In-Situ X-Ray Observation of Molecular Structure in Organic Thin Films during Evaporation Process by Total Reflection In-Plane X-Ray Diffractometer

1 December 1992

journal article
Published by IOP Publishing in Japanese Journal of Applied Physics

Vol. 31 (12R) , 4081
https://doi.org/10.1143/jjap.31.4081

Abstract

The in-plane X-ray diffractometer equipped with a vacuum evaporation apparatus was newly developed utilizing the total reflection phenomenon. The measuring system was applied to conduct an in-situ observation of the crystal growth and structural changes in the n-C₃₃H₆₈ molecules during an evaporation process. The results revealed that a certain amount of molecules in the as-evaporated films orient their (010) planes parallel to the surface of the SiO₂ substrate. Moreover, the integrated intensity of the 110 reflection showed variation in the thickness dependence, suggesting that the molecular orientation altered as the interaction between the substrate and the adsored molecules became weaker.

Keywords

This publication has 8 references indexed in Scilit:

Grazing Incidence X-Ray Diffraction Study of Arachidic Acid Monolayer on Cyanine Dye Aqueous Solution
Japanese Journal of Applied Physics, 1991
Annealing effects on molecular orientation in evaporated films of n-paraffins
Thin Solid Films, 1991
Observation of molecular orientation in evaporated films of n-paraffins
Thin Solid Films, 1989
X-ray diffraction study of a Langmuir monolayer of C21H43OH
The Journal of Chemical Physics, 1988
New Evaluation Method of Evaporated Organic Thin Films by Energy Dispersive X-Ray Diffractometer
Japanese Journal of Applied Physics, 1987
Elucidation of the two-dimensional structure of an α-amino acid surfactant monolayer on water using synchrotron X-ray diffraction
Nature, 1987
X-ray total-external-reflection–Bragg diffraction: A structural study of the GaAs-Al interface
Journal of Applied Physics, 1979
Defect structure and molecular motion in the four modifications of n -tritriacontane. I. Study of defect structure in the lamellar interfaces using small angle x-ray scattering
The Journal of Chemical Physics, 1974