Barony Power Corp. in the United States has initiated a collaborative project with the University of Tasmania and Deakin University to focus on producing 3D printed components for Green Hydrogen Electrolysers and Hydrogen Fuel Cells. The project aims to revolutionize the manufacturing process of Green Hydrogen components, potentially making them more accessible and cost-effective. The development of novel BPC Green Electrolysers and Fuel Cells using 3D printing methods could lead to a paradigm shift in the industry, enhancing the competitiveness of Green Hydrogen as a clean energy source. Green Hydrogen, produced from renewable sources like wind, solar, and hydro, is seen as a game-changer in reducing greenhouse gas emissions and can be utilized in various sectors, from transportation to industrial power generation. Despite facing challenges, such as making silica glass conductive for electrolysis components, the project's success could have far-reaching implications. The green hydrogen market is expected to grow significantly, with estimates suggesting a market value of $1.4 trillion per year by 2050. Barony Power Corp.'s focus on developing efficient and low-cost Green Hydrogen electrolyser and fuel cell components reflects the industry's shift towards sustainable energy solutions. The company's innovative approach, coupled with the use of 3D printing technology and proprietary materials, positions them as key players in the evolution of Green Hydrogen technology.