<p>➀ Engineers at the University of Colorado Boulder have developed a thermophotovoltaic (TPV) device that challenges fundamental thermal physics by converting thermal radiation into electricity more efficiently than ever before, bypassing Planck’s law.</p><p>➁ The device, led by Assistant Professor Longji Cui, doubles the power output compared to conventional designs and operates at 1,000°C, producing power comparable to existing designs at 1,400°C.</p><p>➂ The innovation involves replacing the vacuum gap between the heat source and solar cell with an infrared-transparent glass spacer, enhancing power density and opening up commercial potential for clean electricity generation in heavy industries.</p>
Related Articles
- Coburg High-Tech Award for Bachelor Thesis: Combating the Threat of Heat Collapse in Electric Motors6 months ago
- Internationalization of the Ernst-Abbe-Hochschule Jena – New Perspectives for Students in the SpEEED Project6 months ago
- From Raw Material Processing to Recycling: New Approaches in Battery Production7 months ago
- FH Aachen Research Award for Prof. Reke and Prof. Ferrein7 months ago
- Hannover Messe: New Climate Technology for Home, Car, and Industry – How Wires and Sheets Cool and Heat Sustainably7 months ago
- Imec and ASML sign five year R&D agreement7 months ago
- IU Innovation Award 2025: Apply Now and Shape the Future of the Real Estate Industry7 months ago
- Efficient Production of Sustainable Aviation Fuel Achieved7 months ago
- Success for European Battery Project: From Raw Material to (Almost) Fully Developed Car Battery8 months ago
- Energy scavenging adhesive tape8 months ago