In the organic electronic research field, it is well known that the largest contribution to
charge transport occurs within the first few nanometers of the semiconductor near the
dielectric interface. Surface Enhanced Raman spectroscopy (SERS) appears as an easy
and straightforward technique to analyze this buried interface and to provide useful
information on molecular orientation at the device active layer.
Here we present the study of the molecular orientation of the widely studied
P(NDI2OD-T2) polymer at the semiconductor/dielectric and semiconductor/metal
interfaces using SERS and DFT calculations. Our first SERS results show a relative
intensification of selected normal modes, which indicates that the orientation of the
polymer changes from a face-on (before annealing treatment) to and edge-on
disposition after melt annealing, being this in good agreement with the previous
results gathered from other techniques (Figure 1).