Piezochromic materials, which show color changes resulting from external pressure or
mechanical grinding, are of great interest from a scientific viewpoint owing to their
potential applications as pressure-sensing and optical-recording systems.[1] It has
been recently discovered solid-state fluorescence properties and piezochromic
luminescence in a family of 9,10-Bis((E)-n-(pyrid-2-yl)vinyl)anthracene, BPnVA (n=2
orto-,3 metha- and 4 para-) compounds, see Figure 1.[2] The crystal structures indicate
that the three compounds with varying position of the nitrogen on the external pyridyl
exhibit different molecular packing modes. In this work, we aim at providing further
insight into the interplay played by the molecular and supramolecular structural
changes and the luminescence changes observed under pressure by using a combined
experimental-theoretical approach that links Raman spectroscopy with DFT
calculations.