Lingyan Kong scite author profile

We have demonstrated a method of fabricating pure starch fibers with an average diameter in the order of micrometers. In the present study, correlation between the rheological properties of starch dispersions and the electrospinnability was attempted via the extrapolation of the critical entanglement concentration, which is the boundary between the semidilute unentangled regime and the semidilute entangled regime. Dispersions of high amylose starch containing nominally 80% amylose (Gelose 80) required 1.2-2.7 times the entanglement concentration for effective electrospinning. Besides starch concentration, molecular conformation, and shear viscosity were also of importance in determining the electrospinnability. The rheological properties and electrospinnability of different starches were studied. Hylon VII and Hylon V starches, containing nominally 70 and 50% amylose, respectively, required concentrations of 1.9 and 3.7 times their entanglement concentrations for electrospinning. Only poor fibers were obtained from mung bean starch, which contains about 35% amylose, while starches with even lower amylose contents could not be electrospun.

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Fabrication of pure starch fibers by electrospinning

Kong

Ziegler

2014

Food Hydrocolloids

168

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Characterization of Starch Polymorphic Structures Using Vibrational Sum Frequency Generation Spectroscopy

et al. 2014

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The polymorphic structures of starch were characterized with vibrational sum frequency generation (SFG) spectroscopy. The noncentrosymmetry requirement of SFG spectroscopy allows for the detection of the ordered domains without spectral interferences from the amorphous phase and also the distinction of the symmetric elements among crystalline polymorphs. The V-type amylose was SFG-inactive due to the antiparallel packing of single helices in crystal unit cells, whereas the A- and B-type starches showed strong SFG peaks at 2904 cm(-1) and 2952-2968 cm(-1), which were assigned to CH stretching of the axial methine group in the ring and CH2 stretching of the exocyclic CH2OH side group, respectively. The CH2/CH intensity ratios of the A- and B-type starches are significantly different, indicating that the conformation of hydroxymethyl groups in these two polymorphs may be different. Cyclodextrin inclusion complexes were also analyzed as a comparison to the V-type amylose and showed that the head-to-tail and head-to-head stacking patterns of cyclodextrin molecules govern their SFG signals and peak positions. Although the molecular packing is different between V-type amylose and cyclodextrin inclusion complexes, both crystals show the annihilation of SFG signals when the functional group dipoles are arranged pointing in opposite directions.

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Effect of processing parameters on the electrospinning of cellulose acetate studied by response surface methodology

Angel

Guo

Yan

et al. 2020

Journal of Agriculture and Food Research

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Quantitative relationship between electrospinning parameters and starch fiber diameter

Kong

Ziegler

2013

Carbohydrate Polymers

112

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Lingyan Kong

Role of Molecular Entanglements in Starch Fiber Formation by Electrospinning

Fabrication of pure starch fibers by electrospinning

Characterization of Starch Polymorphic Structures Using Vibrational Sum Frequency Generation Spectroscopy

Effect of processing parameters on the electrospinning of cellulose acetate studied by response surface methodology

Quantitative relationship between electrospinning parameters and starch fiber diameter

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