Recently, the demonstration of spin injection and transport in hybrid organic semiconductor (OS)-based devices [1] [2] [3] and the…
Organic photovoltaics (OPVs) are promising low-cost solar cells: they can be stacked in multi-junctions, and they are compatible with roll-to-roll…
Singlet exciton fission may find application in more efficient solar cells. Fission can reduce thermalization losses because by splitting the…
We are interested in using ferromagnetic materials to engineer more energy-efficient transistors and logic gates. Transistors today are limited by…
Molecular electronics, integration of biological materials and conventional electronics, electrical and exciton transport in organic materials, energy transfer, metal-organic contacts, low energy transistors.
Exciton transport is universal in every kind of organic optoelectronic devices – including organic light-emitting diodes (OLEDs) and organic solar…
Photolithography’s accuracy and scalability have made it the method for sub-micron-scale definition of single-crystal semiconductor devices for over half a…
Luminescent Solar Concentrators (LSCs) aim to reduce the cost of solar electricity by using an inexpensive collector to concentrate solar…
Many on-chip optical applications, including spectroscopy [1] ; sensing [2] [3] ; nonlinear optics [4] [5] [6] ; and optical…
Organic photovoltaics (OPVs) are promising low-cost solar cells: they can be stacked in multi-junctions, and they are compatible with roll-to-roll…
Photovoltaic solar concentrators aim to increase the electrical power obtained from solar cells. Conventional solar concentrators track the sun to…