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Exploring Electronic Structure and Order in Polymers via Single-Particle Microresonator Spectroscopy.

Erik H HorakMorgan T ReaKevin D HeylmanDavid Gelbwaser-KlimovskySemion K SaikinBlaise J ThompsonDaniel D KohlerKassandra A KnapperWei WeiFeng PanPadma GopalanJohn C WrightAlán Aspuru-GuzikRandall H Goldsmith
Published in: Nano letters (2018)
PSS, a transparent electrically conductive polymer, finds widespread use in electronic devices. While empirical efforts have increased conductivity, a detailed understanding of the coupled electronic and morphological landscapes in PEDOT:PSS has lagged due to substantial structural heterogeneity on multiple length-scales. We use an optical microresonator-based absorption spectrometer to perform single-particle measurements, providing a bottom-up examination of electronic structure and morphology ranging from single PEDOT:PSS polymers to nascent films. Using single-particle spectroscopy with complementary theoretical calculations and ultrafast spectroscopy, we demonstrate that PEDOT:PSS displays bulk-like optical response even in single polymers. We find highly ordered PEDOT assemblies with long-range ordering mediated by the insulating PSS matrix and reveal a preferential surface orientation of PEDOT nanocrystallites absent in bulk films with implications for interfacial electronic communication. Our single-particle perspective provides a unique window into the microscopic structure and electronic properties of PEDOT:PSS.
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