The research focuses on creating surfaces that selectively absorb sunlight and emit heat through near-infrared radiation. This project leverages the combined expertise of the institutions in photonics, advanced materials, applied electromagnetics, and nanofabrication to address a global need for efficient solar energy utilization.
Professor Marian Florescu, Principal Investigator from Surrey, highlighted the importance of the project: "The sun provides an immense amount of energy daily, much more than we currently harness. By advancing these solar-absorbing surfaces, we aim to transform solar energy use into a sustainable powerhouse for our increasing energy needs."
Goals of the project include developing high-temperature solar absorbers, enhancing the efficiency of solar-absorbing structures, and improving the management of heat generated from sunlight. Prototypes will be constructed to demonstrate these technologies.
Professor Marin Cryan, Co-Principal Investigator from the University of Bristol, explained their focus on thermionic solar cell technology, which uses concentrated sunlight to initiate electron emission for high-efficiency solar cells.
Dr. Daniel Ho, Co-Principal Investigator from Northumbria University, added: "Our university leads in thermophotovoltaic research, utilizing advanced thermal analysis techniques. We're excited to contribute to groundbreaking developments in renewable energy."
Related Links
University of Surrey
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