About BLULAB

BLULAB CORP recognized as pioneer specialized of research and development of high-tech devices, aimed at redefining the global energy landscape.

The history of BLULAB Corp. began in 2013 when the founder, Samuele Baron Caràccioli, after experimenting with various systems for hydrogen production, identified the significant potential for innovation in the commercially available systems.

From the outset of its research activities, BLULAB has been recognized as a pioneer in resonance electrolysis, a technology capable of performing water electrolysis without the use of chemical supports. The success of the early projects in the hydrogen sector, particularly in the automotive field, established BLULAB as a highly specialized consulting organization in the electrochemical sector.

Today, with over a decade of experience in the green hydrogen field, BLULAB primarily focuses on reducing air pollution through the optimization of internal combustion engines on land and sea, endothermic power generators, and heating boilers using pure oxyhydrogen generators obtained without the use of chemical additives and high-efficiency electromethanators that enable the conversion of carbon dioxide into synthetic methane. Ultra-compact devices with high safety standards, once reserved for the industry, are now available on a large scale, enabling access to energy independence, well-being, and individual progress.

In an ever-evolving landscape of technological innovation, every step taken is guided by strategic and decisive choices. Our organization, rooted in classical science, made a bold and visionary turn in 2018 with the establishment of the nanotechnology and electromagnetic sectors. These sectors are crucial for developing innovative and sustainable methods for extracting nanomaterials and analyzing and simulating interactions between electric and magnetic fields to develop new inertial systems.

Nanomaterials, leveraging unique properties at the nanoscale, represent an extraordinary frontier in energy storage. Through the intelligent application and engineering of nanomaterials, we are paving the way for new levels of efficiency and high energy density storage. Concurrently, the development of technologies based on the interaction of electric and magnetic fields for inertial propulsion profoundly transforms our approach to modern engineering challenges.

Our strategy of directing our research towards modern engineering is the foundation upon which we are building the future. This new approach represents a determined vision to anticipate the needs of industry and society, redefining what is concretely possible.