Explores solar energy conversion into fuels, reactor concepts, stringent material requirements, proposed devices, efficiency considerations, and net value per energy.
Covers the basics of energy states in matter, thermal transport, and solar systems, emphasizing the importance of electrochemistry in solar energy applications.
Explores the efficiency and technologies of solar photovoltaics, covering working principles, temperature effects, material choices, and market technologies.
Delves into the feasibility of decarbonizing the electricity sector by 2050 using renewable energies, emphasizing economic competitiveness and sustainability.
Explores solar energy conversion devices, thermal transport basics, solar thermal collectors, semiconductors, electrochemistry, and concentrated solar power.
Explores the fundamentals and applications of solar energy, covering characteristics, optics, semiconductor physics, electrochemistry, and thermochemistry.
Covers solar energy conversion principles, device design, efficiency limits, and techno-economics, emphasizing material requirements and system integration.
Explores chemical transformations in (photo) electrocatalytic materials, including interface engineering, CO₂ reduction, and advanced characterization techniques.
