Global experts propose a path forward in generating clean power from waste energy

SFU professor Vincenzo Pecunia, lead author of ’Roadmap on Energy Harvesti
SFU professor Vincenzo Pecunia, lead author of ’Roadmap on Energy Harvesting Materials,’ showcasing a printable solar cell that can convert indoor light into electricity.
SFU professor Vincenzo Pecunia, lead author of 'Roadmap on Energy Harvesting Materials,' showcasing a printable solar cell that can convert indoor light into electricity. Simon Fraser University professor Vincenzo Pecunia has led a team of more than 100 internationally-recognized scientists in creating a comprehensive -roadmap- to guide global efforts to convert waste energy into clean power. -With the rising global energy demand and the challenges posed by climate change, it is more urgent than ever to generate green energy to preserve our planet and sustain human development,- says Pecunia, from the School of Sustainable Energy Engineering , where he leads the Sustainable Optoelectronics Research Group. -Energy harvesting materials present a promising opportunity to generate clean electricity, ultimately enhancing the energy efficiency of our daily lives and supporting our efforts to combat climate change. These materials have the ability to convert ambient energy from various sources including light, heat, radiofrequency waves (like those from Wi-Fi and mobile signals), and mechanical vibrations. To realize the full potential of energy harvesting technology, Pecunia and 116 leading experts from around the world have published their Roadmap on Energy Harvesting Materials in the Journal of Physics: Materials . The roadmap pools expert perspectives on various types of energy harvesting, recent advances and challenges and also analyzes key performance metrics of these technologies in relation to their ultimate energy conversion limits.
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