Luminescence
Properties of Compressed Tetraphenylethene:
The Role of Intermolecular Interactions
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Abstract
Mechanochromic materials with aggregation-induced
enhanced emission
(AIEE) characteristic have been intensively expanded in the past few
years. In general, intermolecular interactions invariably alter photophysical
processes, while their role in the luminescence properties of these
AIEE-active molecules is difficult to fully recognize because the
pressurized samples possess amorphous nature in many cases. We now
report the high-pressure studies on a prototype AIEE-active molecule,
tetraphenylethene, using diamond anvil cell technique with associated
spectroscopic measurements. An unusual pressure-dependent color, intensity,
and lifetime change in tetraphenylethene has been detected by steady-state
photoluminescence and time-resolved emission decay measurements. The
flexible role of the aromatic C–H···π
and C–H···C contacts in structural recovery,
conformational modification, and emission efficiency modulation upon
compression is demonstrated through structure and infrared analysis