Extraction and characterization of cellulose nanofibers from yellow thatching grass (Hyparrhenia filipendula) straws via acid hydrolysis

Abstract: Purpose: A variety of lignocellulosic raw materials have been previously reported for the production of cellulose and cellulose derivatives, but little research effort has been dedicated to producing cellulose from Hyparrhenia filipendula . In this study, cellulose nanofibers (CNFs) were extracted from Hyparrhenia filipendula waste straws via sulphuric acid hydrolysis. Methods: The straws were pretreated with a combination of physiochemical processes and hydrolyzed using sulphuric acid at three different conce… Show more

“…In cellulose, every single monomer unit comprises three hydroxyl groups responsible for cellulose's bonding and characteristic properties. Different types of methods have been reported to isolate the Cellulose Nano Fiber (CNF) from lignocellulosic materials, which include acid hydrolysis (yellow thatching grass) [3], high-pressure homogenization, ball milling, and grinding [4], catalytic oxidation (e.g., Oryza sativa) [5], ultrasonication [1] and enzymatic technique [6], respectively. Chemo-mechanical treatment increases the interfacial bonding strength by making the CNF surface available for further modification through hydrogen bonding during the preparation of CNF-based nanocomposites and potential mechanical interlocking between the CNF surface and base matrix of polymer nanocomposite [7].…”

Isolation and Characterization of Cellulose Nanofiber (CNF) from Kenaf <i>(Hibiscus cannabinus)</i> Bast through the Chemo-Mechanical Process

“…In cellulose, every single monomer unit comprises three hydroxyl groups responsible for cellulose's bonding and characteristic properties. Different types of methods have been reported to isolate the Cellulose Nano Fiber (CNF) from lignocellulosic materials, which include acid hydrolysis (yellow thatching grass) [3], high-pressure homogenization, ball milling, and grinding [4], catalytic oxidation (e.g., Oryza sativa) [5], ultrasonication [1] and enzymatic technique [6], respectively. Chemo-mechanical treatment increases the interfacial bonding strength by making the CNF surface available for further modification through hydrogen bonding during the preparation of CNF-based nanocomposites and potential mechanical interlocking between the CNF surface and base matrix of polymer nanocomposite [7].…”

Isolation and Characterization of Cellulose Nanofiber (CNF) from Kenaf <i>(Hibiscus cannabinus)</i> Bast through the Chemo-Mechanical Process