Cellulose I and II nanocrystals produced by sulfuric acid hydrolysis of Tetra pak cellulose I

[Display omitted] •Cellulose I fibers were isolated from waste Tetra pak packages.•Sulfuric hydrolysis generated nanocrystals with different cellulose I to II ratios.•Cellulose nanocrystal polymorphs ratio could be controlled by acid hydrolysis time. Polymorphism is an important factor associated wi...

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Bibliographic Details
Published in:Carbohydrate polymers 2018-07, Vol.192, p.184-192
Main Authors: Xing, Lida, Gu, Jin, Zhang, Weiwei, Tu, Dengyun, Hu, Chuanshuang
Format: Article
Language:English
Subjects:
Cellulose I and II
Cellulose nanocrystal
Sulfuric acid hydrolysis
Tetra pak
X-ray diffraction
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Summary:[Display omitted] •Cellulose I fibers were isolated from waste Tetra pak packages.•Sulfuric hydrolysis generated nanocrystals with different cellulose I to II ratios.•Cellulose nanocrystal polymorphs ratio could be controlled by acid hydrolysis time. Polymorphism is an important factor associated with the cellulose nanomaterial properties. In this study, cellulose fibers (CFs) were efficiently isolated from waste Tetra pak packages, and cellulose I and II nanocrystals were produced by treatment of CFs with 64% sulfuric acid and controlling the reaction time from 15 to 30 min. Cellulose I (CI) was partially converted to cellulose II (CII) within 15 min and the resulting cellulose nanocrystal product (i.e. CNC15) contained 93.2% CII. Further extending the hydrolysis time decreased the CII content of CNC20 to 25.5% and CNC30 was completely CI without CII. CNC15 (285.1 ± 120.7 nm long, 50.6 ± 16.5 nm wide, 0.64 at% sulfur) was much thicker, slightly longer, less thermal stable and contained more sulfate groups than CNC30 (207.2 ± 77.8 nm long, 23.2 ± 7.8 nm wide, 0.34 at% sulfur). CNCs with controllable allomorph may have potentially diverse applications.
ISSN:0144-8617
1879-1344
DOI:10.1016/j.carbpol.2018.03.042