Covers the basics of energy states in matter, thermal transport, and solar systems, emphasizing the importance of electrochemistry in solar energy applications.
Covers the formation of Al back-surface field in crystalline silicon solar cells, exploring Al melting, Si dissolution, eutectic liquid formation, and more.
Explores the efficiency and technologies of solar photovoltaics, covering working principles, temperature effects, material choices, and market technologies.
Covers the fundamentals and processes for photovoltaic devices, focusing on thin film technologies and their advantages over wafers, including high efficiency and reduced material use.
Covers thin film solar cells, their advantages, market status, and challenges, including CdTe, CIGS, and perovskite cells, and explores the potential of multijunction cells.
Explores high-efficiency solar cells, discussing PERC, selective emitter, IBC, and TOPCON concepts, along with advancements in GaAs and perovskite cells.
Explores standard cell processing techniques for silicon solar cells, including PERC, PERL, and PERT structures, focusing on efficiency and manufacturing challenges.
Explores the potential of solar energy, efficiency of solar cell technologies, differences between inorganic and organic materials, and advancements in organic solar cell fabrication.
