Molecular Confinement in Nanometer-Size Superlattice Microstructures

10 November 1986

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 57 (19) , 2462-2465
https://doi.org/10.1103/physrevlett.57.2462

Abstract

Using lithographic techniques, we have prepared two-dimensional pores with widths controllable in the range 10- 100 Å. These materials are formed from amorphous superlattices consisting of alternating layers of silicon and silicon dioxide by use of a selective etch. The micropores adsorb hydrocarbons from solution in a size-selective manner. The effects of confinement in these molecular-scale structures are observed by fluorescence spectroscopy: We demonstrate that pyrene molecules trapped in 20-Å pores lack the mobility necessary to form dimers.

Keywords

This publication has 16 references indexed in Scilit:

Electroabsorption measurements of interfaces in a-Si:H/a- ${SiO}_{x}$ :H and a-Si:H/a- ${SiN}_{x}$ :H multilayer films
Physical Review B, 1986
Universal conductance fluctuations in silicon inversion-layer nanostructures
Physical Review Letters, 1986
The Zeolite Cage Structure
Science, 1986
Raman scattering study of amorphous Si-Ge interfaces
Physical Review B, 1985
Evidence for Lattice-Mismatch—Induced Defects in Amorphous Semiconductor Heterojunctions
Physical Review Letters, 1984
Amorphous Semiconductor Superlattices
Physical Review Letters, 1983
Photoeffects on the fluorination of silicon. I. Influence of doping on steady-state phenomena
The Journal of Chemical Physics, 1983
Silicon Micromechanical Devices
Scientific American, 1983
Natural lithography
Applied Physics Letters, 1982
Environmental effects on vibronic band intensities in pyrene monomer fluorescence and their application in studies of micellar systems
Journal of the American Chemical Society, 1977