Opening the door to mass production of green hydrogen using natural sunlight

Opening the door to mass production of green hydrogen using natural sunlight

The Korea Institute of Machinery and Materials (KIMM), under the National Research Council of Science & Technology, has developed a technology that stably generates high photocurrent under natural sunlight to efficiently produce hydrogen.

By simplifying previously complex multi-step processes, this advancement drastically reduces fabrication time and is expected to accelerate the commercialization of solar-powered hydrogen production technologies.

The research team led by Dr. Jihye Lee, a principal researcher and head of the Nano-lithography & Manufacturing Research Center at KIMM’s Nano-convergence Manufacturing Research Division, has developed a technique to enhance the productivity of BiVO4 (bismuth vanadate) photoelectrodes, thereby maximizing hydrogen production.

BiVO4 is a metal oxide recognized as a key material for solar water-splitting systems due to its high light absorption and solar-to-hydrogen (STH) conversion efficiency.

Previously, BiVO4 precursor solutions could only be prepared at concentrations up to 100 mM. This limitation necessitated over eight repetitions of spin-coating and heat-treatment steps to form high-performance thin films, which significantly slowed the process and increased material consumption, resulting in low productivity.

To overcome these limitations, the research team developed a high-concentration BiVO4 precursor solution by optimally mixing acetylacetone, acetic acid, and dimethyl sulfoxide (DMSO). With this new solution, a one-step spin coating is sufficient to produce uniform and high-performance BiVO4 thin films, improving overall productivity by approximately 5.9 times compared to conventional methods.

Furthermore, the team fabricated a large-area 144 cm2 photoelectrode and connected four of them to create a 576 cm2 ultra-large electrode system.

Notably, by linking this system in parallel with Si solar cells, they succeeded in producing hydrogen using only natural sunlight, without any external power source. This system generated stable and high photocurrents even under natural sunlight, thus significantly improving the economic viability and efficiency of eco-friendly hydrogen production and enhancing the prospects for commercialization.

Dr. Jihye Lee stated,

This research represents a breakthrough in the fabrication efficiency and productivity of large-area photoelectrodes through the development of a high-concentration BiVO4 precursor solution.

 

“We expect it will contribute to accelerating the transition to sustainable energy and the commercialization of green hydrogen production.”

The research team has filed for domestic and PCT (Patent Cooperation Treaty) patents based on this technology.

READ the latest news shaping the hydrogen market at Hydrogen Central

Opening the door to mass production of green hydrogen using natural sunlight

 

Opening the door to mass production of green hydrogen using natural sunlight - Hydrogen Central

Opening the door to mass production of green hydrogen using natural sunlight - Hydrogen Central