Our Story...
The company was founded to address and exploit three inter‑connected challenges: rapidly increasing energy demand, limited clean‑energy resources and the global push to achieve net‑zero emissions. Electric utilities will need to increase generation by roughly 26% by 2028, requiring about US$900 billion in new revenue for infrastructure. Wholesale electricity prices are projected to rise significantly, with data centres driving a large share of demand growth. Conventional electrodes for electrolysers and fuel cells depend on catalysts made from expensive rare metals and minerals like platinum and iridium, making hydrogen equipment costly and limiting large‑scale adoption.
In response, our researchers have developed a new electrode using common ceramics enhanced with assorted carbon based materials. Our first 3D printed prototypes have already achieved up to twenty times the conductivity of platinum while being inexpensive, very light weight and corrosion‑resistant.
Mission & Vision
Barony Power’s Mission is strictly to enrich itself and its investors through timely participation in the economically justifiable global energy transition from fossil fuels to hydrogen use. Barony Power Corp’s Vision is to further develop and provide the commercially viable, technological means in which to participate as a market leader in this sector.
Combining 3D Printing with our novel materials to create cost‑effective, light weight, energy dense, durable and efficient electrolysers, fuel cells and hydrogen storage Barony Power Corp has now produced unparalleled low mass to high energy ratio prototypes. Through partnerships with the University of Tasmania and Deakin University, Melbourne, Australia, Barony Power Corp holds exclusive rights to patents that enable unprecedented hydrogen generating, hydrogen storing and hydrogen utilizing equipment as well as the synthesis of Hydrogen based green fuels such as Ammonia, Methanol, Propanol and Ethanol.
BPC is currently engaged in designing and costing its own independent 3D printing facility. This facility will engage in the commercial scale up of its 3D printed electrodes, electrolysers and fuel cells. As a consequence of these scale-up activities new I.P. is certain to present itself and yield more commercially attractive opportunities.