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RESEARCH PRODUCT

Electron Diffraction and Imaging of Uncompressed Monolayers of Amphiphilic Molecules on Vitreous and Hexagonal Ice

J. MajewskiTalmon AradF. LeveillerYeshayahu TalmonLeslie LeiserowitzD. JacquemainMichal LahavC. BöhmL. Margulis

subject

CrystallographyMultidisciplinaryAqueous solutionElectron diffractionChemistryStereochemistryMonolayerMicroscopyNucleationCrystalliteCrystal twinningEpitaxy

description

A new approach is described for probing domains of ordered self-assemblies of amphiphilic monolayers at the aqueous solution interface. The method has potential importance for the study of membrane structure, Langmuir-Blodgett films, and nucleation processes of two-and three-dimensional crystals. Electron diffraction (ED) patterns indicative of two-dimensional crystalline self-assembly were obtained from samples, which were examined by cryo-electron microscopy, of monolayers of water-insoluble amphiphiles on vitrified aqueour substrates. The apparent hexagonal symmetry of an ED pattern from a C(16)H(33)OH monolayer was interpreted in terms of multiple twinning. Monolayers of the CL(31)H(63)OH and cadmium salt of C(19)H(39)CO(2)H that were studied by dark-field techniques displayed faceted two-dimensional crystallites with a maximal size of 1 to 2 micrometers. Epitaxial nucleation of hexagonal ice by the C(31)H(63)OH monolayer has also been demonstrated by ED.

yearjournalcountryeditionlanguage
1993-08-13Science
https://doi.org/10.1126/science.261.5123.899