Complex formation between amylomaize dextrin and n-butanol by phase separation system

Jong Yea Kim; Seung Taik Lim

doi:10.1016/j.carbpol.2010.04.050

Complex formation between amylomaize dextrin and n-butanol by phase separation system

Jong Yea Kim, Seung Taik Lim

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

11 Citations (Scopus)

Abstract

Crystalline dextrin-butanol particles were prepared through a complex formation using separated phases of an aqueous dextrin solution and n-butanol. The dextrin concentration and temperature for the complex formation were important parameters to determine the matrix structure of the complex. When dextrin concentration was relatively high (2 or 3%) and the temperature was low (25 °C), amorphous or B-type crystalline particles were produced. However, at a lower dextrin concentration (1%) and a higher temperature (50 or 70 °C), V_H crystalline particles with d-spacings of 1.123, 0.657, and 0.429 nm were produced. Mechanical stirring during the complex formation resulted in smaller size (less than 200 nm) and higher yield (more than 50% based on dextrin) of the complex. The complex particles had rectangular shapes with sizes less than 200 nm, and mainly consisted of long and linear dextrins.

Original language	English
Pages (from-to)	264-269
Number of pages	6
Journal	Carbohydrate Polymers
Volume	82
Issue number	2
DOIs	https://doi.org/10.1016/j.carbpol.2010.04.050
Publication status	Published - 2010 Sept 5

Keywords

Amylose
Complex
Phase separation
V-dextrin
n-Butanol

ASJC Scopus subject areas

Organic Chemistry
Polymers and Plastics
Materials Chemistry

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10.1016/j.carbpol.2010.04.050

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title = "Complex formation between amylomaize dextrin and n-butanol by phase separation system",

abstract = "Crystalline dextrin-butanol particles were prepared through a complex formation using separated phases of an aqueous dextrin solution and n-butanol. The dextrin concentration and temperature for the complex formation were important parameters to determine the matrix structure of the complex. When dextrin concentration was relatively high (2 or 3%) and the temperature was low (25 °C), amorphous or B-type crystalline particles were produced. However, at a lower dextrin concentration (1%) and a higher temperature (50 or 70 °C), VH crystalline particles with d-spacings of 1.123, 0.657, and 0.429 nm were produced. Mechanical stirring during the complex formation resulted in smaller size (less than 200 nm) and higher yield (more than 50% based on dextrin) of the complex. The complex particles had rectangular shapes with sizes less than 200 nm, and mainly consisted of long and linear dextrins.",

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AU - Kim, Jong Yea

AU - Lim, Seung Taik

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N2 - Crystalline dextrin-butanol particles were prepared through a complex formation using separated phases of an aqueous dextrin solution and n-butanol. The dextrin concentration and temperature for the complex formation were important parameters to determine the matrix structure of the complex. When dextrin concentration was relatively high (2 or 3%) and the temperature was low (25 °C), amorphous or B-type crystalline particles were produced. However, at a lower dextrin concentration (1%) and a higher temperature (50 or 70 °C), VH crystalline particles with d-spacings of 1.123, 0.657, and 0.429 nm were produced. Mechanical stirring during the complex formation resulted in smaller size (less than 200 nm) and higher yield (more than 50% based on dextrin) of the complex. The complex particles had rectangular shapes with sizes less than 200 nm, and mainly consisted of long and linear dextrins.

AB - Crystalline dextrin-butanol particles were prepared through a complex formation using separated phases of an aqueous dextrin solution and n-butanol. The dextrin concentration and temperature for the complex formation were important parameters to determine the matrix structure of the complex. When dextrin concentration was relatively high (2 or 3%) and the temperature was low (25 °C), amorphous or B-type crystalline particles were produced. However, at a lower dextrin concentration (1%) and a higher temperature (50 or 70 °C), VH crystalline particles with d-spacings of 1.123, 0.657, and 0.429 nm were produced. Mechanical stirring during the complex formation resulted in smaller size (less than 200 nm) and higher yield (more than 50% based on dextrin) of the complex. The complex particles had rectangular shapes with sizes less than 200 nm, and mainly consisted of long and linear dextrins.

KW - Amylose

KW - Complex

KW - Phase separation

KW - V-dextrin

KW - n-Butanol

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Complex formation between amylomaize dextrin and n-butanol by phase separation system

Abstract

Keywords

ASJC Scopus subject areas

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