Acoustic Emission from Organic Martensites

In salient effects, still crystals of solids that switch between phases acquire a momentum and are autonomously propelled because of rapid release of elastic energy accrued during a latent structural transition induced by heat, light, or mechanical stimulation. When mechanical reconfiguration is induced by change of temperature in thermosalient crystals, bursts of detectable acoustic waves are generated prior to self‐actuation. These observations provide compelling evidence that the thermosalient transitions in organic and organic‐containing crystals are molecular analogues of the martensitic transitions in some metals, and metal alloys such as steel and shape‐memory alloys. Within a broader context, these results reveal that, akin to metallic bonding, the intermolecular interactions in molecular solids are capable of gradual accrual and sudden release of a substantial amount of strain during anisotropic thermal expansion, followed by a rapid transformation of the crystal packing in a diffusionless, non‐displacive transition. Kristallbeben: Eine Temperaturänderung induziert eine mechanische Umkonfigurierung in thermisch hüpfenden Kristallen, durch die vor der Bewegung nachweisbare Schübe von Schallwellen freigesetzt werden. Diese Beobachtung deutet darauf hin, dass diese Übergänge in organischen (oder teilweise organischen) Kristallen ein molekulares Analogon der martensitischen Übergänge in einigen Metallen und Legierungen sind (z. B. in Stahl und Legierungen mit Formgedächtnis).