Subcell-matched epitaxy of normal long chain compounds on polyethylene. II. On the (100) plane

Takumi Okihara; Akiyoshi Kawaguchi; Masayoshi Ohara; Ken ichi Katayama

doi:10.1016/0022-0248(90)90078-Y

Subcell-matched epitaxy of normal long chain compounds on polyethylene. II. On the (100) plane

Takumi Okihara, Akiyoshi Kawaguchi, Masayoshi Ohara, Ken ichi Katayama

Research output: Contribution to journal › Article › peer-review

6 Citations (Scopus)

Abstract

Polythylene films with surfaces bounded with the (100) plane were prepared by high drawing of ultra-high molecular weight polyethylene mats made of solution-grown crystals. Normal long chain compounds, which are the same as examined in Paper I, were crystallized from solution by solvent evaporation and from the melt on the polyethylene films. Epitaxial crystallization was observed for those compounds that have the same orthorhombic subcell as the polyethylene unit cell. In the epitaxial overgrowth, the normal long chain compounds are arrayed with their axis parallel to the chain axis of polyethylene on the (100) polyethylene plane, performing the lattice coincidence of the (100) polyethylene plane with their corresponding subcell plane, irrespective of the chemical and crystal structures of the crystallized materials.

Original language	English
Pages (from-to)	333-348
Number of pages	16
Journal	Journal of Crystal Growth
Volume	106
Issue number	2-3
DOIs	https://doi.org/10.1016/0022-0248(90)90078-Y
Publication status	Published - Nov 1990
Externally published	Yes

ASJC Scopus subject areas

Condensed Matter Physics
Inorganic Chemistry
Materials Chemistry

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10.1016/0022-0248(90)90078-Y

Cite this

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title = "Subcell-matched epitaxy of normal long chain compounds on polyethylene. II. On the (100) plane",

abstract = "Polythylene films with surfaces bounded with the (100) plane were prepared by high drawing of ultra-high molecular weight polyethylene mats made of solution-grown crystals. Normal long chain compounds, which are the same as examined in Paper I, were crystallized from solution by solvent evaporation and from the melt on the polyethylene films. Epitaxial crystallization was observed for those compounds that have the same orthorhombic subcell as the polyethylene unit cell. In the epitaxial overgrowth, the normal long chain compounds are arrayed with their axis parallel to the chain axis of polyethylene on the (100) polyethylene plane, performing the lattice coincidence of the (100) polyethylene plane with their corresponding subcell plane, irrespective of the chemical and crystal structures of the crystallized materials.",

author = "Takumi Okihara and Akiyoshi Kawaguchi and Masayoshi Ohara and Katayama, {Ken ichi}",

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T1 - Subcell-matched epitaxy of normal long chain compounds on polyethylene. II. On the (100) plane

AU - Okihara, Takumi

AU - Kawaguchi, Akiyoshi

AU - Ohara, Masayoshi

AU - Katayama, Ken ichi

PY - 1990/11

Y1 - 1990/11

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AB - Polythylene films with surfaces bounded with the (100) plane were prepared by high drawing of ultra-high molecular weight polyethylene mats made of solution-grown crystals. Normal long chain compounds, which are the same as examined in Paper I, were crystallized from solution by solvent evaporation and from the melt on the polyethylene films. Epitaxial crystallization was observed for those compounds that have the same orthorhombic subcell as the polyethylene unit cell. In the epitaxial overgrowth, the normal long chain compounds are arrayed with their axis parallel to the chain axis of polyethylene on the (100) polyethylene plane, performing the lattice coincidence of the (100) polyethylene plane with their corresponding subcell plane, irrespective of the chemical and crystal structures of the crystallized materials.

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Subcell-matched epitaxy of normal long chain compounds on polyethylene. II. On the (100) plane

Abstract

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