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Jędryka, Jarosław
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article
Second harmonic generation on crystalline organic nanoclusters under extreme nanoconfinement in functionalized silica–benzil composites
Abstract
<jats:title>Abstract</jats:title><jats:p>We demonstrate a series of organic–inorganic nanocomposite materials combining the mesoporous silica (<jats:italic>PS</jats:italic>) and benzil (<jats:italic>BZL</jats:italic>) nanocrystals embedded into its nanochannels (6.0–13.0 nm in diameter) by capillary crystallization. One aims to design novel, efficient nonlinear optical composite materials in which inactive amorphous host <jats:italic>PS</jats:italic>-matrix provides a tubular scaffold structure, whereas nonlinear optical functionality results from specific properties of the deposited guest <jats:italic>BZL</jats:italic>-nanocrystals. A considerable contraction of the <jats:italic> BZL</jats:italic> melt during its crystallization inside the silica nanochannels results in a formation of the texture consisting of (221)- and (003)-oriented <jats:italic>BZL</jats:italic> nanoclusters (22 nm in length), separated by voids. Specificity of the textural morphology similarly to the spatial confinement significantly influences the nonlinear optical features of composite <jats:italic>PS</jats:italic>:<jats:italic>BZL</jats:italic> materials being explored in the second harmonic generation (SHG) experiment. The light polarization anisotropy of the SHG response appears to be considerably reduced at channel diameters larger than 7 nm apparently due to the multiple scattering and depolarization of the light on randomly distributed and crystallographically oriented <jats:italic>BZL</jats:italic>-nanoclusters. The normalized SHG response decreases nonlinearly by more than one order of magnitude as the channel diameter decreases from 13.0 to 6.0 nm and vanishes when spatial cylindrical confinement approaches the sizes of a few molecular layers suggesting that the embedded <jats:italic>BZL</jats:italic> clusters indeed are not uniformly crystalline but are characterized by more complex morphology consisting of a disordered SHG-inactive amorphous shell, covering the channel wall, and SHG-active crystalline core. Understanding and controlling of the textural morphology in inorganic–organic nanocrystalline composites as well as its relationships with nonlinear optical properties can lead to the development of novel efficient nonlinear optical materials for the light energy conversion with prospective optoelectronic and photonic applications.</jats:p>