2010
DOI: 10.1021/ja105508b
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The Thermosalient Phenomenon. “Jumping Crystals” and Crystal Chemistry of the Anticholinergic Agent Oxitropium Bromide

Abstract: The anticholinergic agent oxitropium bromide possesses rich crystal chemistry, most remarkably exhibiting a strong thermosalient effect ("jumping crystal" effect), a mechanical property with potential applications in organic-based actuators. The thermosalient effect, manifested in forceful jumps of up to several centimeters, was investigated by a combination of structural, microscopic, spectroscopic, and thermoanalytical techniques, providing data on which to base a proposed mechanism for the phenomenon. Direc… Show more

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Cited by 179 publications
(190 citation statements)
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“…A unique, reversible thermal expansion behaviour was observed for the crystal included with N,N-dimethylformamide ([Mn(pba) 2 ] Á 0.75DMF or 1 . DMF), which exhibits a phase transition at 208-215 K. In this narrow temperature range, V changes þ 0.29% meanwhile, and more remarkably, the unit-cell parameters a, b and c change À 2.6, þ 3.0 and À 0.20%, respectively 46,47 , which in principle could be ARTICLE useful for thermomechanical actuators 22,48 . Above the phase transition temperature, 1 .…”
Section: Resultsmentioning
confidence: 99%
“…A unique, reversible thermal expansion behaviour was observed for the crystal included with N,N-dimethylformamide ([Mn(pba) 2 ] Á 0.75DMF or 1 . DMF), which exhibits a phase transition at 208-215 K. In this narrow temperature range, V changes þ 0.29% meanwhile, and more remarkably, the unit-cell parameters a, b and c change À 2.6, þ 3.0 and À 0.20%, respectively 46,47 , which in principle could be ARTICLE useful for thermomechanical actuators 22,48 . Above the phase transition temperature, 1 .…”
Section: Resultsmentioning
confidence: 99%
“…This observation of crystal motility was to become the first documented report of the thermosalient (TS) effect (Hüpf-Effekt)-the propensity of certain crystals to hop and leap when heated over a phase transition 9,10,18,19 . Two polymorphs, yellow form (a) and red form (b), were characterized 17 .…”
mentioning
confidence: 89%
“…The capability of rapid energy transfer through the dense and ordered packing of molecular single crystals evolves as a new platform for efficient actuation. Dynamic single crystals capable of bending, twisting, curling, rolling or locomotion [4][5][6][7][8][9][10] are prospective candidates for the design of dynamic elements, including artificial tissues and components in microfluidic devices. The fast energy transfer secured by efficient coupling between the thermal/light energy and mechanical energy stands as their main asset towards the design of fast actuators.…”
mentioning
confidence: 99%
“…Upon further heating, the crystals start to move and jump whilst undergoing pseudomorphosis, indicating radical changes to the crystal structure. [31] A preparation of the dihydrate in paraffin oil shows bubble formation accompanying the pseudomorphosis verifying the release of water, which is complete at about 135 °C. Dehydration at such high temperatures is unusual for organic hydrates without cation coordination of the incorporated water and demonstrates the extraordinary stability of this crystal form.…”
Section: Resultsmentioning
confidence: 97%