Abstract

Single-walled carbon nanotubes (SWCNTs) are nearly ideal one-dimensional systems with potential applications in a wide range of fields. The rich physics of SWCNTs arise from the excitonic nature of their photophysical properties. This review is focused on the results of novel research activities that explore how the photophysical properties of SWCNTs can be altered via their integration with photonic nanostructures including plasmonic structures and photonic microcavities that have resulted in phenomena such as photocurrent enhancement, selection rule breakdown and photoluminescence (PL) modification.

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