Study of Molecular Orientation in Polymers by Fluorescence Polarization

1973 ◽  
pp. 97-111
Author(s):  
G. E. McGraw
Keyword(s):  
Fluorescence Polarization ◽  
Molecular Orientation

scholarly journals THE MOLECULAR ORIENTATION OF AMORPHOUS CHAINS IN POLYMER FILMS FROM FLUORESCENCE POLARIZATION

1974 ◽  
Vol 30 (12) ◽  
pp. T566-T570
Author(s):  
Masao Sumita ◽  
Keizo Miyasaka ◽  
Kinzo Ishikawa
Keyword(s):  
Polymer Films ◽  
Fluorescence Polarization ◽  
Molecular Orientation

Mobility and Molecular Orientation of Vitamin E in Liposomal Membranes as Determined by 19F NMR and Fluorescence Polarization Techniques

1993 ◽  
Vol 303 (1) ◽  
pp. 10-14 ◽  
Author(s):  
S. Urano ◽  
M. Matsuo ◽  
T. Sakanaka ◽  
I. Uemura ◽  
M. Koyama ◽  
...  
Keyword(s):  
Vitamin E ◽  
Fluorescence Polarization ◽  
Molecular Orientation ◽  
19F Nmr ◽  
Liposomal Membranes

Fluorescence polarization method for studying molecular orientation of mono- and multilayered polyimide films prepared by the Langmuir-Blodgett technique

1991 ◽  
Vol 24 (3) ◽  
pp. 659-665 ◽  
Author(s):  
Shinzaburo Ito ◽  
Koichi Kanno ◽  
Satoru Ohmori ◽  
Yoshihiko Onogi ◽  
Masahide Yamamoto
Keyword(s):  
Fluorescence Polarization ◽  
Molecular Orientation ◽  
Polarization Method ◽  
Polyimide Films ◽  
Langmuir Blodgett

Polarized microbeam FT-IR analysis of single fibers

1996 ◽  
Vol 54 ◽  
pp. 206-207
Author(s):  
Liling Cho ◽  
David L. Wetzel
Keyword(s):  
Molecular Orientation ◽  
Transition Point ◽  
Polymer Fibers ◽  
Single Fiber ◽  
Wire Grid ◽  
Polyester Fibers ◽  
Ft Ir ◽  
Ir Analysis ◽  
The Relationship ◽  
Wire Grid Polarizer

Polarized infrared microscopy has been used for forensic purposes to differentiate among polymer fibers. Dichroism can be used to compare and discriminate between different polyester fibers, including those composed of polyethylene terephthalate that are frequently encountered during criminal casework. In the fiber manufacturering process, fibers are drawn to develop molecular orientation and crystallinity. Macromolecular chains are oriented with respect to the long axis of the fiber. It is desirable to determine the relationship between the molecular orientation and stretching properties. This is particularly useful on a single fiber basis. Polarized spectroscopic differences observed from a single fiber are proposed to reveal the extent of molecular orientation within that single fiber. In the work presented, we compared the dichroic ratio between unstretched and stretched polyester fibers, and the transition point between the two forms of the same fiber. These techniques were applied to different polyester fibers. A fiber stretching device was fabricated for use on the instrument (IRμs, Spectra-Tech) stage. Tension was applied with a micrometer screw until a “neck” was produced in the stretched fiber. Spectra were obtained from an area of 24×48 μm. A wire-grid polarizer was used between the source and the sample.

Observing the relaxation of molecular orientation in sheared liquid crystalline polymer solutions

1990 ◽  
Vol 48 (4) ◽  
pp. 1092-1093
Author(s):  
Wendy Putnam ◽  
Christopher Viney
Keyword(s):  
Molecular Orientation ◽  
Liquid Crystalline Polymer ◽  
Liquid Crystalline ◽  
Crystalline Polymer ◽  
Polymer Processing ◽  
Molecular Alignment ◽  
Global Alignment ◽  
Shear Direction ◽  
Axial Strength ◽  
Strength And Stiffness

Liquid crystalline polymers (solutions or melts) can be spun into fibers and films that have a higher axial strength and stiffness than conventionally processed polymers. These superior properties are due to the spontaneous molecular extension and alignment that is characteristic of liquid crystalline phases. Much of the effort in processing conventional polymers goes into extending and aligning the chains, while, in liquid crystalline polymer processing, the primary microstructural rearrangement involves converting local molecular alignment into global molecular alignment. Unfortunately, the global alignment introduced by processing relaxes quickly upon cessation of shear, and the molecular orientation develops a periodic misalignment relative to the shear direction. The axial strength and stiffness are reduced by this relaxation.Clearly there is a need to solidify the liquid crystalline state (i.e. remove heat or solvent) before significant relaxation occurs. Several researchers have observed this relaxation, mainly in solutions of hydroxypropyl cellulose (HPC) because they are lyotropic under ambient conditions.

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