The 17th International Workshop on Anomalies in Hydrogen Loaded Metals (IWAHLM-17), held in Bergamo from March 24 to 26, 2026, has just concluded, bringing together researchers, engineers, and innovators working at the forefront of Low Energy Nuclear Reactions (LENR).
FutureOn Srl participated in the event with a multi-layered contribution, combining scientific research, technological development, and public-oriented communication.
1. A Scientific Contribution: Bringing Structure to LENR Data
At the core of FutureOn’s participation was the presentation of a scientific poster entitled: “A Geometric Classification of the Five Recurrent Mass Windows in LENR Transmutation Data.”
You can view or download the poster here.
The work addresses a long-standing challenge in LENR research: the apparent fragmentation of experimental results. Over decades, transmutation products have consistently appeared within five narrow atomic mass ranges, yet without a unifying framework to interpret them.
The proposed approach introduces a simple geometric parameter that allows nuclear masses to be mapped onto a common reference scale, enabling a systematic classification across the periodic table. Rather than proposing a specific physical mechanism, the work focuses on a useful and practical step toward future theoretical and experimental advances.
This contribution reflects FutureOn’s commitment not only to experimental progress, but also to conceptual clarity in a complex and evolving field.
2. A Public-Facing Poster: From Lab to Real-World Applications
In parallel with the scientific contribution, FutureOn presented a second, fully divulgative poster, focused on its technological developments and long-term vision.
You can view or download the poster here.
The poster showcased:
- the Catalyzed Plasma Reactor (CPR) in its multilayer configuration;
- FutureOn’s three reactor families (CPR, STR, SSFER);
- the LEAPGEN platforms, designed for scalable heat and power generation;
- a structured development roadmap from laboratory prototypes to industrial systems.
It also highlighted the company’s role within the European Horizon 2020 CleanHME project and its ongoing efforts to translate experimental results into reliable, scalable clean energy solutions .
This second poster played a key role in bridging the gap between scientific research and practical applications, making FutureOn’s work understandable and relevant to a wider audience.
3. Bridging Science and Innovation
FutureOn’s participation in IWAHLM-17 reflects a broader strategy: integrating fundamental research, experimental validation, and technological development into a coherent path toward innovation.
An image from our 4-minute video-presentation of the outreach exhibition.
From identifying patterns in complex datasets to developing modular reactor platforms, the company continues to explore LENR as a potential component of future clean energy systems, while maintaining a rigorous, evidence-based approach.
4. Looking Ahead
The ideas presented at the workshop represent only one step in an ongoing research program. Future work will further explore how geometric classification tools can be combined with material properties to guide experimental design and optimize reactor performance.
As the field evolves, events like IWAHLM provide an essential platform for dialogue, validation, and collaboration. FutureOn is proud to contribute to this process, at the intersection of science, engineering, and the future of energy.