Stanford researchers have for the first time, demonstrated the use of scaffolding to increase the mechanical and chemical stability of perovskite solar cells.
Stanford researchers have developed a simple and effective method to sort semiconducting from metallic single walled carbon nanotubes (SWNT). This scalable technique uses semiconducting polymers to wrap around individual semiconducting SWNTs dispersed in a solution.
Stanford researchers successfully purified highly enriched semiconducting single-walled carbon nanotubes (SWNT) free of any dispersing agent via an easy, fast and scalable method.
Stanford researchers have developed an elastomer polymer dielectric for high performance transistors with both high gain and high transconductance, which also shows unprecedented high bias-stress stability in air and water.
Stanford researchers have developed a versatile molecular engineering approach, via random copolymerization, to gain good processability while maintaining high charge transport and photovoltaic performance for conjugated copolymers.
Researchers in Prof. Zhenan Bao's laboratory have invented a novel semiconducting material containing siloxane-containing side chains. This material demonstrates high charge carrier mobility, as well as air and operational stability in field effect transistor devices.
Researchers in Prof. Zhenan Bao's lab at Stanford have developed a series of imidazole derivatives for solution processed, n-type doped organic electronic devices.