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When Crystals Behave Like an Acrobat: The Case of Oxitropium Bromide and N'-2-Propylidene-4-Hydroxybenzohydrazide

Speaker Dr. Jasminka Popovic
Affiliation Division for Materials Physics,
Rudjer Boskovic Institute, Croatia
Date March 15, 2017 (Wednesday)
Time 11:00 a.m.
Venue Room 522, 5/F, Chong Yuet Ming Physics Building, HKU

Abstract
 

Targeted design of new actuating materials which are capable of fast, reversible and controllable mechanical motion in response to external stimuli (thermal or light) is at the frontier of the contemporary materials science research. Among these, the few serendipitously discovered examples of crystals that suddenly jump while heated, to distances several thousand times larger than their own dimension in less than 1 ms, provide the most impressive display of the conversion of thermal energy into mechanical work. These thermosalient crystals are biomimetic, nonpolymeric self-actuators par excellence. This lecture will give an overview of the most important examples of the thermosalient systems reported in the literature so far, with the special emphasis on two compounds: (i) oxitropium bromide and (ii) N'-2-propylidene-4-hydroxybenzohydrazide.  

In oxitropium bromide, the anticholinergic agent, thermosalient effect is a macroscopic manifestation of a highly anisotropic change in the cell volume1. The cell distortion is accompanied by a conformational change of the oxitropium cation, which triggers increased separation between the ion pairs in the lattice at nearly identical separation between the cation and the anion within each ion pair. The high temperature phase can also be obtained by grinding or UV irradiation of the room-temperature phase.  
 
Literature reports that N'-2-propylidene-4-hydroxybenzohydrazide exhibits three polymorphic modifications (I, II and III) with the phase transitions III being thermosalient2. Our experiments will additionally show that reversible III↔II phase transition is thermosalient as well3. Detailed structural (high-temperature in-situ XRPD) and theoretical (DFT) study using nonemipirical vdW-DF-cx functional was performed in order to explain jumping phenomenon in this system. 
 
1. Ž. Skoko et al. (2010) J. Am. Chem. Soc. 132, 14191-14202.
2. R. Centore et al. (2012) Crystengcomm 14, 2645-2653.
3. J. Popović et al. (2017) submitted to J. Am. Chem. Soc.
 

Coffee and tea will be served 20 minutes prior to the seminar.
Anyone interested is welcome to attend.