Comparison Study of Hydrogels Properties Synthesized with Micro- and Nano- Size Bacterial Cellulose Particles Extracted from Nata de coco

The effect of different size of bacterial cellulose particles used in the production of hydrogel was investigated. Bacterial cellulose was extracted from nata de coco, a local dessert origin from the Philippines. Micro size particle was prepared by conventional grinding of dried sheet of bacterial c...

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Main Authors: N. S., Johari,, I., Ahmad,, N., Halib,
Format: Article
Language:English
Published: Croatian Soc Chemical Engineering Technology 2015
Subjects:
Online Access:http://ddms.usim.edu.my/handle/123456789/8090
http://pierre.fkit.hr/hdki/cabeq/pdf/26_4_2012/Cabeq%202012-04-10.pdf
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spelling my.usim-80902015-12-29T03:47:06Z Comparison Study of Hydrogels Properties Synthesized with Micro- and Nano- Size Bacterial Cellulose Particles Extracted from Nata de coco N. S., Johari, I., Ahmad, N., Halib, Bacterial Cellulose Acrylic Acid Electron Beam Hydrogel Swelling Degree The effect of different size of bacterial cellulose particles used in the production of hydrogel was investigated. Bacterial cellulose was extracted from nata de coco, a local dessert origin from the Philippines. Micro size particle was prepared by conventional grinding of dried sheet of bacterial cellulose whereas cellulose nanoparticle was prepared by acid hydrolysis treatment. Both were then used in hydrogels formulation with acrylic acid (in ratio of 70% of bacterial cellulose dispersion to 30% acrylic acid) and exposed to electron beam irradiation (40 kGy). TEM observation showed nano cellulose particle, having range of dimension of 80 - 160 nm in length and 13 - 22 nm in diameter. It was found that hydrogel with nano cellulose has higher glass transition temperature (39 degrees C) as compared to micro cellulose hydrogel (32 degrees C). SEM observation revealed that swollen nano cellulose hydrogel has smaller and homogenous pores arrangement while micro cellulose has bigger and irregular pores thus affecting their swelling degree. 2015-05-18T02:50:13Z 2015-05-18T02:50:13Z 2012 Article 0352-9568 http://ddms.usim.edu.my/handle/123456789/8090 http://pierre.fkit.hr/hdki/cabeq/pdf/26_4_2012/Cabeq%202012-04-10.pdf en Croatian Soc Chemical Engineering Technology
institution Universiti Sains Islam Malaysia
building USIM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universit Sains Islam i Malaysia
content_source USIM Institutional Repository
url_provider http://ddms.usim.edu.my/
language English
topic Bacterial Cellulose
Acrylic Acid
Electron Beam
Hydrogel
Swelling Degree
spellingShingle Bacterial Cellulose
Acrylic Acid
Electron Beam
Hydrogel
Swelling Degree
N. S., Johari,
I., Ahmad,
N., Halib,
Comparison Study of Hydrogels Properties Synthesized with Micro- and Nano- Size Bacterial Cellulose Particles Extracted from Nata de coco
description The effect of different size of bacterial cellulose particles used in the production of hydrogel was investigated. Bacterial cellulose was extracted from nata de coco, a local dessert origin from the Philippines. Micro size particle was prepared by conventional grinding of dried sheet of bacterial cellulose whereas cellulose nanoparticle was prepared by acid hydrolysis treatment. Both were then used in hydrogels formulation with acrylic acid (in ratio of 70% of bacterial cellulose dispersion to 30% acrylic acid) and exposed to electron beam irradiation (40 kGy). TEM observation showed nano cellulose particle, having range of dimension of 80 - 160 nm in length and 13 - 22 nm in diameter. It was found that hydrogel with nano cellulose has higher glass transition temperature (39 degrees C) as compared to micro cellulose hydrogel (32 degrees C). SEM observation revealed that swollen nano cellulose hydrogel has smaller and homogenous pores arrangement while micro cellulose has bigger and irregular pores thus affecting their swelling degree.
format Article
author N. S., Johari,
I., Ahmad,
N., Halib,
author_facet N. S., Johari,
I., Ahmad,
N., Halib,
author_sort N. S., Johari,
title Comparison Study of Hydrogels Properties Synthesized with Micro- and Nano- Size Bacterial Cellulose Particles Extracted from Nata de coco
title_short Comparison Study of Hydrogels Properties Synthesized with Micro- and Nano- Size Bacterial Cellulose Particles Extracted from Nata de coco
title_full Comparison Study of Hydrogels Properties Synthesized with Micro- and Nano- Size Bacterial Cellulose Particles Extracted from Nata de coco
title_fullStr Comparison Study of Hydrogels Properties Synthesized with Micro- and Nano- Size Bacterial Cellulose Particles Extracted from Nata de coco
title_full_unstemmed Comparison Study of Hydrogels Properties Synthesized with Micro- and Nano- Size Bacterial Cellulose Particles Extracted from Nata de coco
title_sort comparison study of hydrogels properties synthesized with micro- and nano- size bacterial cellulose particles extracted from nata de coco
publisher Croatian Soc Chemical Engineering Technology
publishDate 2015
url http://ddms.usim.edu.my/handle/123456789/8090
http://pierre.fkit.hr/hdki/cabeq/pdf/26_4_2012/Cabeq%202012-04-10.pdf
_version_ 1645152338762006528
score 13.214268