Seong G. Kim scite author profile

The effects of adding epoxy-functionalized chainextender (CE) and processing conditions such as die temperature on the cell morphology, volume expansion ratio (VER), open cell content (OCC), and crystallization of microcellular extruded polylactide (PLA) were investigated. When compared with pure PLA, the addition of talc decreased the average cell size and increased the cell density. Moreover, the simultaneous addition of talc and CE led to denser and more uniform cell structure up until 1.0% CE content. In general, the volume expansion ratio and open cell content of all the formulations decreased with the die temperature. The addition of talc decreased both VER and OCC, whereas the addition of CE increased both. The die temperature did not affect the degree of crystallinity significantly. The addition of talc increased the crystallinity, but the addition of CE decreased it. Finally, the molecular weight of PLA increased significantly with the addition of CE. FIG. 4. Variation of average cell size with (a) die temperature and (b) formulation. FIG. 5. Variation of cell density with (a) die temperature and (b) formulation. FIG. 8. Variation of degree of crystallinity with (a) die temperature and (b) formulation.

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Synthesis and electrorheological properties of polyaniline-Na+-montmorillonite suspensions

Kim¹,

Kim²,

Choi³

1999

Macromol. Rapid Commun.

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Microcellular extrusion foaming of poly(lactide)/poly(butylene adipate-co-terephthalate) blends

Pilla

Kim

Auer

et al. 2010

Materials Science and Engineering: C

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Errors in RNA NOESY distance measurements in chimeric and hybrid duplexes: differences in RNA and DNA proton relaxation

Wang¹,

Kim²,

Flynn³

et al. 1992

Biochemistry

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Nuclear magnetic resonance experiments reveal that the base H8/H6 protons of oligoribonucleotides (RNA) have T1 relaxation times that are distinctly longer than those of oligodeoxyribonucleotides (DNA). Similarly, the T1 values for the RNA H1' protons are approximately twice those of the corresponding DNA H1' protons. These relaxation differences persist in single duplexes containing covalently linked RNA and DNA segments and cause serious overestimation of distances involving RNA protons in typical NOESY spectra collected with a duty cycle of 2-3 s. NMR and circular dichroism experiments indicate that the segments of RNA maintain their A-form geometry even in the interior of DNA-RNA-DNA chimeric duplexes, suggesting that the relaxation times are correlated with the type of helix topology. The difference in local proton density is the major cause of the longer nonselective T1s of RNA compared to DNA, although small differences in internal motion cannot be completely ruled out. Fortunately, any internal motion differences that might exist are shown to be too small to affect cross-relaxation rates, and therefore reliable distance data can be obtained from time-dependent NOESY data sets provided an adequately long relaxation delay is used. In hybrid or chimeric RNA-DNA duplexes, if the longer RNA relaxation times are not taken into account in the recycle delay of NOESY pulse sequences, serious errors in measuring RNA proton distances are introduced.

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Seong G. Kim

Microcellular extrusion‐foaming of polylactide with chain‐extender

Synthesis and electrorheological properties of polyaniline-Na+-montmorillonite suspensions

Microcellular extrusion foaming of poly(lactide)/poly(butylene adipate-co-terephthalate) blends

Errors in RNA NOESY distance measurements in chimeric and hybrid duplexes: differences in RNA and DNA proton relaxation

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