Descripción del proyecto
El peróxido de hidrógeno podría ayudar a cicatrizar las heridas de la actividad humana en el planeta
El peróxido de hidrógeno (H2O2) podría constituir una alternativa ecológica relevante a los combustibles fósiles. Puede producirse en una celda fotovoltaica que aprovecha la reducción fotoquímica del oxígeno (O2) del aire y, a continuación, emplearse para generar electricidad a través de pilas de combustible de H2O2. Con todo, la producción fotocatalítica de H2O2 sigue siendo un reto técnico y, hasta la fecha, no existe ningún fotocatalizador capaz de funcionar de manera espontánea, es decir, sin necesidad de emplear otros materiales o compuestos. El objetivo del proyecto financiado con fondos europeos USHPP es desarrollar una tecnología para la oxidación fotoquímica espontánea del agua que permita la producción solar de H2O2. El éxito de este trabajo tendrá una repercusión de calado en el empleo de H2O2 ecológico, sostenible y energéticamente denso como alternativa a los combustibles fósiles.
Objetivo
The growing demand for clean energy, and serious nature of global warming are unquestionable. Moreover, the finite nature of fossil fuel reserves and the increasing pace of climate change mean that we must find and harness clean and sustainable energy sources. H2O2 can be one such energy source because it is one of the most potent fuels, generating more energy than any other fuel without generating any pollutant. Although the green hydrogen economy is projected as a solution to clean energy demand, it suffers from storage problems due to the low volumetric energy density in the gas phase. However, there is no storage issue associated with liquid form H2O2. Undoubtedly, the photochemical O2 reduction route has great potential for H2O2 production but the systematic requirements limit its commercialization. However, there is no photocatalyst reported so far, which oxidized the water to H2O2 without any assistance (without the use of a sacrificial agent, external bias, oxygen supply, etc.). This project USHPP (Unassisted photochemical water oxidation to solar hydrogen peroxide production) is designed to address all these problems by synthesizing a stable, shielded, and water oxidizing PC for commercially viable and eco-friendly H2O2 production route. Furthermore, the spontaneous reduction of H+ ions to H2 in conduction band in the proposed USHPP project will resolve the major problem of gases separation associated with photochemical H2 production in powder system (as there will be two separate phases: H2O2 in liquid (oxidative product), and H2 in the gas phase (reductive product)). Further, the success of this project also opens the possibility of simultaneous production of H2O2 via H2O oxidation at valence band, and O2 reduction at conduction band, which will increase the H2O2 production rate without utilizing any sacrificial agent. The best use of in-situ solar H2O2 production system in combination with biocatalysts will bring multidisciplinary aspect to USHPP.
Ámbito científico
- natural scienceschemical sciencescatalysisphotocatalysis
- natural scienceschemical scienceselectrochemistryelectrolysis
- natural scienceschemical sciencescatalysisbiocatalysis
- natural sciencesearth and related environmental sciencesatmospheric sciencesclimatologyclimatic changes
- engineering and technologyenvironmental engineeringenergy and fuelsrenewable energyhydrogen energy
Palabras clave
Programa(s)
Régimen de financiación
MSCA-IF - Marie Skłodowska-Curie Individual Fellowships (IF)Coordinador
CF24 0DE Cardiff
Reino Unido