By packing molecules closer together, chemical engineers at Stanford have dramatically improved the electrical conductivity of organic semiconductors. The advance could herald flexible electronics, more efficient solar panels and perhaps even better television screens.
Organic semiconductors could usher in an era of foldable smartphones, better high-definition television screens and solar clothing that turns sunlight into electricity for recharging your iPad. But there is one serious drawback: Organic semiconductors do not conduct electricity very well.
In a paper to be published in the journal Nature, researchers at Stanford led by chemical engineer Zhenan Bao have changed that equation by improving the ability of the electrons to move through organic semiconductors. The secret is in packing the molecules closer together as the semiconductor crystals form, a technique engineers describe as “straining the lattice.”