The current methods for generating and storing electricity from solar energy have been plagued by conversion losses due to the use of various devices. However, a groundbreaking discovery may change the game entirely. Chemists at Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU) and research institutes around the world are delving into a hydrocarbon molecule that has the potential to convert sunlight into electricity or store the energy in a chemical form for an extended period. This innovative approach could open up possibilities for the development of entirely new organic solar modules.

Traditionally, excess electricity generated by solar modules is transferred to a battery for storage, resulting in a loss of at least 30% of the original converted energy during the process. Professor Dr. Julien Bachmann, along with doctoral candidate Michael Bosch from FAU, are working on leveraging a new property of a known material – norbornadiene. This hydrocarbon isomer can undergo a transformation to a more strained form, quadricyclane, when exposed to ultraviolet light. While the conversion process is not new, the focus has shifted towards making the stored energy available as electricity, even after an extended period.

Unraveling the Mysteries

The physical-chemical mechanisms behind the transitions between the isomers are not yet fully understood. Collaborative efforts between research teams from various countries are aimed at gaining insights into the process using photoelectron spectroscopy. Professor Bachmann emphasizes the importance of understanding the dynamics of the transformation to optimize the design of the molecule for specific functions.

Future research aims to expand the scope beyond ultraviolet excitation and explore the use of a broad spectrum of sunlight for electron excitation. The potential for the norbornadiene-quadricyclane system is substantial, with energy density comparable to a lithium-ion battery. If researchers succeed in effectively controlling the reversible conversion between the two forms, it could lead to the development of efficient solar modules with built-in energy storage capabilities. Additionally, the organic hydrocarbon-based material is cost-effective, does not rely on rare metals, and can be disposed of or recycled in an environmentally friendly manner.

The discovery of a revolutionary hydrocarbon molecule for solar energy conversion and storage could herald a new era in renewable energy technology. With the potential to optimize efficiency, reduce costs, and minimize environmental impact, this innovation has the power to reshape the future of solar energy generation. Collaborative research efforts and a deeper understanding of the underlying mechanisms are crucial for unlocking the full potential of this remarkable discovery.

Chemistry

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