Polarization-Resolved Spectroscopy Imaging of Electronic States in Crystalline Organic Thin Films

Details Polarization-Resolved Spectroscopy Imaging of Electronic States in Crystalline Organic Thin Films Polarization-Resolved Spectroscopy Imaging of Electronic States in Crystalline Organic Thin Films

2011-07-07

arxiv.org/abs/1107.1526v1

Physics

Condensed Matter

Mesoscale and Nanoscale Physics

Scientific paper

The selective coupling between polarized photons and electronic states in materials enables polarization-resolved spectroscopy studies of orbital symmetries, exchange interactions, excitonic states, and collective behavior of electrons in semiconductors. We recently conducted such studies to investigate electronic states in poly-crystalline orthorhombic metal-free phthalocyanine thin films with macroscopic grain sizes, deposited from solution using a recently developed room-temperature pen-writing technique. The molecules stack edge-on forming columns oriented along the crystalline c-axis (columnar axis) parallel to the substrate. A combined linear dichroism (LD)/ polarization-resolved photoluminescence (PL) scanning microscope that simultaneously records the excitonic radiative recombination and the columnar orientation with a spatial resolution of ~ 5{\mu}m was employed to correlate electronic states with the columnar orientation. These measurements indicate the luminescence is dominated at room temperature by the lowest singlet exciton recombination while low temperature time-resolved PL spectra show the presence of a longer-lived, charge transfer exciton state polarized along the columnar axis. More importantly, the PL microscopy spectra recorded from individual grain boundaries reveal the presence of an additional feature associated with a monomer-like state localized at the grain boundary. Our LD survey of grain boundaries indicated the state is only present at grain boundaries where the relative angle between columnar axes from the adjacent grains is larger than 45 degrees. Our observations open up a new area of quantitative science, where we can begin to investigate individual defects in organic films to discover how they affect our ability to manipulate charge and spin carriers, as well as excited states.

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