Breakthrough solutions are being sought worldwide to generate renewable and clean energy to meet the challenges of the future.
Impossible Fusion GmbH’s business is to develop a fusion cell in which energy is generated in the smallest possible space through “low-energy nuclear reactions”. The fusion cell is to be used wherever energy is needed. Our business is innovative and unique worldwide; there is no comparable product or project on the market.
In the fusion cell, a catalytic fusion of heavy hydrogen to helium takes place at room temperature. The fusion cell is similar to a fuel cell or battery, but far superior in terms of energy efficiency.
“Low-energy nuclear reactions” are a type of sustainable energy generation that has been known since the 1940s, but whose mechanism has not yet been scientifically explained. A publication in 1989 gave rise to worldwide hope that this type of energy generation would produce practically inexhaustible energy. However, the results proved to be irreproducible, which meant that virtually no research has been carried out since then. Instead, tens of billions are currently being invested in hot fusion (including the ITER project), where a breakthrough is expected in 10-20 years at the earliest.
New research projects initiated by the EU Commission, NASA, the US Navy and Google, among others, as a result of the climate crisis are showing energy-positive results, on which Impossible Fusion GmbH is building the development of a fusion cell.
Our unique selling point is the combination of existing approaches with new ones (including carbon nanotubes, rare earth metals, laser induction) and measuring devices for fusion products, which have only recently become available.
The market potential for the fusion cell is estimated to be well over 100 billion euros. The time and place for the development of a fusion cell are ideal because innovative solutions are being sought to generate sustainable energy.
Sources
https://www1.grc.nasa.gov/space/science/lattice-confinement-fusion
https://cordis.europa.eu/project/id/951974/de
https://cordis.europa.eu/project/id/952184
https://www.alliedmarketresearch.com/renewable-energy-market
https://www.statista.com/statistics/1094309/renewable-energy-market-size-global 3 https://www2.deloitte.com/us/en/pages/energy-and-resources/articles/renewable-energy-outlook.html
Anderson, Mark (23 October 2012). “Big Idea: Bring Back the “Cold Fusion” Dream. A new theory may explain the notorious cold fusion experiment from two decades ago, reigniting hopes of a clean-energy breakthrough“. Discover Magazine.
Widom, A; Larsen, L (April 2006). “Ultra Low Momentum Neutron Catalyzed Nuclear Reactions on Metallic Hydride Surfaces“. The European Physical Journal C. 46 (1): 107. arXiv:cond-mat/0505026. Bibcode:2006EPJC…46..107W. doi:10.1140/epjc/s2006-02479-8.
Tennfors, Einor (15 February 2015). “On the idea of low energy nuclear reactions in metallic lattices by producing neutrons from protons capturing “heavy” electrons“. European Journal of Physics. 128 (2): 15. Bibcode:2013EPJP..128…15T. doi:10.1140/epjp/i2013-13015-3. Retrieved 24 March 2017.
Srivastava, Y; Widom, A; Larsen, L (October 2014). “A primer for electroweak induced low-energy nuclear reactions“. Pramana – Journal of Physics. Retrieved 24 March 2017.
Impossible Fusion 