T. M. Putvinski scite author profile

Polar orientation of molecules in solids leads to materials with potentially useful properties such as nonlinear optical and electrooptical activity, electrochromism, and pyroelectricity. A simple self-assembly procedure for preparing such materials is introduced that yields multiple polar dye monolayers on solid surfaces joined by zirconium phosphate-phosphonate interlayers. Second harmonic generation (SHG) shows that the multilayers have polar order that does not decrease with increasing numbers (up to a large number) of monolayers in the film. The inorganic interlayers, as determined by SHG, impart excellent orientational stability to the dye molecules, with the onset of orientational randomization above 150 degrees C.

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Surface structure and thermal motion of n-alkane thiols self-assembled on Au(111) studied by low energy helium diffraction

Camillone¹,

Chidsey²,

Liu³

et al. 1991

203

161

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Low energy helium diffraction has been used to study the packing and thermal motion of the terminal CH3 groups of monolayers of n-alkane thiols self-assembled on Au(111)/mica films and a Au(111) single crystal surface. At low temperatures (<100 K), the terminal CH3 groups are arranged in domains containing a hexagonal lattice with a lattice constant of 5.01 Å. As the length of the carbon chain is shortened, an abrupt decrease in the diffraction peak intensities is observed for CH3(CH2)9SH/Au(111)/mica, and no diffraction is observed for CH3(CH2)5SH/Au(111)/mica. This is indicative of a sudden decrease in surface order at around ten carbon atoms per chain. A semi-quantitative estimation of the average domain size of each monolayer surface shows a maximum of 46 Å at intermediate chain length [CH3(CH2)13SH/Au(111)/mica], decreasing to 26 Å at longer [CH3(CH2)21SH/Au(111)/mica] and 41 Å at shorter [CH3(CH2)9SH/Au(111)/mica] chain lengths. No phase transitions could be detected at the surfaces of these monolayers from 35 K to 100 K, but as expected for a soft material, the thermal motion of the n-alkane thiol molecules increases with increasing surface temperature and reduces the diffraction intensities to zero at around 100 K. The relative mean square displacements of the surface CH3 groups along the directions perpendicular and parallel to the surface have been calculated from the temperature dependence of the diffraction peak intensities using the standard Debye–Waller formalism. The measured values are in good agreement with the results from a recent molecular dynamics simulation. [J. Hautman and M. Klein, J. Chem. Phys. 93, 7483 (1990).]

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Self-assembly of organic multilayers with polar order using zirconium phosphate bonding between layers

Putvinski¹,

Schilling²,

Katz³

et al. 1990

Langmuir

143

137

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Synthesis, self-assembly, and photophysical dynamics of stacked layers of porphyrin and viologen phosphonates

Ungashe¹,

Wilson²,

Katz³

et al. 1992

J. Am. Chem. Soc.

136

122

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T. M. Putvinski

Coadsorption of ferrocene-terminated and unsubstituted alkanethiols on gold: electroactive self-assembled monolayers

Polar Orientation of Dyes in Robust Multilayers by Zirconium Phosphate-Phosphonate Interlayers

Surface structure and thermal motion of n-alkane thiols self-assembled on Au(111) studied by low energy helium diffraction

Self-assembly of organic multilayers with polar order using zirconium phosphate bonding between layers

Synthesis, self-assembly, and photophysical dynamics of stacked layers of porphyrin and viologen phosphonates

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