Nanomechanical and Structural Properties of Native Cellulose Under Compressive Stress

Nanomechanical and Structural Properties of Native Cellulose Under Compressive Stress

Cellulose is an important biopolymer with applications ranging from its use as an additive in pharmaceutical products to the development of novel smart materials. This wide applicability arises in part from its interesting mechanical properties. Here we report on the use of high pressure X-ray diffr...

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Veröffentlicht in:Biomacromolecules 2011-06, Vol.12 (6), p.2178-2183
Hauptverfasser: Quesada Cabrera, Raúl, Meersman, Filip, McMillan, Paul F, Dmitriev, Vladimir
Format: Artikel
Sprache:eng
Schlagworte:
Carbohydrate Conformation
Cellulose - chemistry
Crystallization
Materials Testing - methods
Mechanics
Nanotechnology - methods
Pressure
Spectrum Analysis, Raman
Tensile Strength
X-Ray Diffraction
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Zusammenfassung:Cellulose is an important biopolymer with applications ranging from its use as an additive in pharmaceutical products to the development of novel smart materials. This wide applicability arises in part from its interesting mechanical properties. Here we report on the use of high pressure X-ray diffraction and Raman spectroscopy in a diamond anvil cell to determine the bulk and local elastic moduli of native cellulose. The modulus values obtained are 20 GPa for the bulk modulus and 200–355 and 15 GPa for the crystalline parts and the overall elastic (Young’s) modulus, respectively. These values are consistent with those calculated from tensile measurements. Above 8 GPa, the packing of the cellulose chains within the fibers undergoes significant structural distortion, whereas the chains themselves remain largely unaffected by compression.
ISSN:1525-7797
1526-4602
DOI:10.1021/bm200253h