Scalable Device Uses Solar Power to Produce Green Hydrogen
23 Jun 2025
2 Min Read
CW Team
In a significant advancement for sustainable energy, scientists at the Centre for Nano and Soft Matter Sciences (CeNS) in Bengaluru have developed a next-generation device capable of producing green hydrogen using only solar energy and earth-abundant materials. The breakthrough offers a scalable and efficient solution for hydrogen production without relying on fossil fuels or costly inputs.
Led by Dr Ashutosh K. Singh, the research team engineered a silicon-based photoanode using an innovative n-i-p heterojunction architecture鈥攁 layered structure composed of n-type titanium dioxide (TiO鈧�), intrinsic silicon, and p-type nickel oxide (NiO). This configuration enhances charge separation and transport, ensuring more efficient solar-to-hydrogen conversion. The materials were deposited using magnetron sputtering, an industry-friendly, scalable process that guarantees high precision.
The device demonstrated a surface photovoltage of 600 millivolts and a low onset potential of approximately 0.11 VRHE, making it highly efficient under solar illumination. Notably, the system showed exceptional stability, functioning continuously for over 10 hours in alkaline conditions with only a 4 per cent drop in performance鈥攁 rare accomplishment in silicon-based photoelectrochemical systems.
What makes this development particularly promising is its combination of high efficiency, low energy input, cost-effective materials, and durability. The team also demonstrated large-scale potential, with a 25 square centimetre photoanode delivering consistent results in solar-driven water splitting.
鈥淭his device not only enhances performance but is also scalable for large-scale production,鈥� said Dr Singh, adding that the achievement brings India a step closer to affordable solar-to-hydrogen energy systems.
The research, published in the Journal of Materials Chemistry A by the Royal Society of Chemistry, could play a pivotal role in India鈥檚 clean energy transition. With further development, this technology may support hydrogen-based power systems for homes, vehicles, and industries, all sustainably powered by the sun.
In a significant advancement for sustainable energy, scientists at the Centre for Nano and Soft Matter Sciences (CeNS) in Bengaluru have developed a next-generation device capable of producing green hydrogen using only solar energy and earth-abundant materials. The breakthrough offers a scalable and efficient solution for hydrogen production without relying on fossil fuels or costly inputs.Led by Dr Ashutosh K. Singh, the research team engineered a silicon-based photoanode using an innovative n-i-p heterojunction architecture鈥攁 layered structure composed of n-type titanium dioxide (TiO鈧�), intrinsic silicon, and p-type nickel oxide (NiO). This configuration enhances charge separation and transport, ensuring more efficient solar-to-hydrogen conversion. The materials were deposited using magnetron sputtering, an industry-friendly, scalable process that guarantees high precision.The device demonstrated a surface photovoltage of 600 millivolts and a low onset potential of approximately 0.11 VRHE, making it highly efficient under solar illumination. Notably, the system showed exceptional stability, functioning continuously for over 10 hours in alkaline conditions with only a 4 per cent drop in performance鈥攁 rare accomplishment in silicon-based photoelectrochemical systems.What makes this development particularly promising is its combination of high efficiency, low energy input, cost-effective materials, and durability. The team also demonstrated large-scale potential, with a 25 square centimetre photoanode delivering consistent results in solar-driven water splitting.鈥淭his device not only enhances performance but is also scalable for large-scale production,鈥� said Dr Singh, adding that the achievement brings India a step closer to affordable solar-to-hydrogen energy systems.The research, published in the Journal of Materials Chemistry A by the Royal Society of Chemistry, could play a pivotal role in India鈥檚 clean energy transition. With further development, this technology may support hydrogen-based power systems for homes, vehicles, and industries, all sustainably powered by the sun.
Next Story
Brigade Group Launches Morgan Heights Project in Chennai
Brigade Group has announced the launch of Brigade Morgan Heights, a new residential project on Sholinganallur-Medavakkam Road in Chennai. Spanning 14.7 acre, the development has a gross development value (GDV) of approximately Rs 21 billion and a development potential of 2.2 million sq. ft. The project comprises 1,250 units across three towers, offering 2, 3, and 4 BHK apartments with sizes extending up to 2,599 sq ft. Located just 150 metres from the upcoming Classical Tamil Institute Metro Station, it offers excellent connectivity to IT hubs such as Elcot IT Park, Wipro, and Cognizant, ..
Next Story
ACCE (I) to Host National Meet on Future High-Rise Buildings
The Association of Consulting Civil Engineers (India) [ACCE (I)], Hyderabad Centre, will host a Two-Day National Conference on 鈥楴ext-Gen Highrise Buildings 鈥� Advancements in Composite and Steel Structures鈥� on 11th and 12th July 2025 at ESCI Campus, Centenary Convention Centre, Gachibowli, Hyderabad. The event is expected to draw 800 participants from across India, including engineers, builders, architects, and policymakers, creating a platform for collaboration and knowledge exchange. More than 14 eminent speakers will share expert insights on structural stability, sustainability, a..
Next Story
Saya Group Ties Up with Lemon Tree for 336 Business Suites in G-Noida
In a significant move to redefine urban business hospitality, Saya Group has partnered with Carnation Hotels Pvt. Ltd., a subsidiary of Lemon Tree Hotels, to manage and operate 336 BIZTOP Business Class Suites at Saya SouthX, Greater Noida West. These fully serviced suites, located across the 7th to 25th floors, are designed to cater to the evolving needs of entrepreneurs, professionals, and corporate travellers. Each suite averages 668 sq. ft. and blends modern interiors, amenities, and professional hospitality, operated under the BIZTOP brand by Lemon Tree Hotels. 鈥淭his col..
