BERLIN, Germany – January 17, 2026 — Neutrinovoltaic, a Berlin-based research and information platform focused on neutrinovoltaic energy concepts, released an informational update summarizing peer-reviewed scientific findings related to particle–matter interactions and electrical effects reported in controlled laboratory environments.
According to Neutrinovoltaic, the update compiles publicly available research from particle physics, condensed matter science, and materials engineering that examines how weakly interacting particles and non-visible radiation may interact with engineered materials under defined experimental conditions. The organization said the release was prepared to provide readers with a consolidated overview of published work referenced in discussions about neutrinovoltaic mechanisms.
Neutrinovoltaic noted that multiple research teams across different institutions have published observations involving charge displacement and voltage responses during materials testing. The organization stated that several studies describe measurements recorded under controlled conditions, including experiments conducted with shielding and standard laboratory controls intended to reduce interference from external sources.
“Peer-reviewed research continues to document particle–matter interaction behavior across several scientific disciplines,” said Mike Hasay, spokesperson for Neutrinovoltaic. “This update is intended to summarize published findings in a way that supports clearer review and discussion of the experimental work currently available.”
The update references datasets produced through particle and neutrino detection facilities, where long-term measurement programs are used to evaluate particle flux and interaction probabilities. Neutrinovoltaic said that while these facilities are generally operated for fundamental research, their published findings provide context for how particle behavior is characterized in scientific literature.
Neutrinovoltaic also cited materials science research involving layered composites, nanostructured surfaces, and engineered alloys that have been evaluated for electrical response behavior during testing. The organization noted that some studies describe repeatable measurement patterns reported across varying test environments, which researchers have used to examine measurement consistency and potential mechanisms.
Neutrinovoltaic noted that neutrinovoltaic concepts are also referenced in research and development discussions by groups such as Neutrino® Energy Group.”
Neutrinovoltaic emphasized that the summarized research does not represent a commercially deployed energy technology. The organization stated that reported outputs described in experimental publications remain limited in scale and that further research is required to evaluate reproducibility, durability, and scalability before potential engineering applications can be assessed.
Additional information about Neutrinovoltaic and its research summaries is available through the organization’s official website.
About Neutrinovoltaic
Neutrinovoltaic is a Berlin-based platform focused on neutrinovoltaic energy concepts and research developments. The organization publishes informational updates and summaries of publicly available scientific studies related to particle–matter interactions, engineered materials, and experimental electrical response mechanisms.
Media Contact
Neutrinovoltaic
Contact: Mike Hasay
Email: info@neutrinovoltaic.com
Website: https://neutrinovoltaic.com
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