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Isotope Effect on the Melting Temperature of Nonpolar Polymers
F. S. Bates
, H. D. Keith
, D. B. Mcwhan
Chemical Engineering and Materials Science
Research output
:
Contribution to journal
›
Article
›
peer-review
46
Scopus citations
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Keyphrases
Isotope Effect
100%
Melting Temperature
100%
Hexatriacontane
66%
X Ray Diffraction
33%
Room Temperature
33%
Deuterium
33%
Polyethylene
33%
Monoclinic
33%
Isotopic Substitution
33%
Cross-sectional Area
33%
C-H Bond
33%
Methyl Groups
33%
Orthorhombic
33%
Isotactic Polypropylene
33%
Experimental Error
33%
Hydrogenated
33%
Molecular Volume
33%
Molecular Polarizability
33%
Rotational Degrees of Freedom
33%
Isotactic Polystyrene
33%
Melting Entropy
33%
Earth and Planetary Sciences
X Ray Diffraction
100%
Polystyrene
100%
Deuterium
100%
Room Temperature
100%
Polypropylene
100%
Isotope Effect
100%
Hydrogen Bond
100%
Degree of Freedom
100%
Pharmacology, Toxicology and Pharmaceutical Science
Hydrogen Bond
100%
Styrofoam
100%
Methyl Group
100%
Polypropylene
100%
Deuterium
100%
Material Science
Deuterium
100%
Polyethylene
100%
X-Ray Diffraction
100%
Polystyrene
100%
Polypropylene
100%
Chemistry
Melting Point
100%
Isotope Effect
100%
Hexatriacontane
50%
Ambient Reaction Temperature
25%
X-Ray Diffraction
25%
Molecular Volume
25%
Methyl Group
25%
Poly(propylene)
25%
Polarizability
25%
Deuterium
25%
Engineering
Melting Temperature
100%
Melting Point
100%
Rotational
25%
Degree of Freedom
25%
Sin
25%
Monoclinic
25%
Slight Reduction
25%
Room Temperature
25%
Molecular Polarizabilities
25%
X Ray Diffraction
25%