Researchers in Prof. Yi Cui's laboratory have used a novel electrospinning process to fabricate a unique, transparent, highly conductive metal nanofiber material that could be used to replace indium tin oxide (ITO) in transparent electrodes.
Engineers in Prof. Fritz Prinz's laboratory have developed a low cost, scalable method to fabricate anti-reflective, highly conductive metal silicide nanowires electrodes for photovoltaic cells.
Stanford engineers have developed and tested a nanostructured thin film material that upconverts infrared to visible light and combines electrical and non-linear optical properties in the same layer.
Stanford researchers have developed and tested a new method of stably and strongly doping CNTs and graphene using MoOx as a nontoxic, inexpensive, vacuum or solution deposited alternative to strong liquid acids.
A team of Stanford engineers have developed a low-cost, solution-processed method to fabricate a flexible nanowire mesh that can be used in transparent electrodes, as a replacement for metal oxides (such as ITO, indium tin oxide).