Explores the chemistry and conduction mechanisms of organic semiconductors, including hybridization, conjugation, singlets, triplets, exciton binding, and relaxation processes.
Explores incoherent and polaronic transport in disordered organic solids, discussing criteria for disorder-controlled transport, charge transfer mechanisms, and temperature dependence.
Explores transport, generation, and recombination in semiconductors, covering drift and diffusion conductivities, trapping mechanisms, various recombination channels, and the role of traps and recombination centers.
Explores the fundamentals and advancements in organic electronic materials, covering topics like electron delocalization, charge transport, semiconductor preparation, and sustainable engineering.
Covers the transport properties of semiconductors, focusing on charge dynamics, drift currents, and the relationship between mobility and conductivity.
Reviews ultrafast carrier and spin dynamics in 2D semiconductors and their heterostructures, exploring unique optical responses and novel applications.
Explores the fundamentals and applications of organic electronics, covering intramolecular electron delocalization, charge formation, challenges, and sustainability.
