Researchers develop a novel organic device for obtaining hydrogen from water and sunlight
Hydrogen has great potential as a fuel. Researchers at the Photovoltaic and Optoelectronic Devices Group at the Universitat Jaume I have developed an organic device reduces water into hydrogen using only sunlight. Currently, organic materials used in these devices offer greater versatility and efficiency at a lower cost than the available inorganic ones, but they show stability problems when in contact with an aqueous medium. A study published in the Journal of Physical Chemistry achieves an exceptional stability in these devices and represents an important step in obtaining solar fuels from organic materials.
Sixto Giménez, coordinator of the research, noted, "The production of hydrogen has been achieved in three hours, demonstrating a stability of organic materials that had not been reached so far."
Organic photovoltaic devices corrode in water and damage very easily. "Our strategy has been to place a physical barrier between the photovoltaic component and the catalyst that makes the hydrogen generation reaction. In order to achieve this, we have deposited compact layers with nanometric titanium oxide material that not only acts as a barrier between the water and the photovoltaic part, but also connects electrically the photovoltaic part and the platinum catalyst. Using this strategy, we can greatly increase stability while maintaining the performance of these devices," said the researcher Antonio Guerrero.
Obtaining solar fuels like hydrogen from water and sunlight is a strategy aimed at solving the global energy problem. "We can have totally renewable resources like sunlight and water for obtaining an energetic conductor such as hydrogen. In addition, hydrogen is a chemical compound with endless applications in industry such as the generation of fertilizers or the synthesis of hydrogen compounds," noted Giménez.
The research has been developed under the PHOCS (Photogenerated Hydrogen by Organic Catalytic Systems) project, funded under the 7th Framework Programme of the European Union, which aims to develop new devices based on organic semiconductor materials to perform the photodecomposition of water, leading to the efficient generation of hydrogen. It seeks to optimize the use of cheaper and more sustainable materials for the production of hydrogen.
The contribution to the PHOCS project by the team led by Sixto Giménez at the Universitat Jaume I has been to understand which are the physicochemical mechanisms that operate these devices. They have used different techniques developed in the laboratories of the Photovoltaic and Optoelectronic Devices Group. Moreover, the group has developed its own organic device that stands out for its level of stability. The next step will be improving the efficiency of the device, especially its energy conversion capacity.