its power grid given the unpredictability of solar generation. Renewable energy sources such as wind and solar are dependent on weather conditions and seasons. To use them effectively, you need to build a backup energy storage system from scratch. This is more difficult than creating a network of wind turbines and solar panels.

While some progress has been made in the energy transition in Europe, the process has been slow and problematic. Experts believe that the initiative, at least as it was conceived, has failed. This situation only highlights the difficulties associated with over-reliance on intermittent renewable energy sources without reliable backup systems.

Even the most efficient buildings, data centers, and industrial facilities need a stable baseload power supply. Solar and wind installations cannot fully meet demand in winter or during peak periods. This leads to reduced efficiency, price volatility, and increased demand for expensive backup systems. However, it is unlikely that China, the EU, and other fossil fuel importers will change their course. The world is experiencing a period of strategic instability, and energy security is becoming a top priority. Therefore, Russia and other hydrocarbon exporters will face a decrease in demand for their products.

Already now, India, one of the largest buyers of Russian oil, together with the Neutrino Energy group of companies, is conducting experimental design work to create an electric vehicle Pi Car with a unique graphene system built into its body for converting the energy of particles of surrounding fields of invisible radiation into electric current. According to information received from Holger Thorsten Schubart, President of Neutrino Energy, the work is progressing according to plan and next year the first prototype of the electric vehicle will be manufactured, on the basis of which tests will be conducted.

The system, which converts energy from surrounding radiation fields, is based on an innovative material consisting of many layers. These layers, in turn consisting of graphene and doped silicon, are capable of converting the kinetic energy of particles of invisible radiation fields, including neutrinos, into electric current. These multilayer structures have unique properties that allow them to convert subatomic mechanical interactions into electromotive force. However, the efficiency of this process depends on the precise arrangement of crystals, doping gradients and vibrational coupling.

The development of the Pi Car electric vehicle has made a conceptual breakthrough: now the car is considered not just a passive body, but an active element interacting with the environment and its energy field. Each part of the car becomes part of a decentralized energy system, turning it into a quantum-active structure.

India will also be home to Neutrino Energy’s 5-6 kW net fuel-free Neutrino Power Cubes, powered by Neutrinovoltaic technology. These generators are guaranteed power sources and operate in base mode 24/7/365. Neutrinovoltaic systems are immediately integrated into smart building platforms. They “adapt” to the HVAC cycles and respond to peak loads. These systems provide detailed performance diagnostics, which are then used by AI to optimize operations at all levels - from microgrid management to real-time fault detection.

All these steps are in line with countries’ goals to improve the efficiency of electricity generation using digital technologies and meet the growing demand for energy consumption for us and future generations.

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