Abstract
With the availability of purely semiconducting and even monochiral dispersions of single-walled carbon nanotubes in large amounts, the tailored engineering of network properties in optoelectronic devices becomes an intriguing possibility. Charge transport and light emission can be tuned by and investigated at variable temperatures, with different network compositions, in different dielectric environments and dopant concentrations, with light-switchable dipoles, via introduction of sp3-defects and by using responsive wrapping polymers. A few of these examples will be presented and discussed in terms of gained insights into the network properties of sorted carbon nanotubes and their practical applications.
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