2017
DOI: 10.1002/app.44901
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Preparation of microcrystalline cellulose from rice straw under microwave irradiation

Abstract: Crude cellulose was isolated from rice straw and then converted into microcrystalline cellulose (MCC) via partial hydrolysis. Both the isolation and partial hydrolysis were carried out under microwave. Rice straw was successively pretreated with alkaline and acid solutions before hydrolysis. Lignin and silica were almost removed but partial removal of hemicellulose in dilute alkali solution, and the residual hemicellulose was further removed in dilute acid solution. The total removal rates of hemicellulose, li… Show more

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Cited by 28 publications
(5 citation statements)
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“…The recent research is focused on a wide range of underutilized lignocellulosic material as low price by converting waste products into value-added products. The lignocellulosic waste having high content of cellulose such as corn cobs (Shao et al 2020), cotton wool (Rashid et al 2017), orange mesocarp (Ejikeme 2008), jute (Jahan et al 2011), rice straw (Fan et al 2017), date palm (Abu-Thabit et al 2020), soybean hulls (Merci et al 2015), mulberry (Li et al 2009), sugar beet pulp (Dinand et al 1999), tea waste (Zhao et al 2018) and sugarcane bagasse (Zhang et al 2013) are excellent sources for the production of MCC. The production of MCC can be achieved via mechanical route (Hanna et al 2001), biological route (Adel et al 2010) and chemical route (Haafiz et al 2013).…”
Section: Introductionmentioning
confidence: 99%
“…The recent research is focused on a wide range of underutilized lignocellulosic material as low price by converting waste products into value-added products. The lignocellulosic waste having high content of cellulose such as corn cobs (Shao et al 2020), cotton wool (Rashid et al 2017), orange mesocarp (Ejikeme 2008), jute (Jahan et al 2011), rice straw (Fan et al 2017), date palm (Abu-Thabit et al 2020), soybean hulls (Merci et al 2015), mulberry (Li et al 2009), sugar beet pulp (Dinand et al 1999), tea waste (Zhao et al 2018) and sugarcane bagasse (Zhang et al 2013) are excellent sources for the production of MCC. The production of MCC can be achieved via mechanical route (Hanna et al 2001), biological route (Adel et al 2010) and chemical route (Haafiz et al 2013).…”
Section: Introductionmentioning
confidence: 99%
“…The amorphous regions of cellulose that act as structural defects can be removed, inducing a transverse cleavage of cellulose fibers into rod‐like particles . The most common source of extracting CMC is from cotton, ramie, wheat straw, and bamboo . The physical dimensions of the CMC are found to vary with the cellulosic source material and the preparation condition .…”
Section: Introductionmentioning
confidence: 99%
“…Dilamian and Noroozi (2019) used mechanical treatments consisting of high shear homogenisation and high intensity ultrasonication to isolate the CNF fraction. Other advanced techniques have also been used to obtain high purity cellulose fractions from RS that would be later converted into cellulose nanospheres (Fan, Wang, Song, Yan, & Li, 2017). Louis et al…”
Section: Nanocelluloses From Rsmentioning
confidence: 99%