TY - JOUR
T1 - Three-dimensional printing of wood-derived biopolymers: A review focused on biomedical applications
AU - Xu, Wenyang
AU - Wang, Xiaoju
AU - Sandler, Niklas
AU - Willför, Stefan
AU - Xu, Chunlin
N1 - 3pk
PY - 2018
Y1 - 2018
N2 - Wood-derived biopolymers have attracted great attention over the past few decades due to their abundant and versatile properties. The well-separated three main components, i.e., cellulose, hemicelluloses, and lignin, are considered significant candidates for replacing and improving on oil-based chemicals and materials. The production of nanocellulose from wood pulp opens an opportunity for novel material development and applications in nanotechnology. Currently, increased research efforts are focused on developing 3D printing techniques for wood-derived biopolymers for use in emerging application areas, including as biomaterials for various biomedical applications and as novel composite materials for electronics and energy devices. This Review highlights recent work on emerging applications of wood derived biopolymers and their advanced composites with a specific focus on customized pharmaceutical products and advanced functional biomedical devices prepared via three-dimensional printing. Specifically, various bio-fabrication strategies in which woody biopolymers are used to fabricate customized drug tissue engineering scaffolds and items for other biomedical applications are discussed.
AB - Wood-derived biopolymers have attracted great attention over the past few decades due to their abundant and versatile properties. The well-separated three main components, i.e., cellulose, hemicelluloses, and lignin, are considered significant candidates for replacing and improving on oil-based chemicals and materials. The production of nanocellulose from wood pulp opens an opportunity for novel material development and applications in nanotechnology. Currently, increased research efforts are focused on developing 3D printing techniques for wood-derived biopolymers for use in emerging application areas, including as biomaterials for various biomedical applications and as novel composite materials for electronics and energy devices. This Review highlights recent work on emerging applications of wood derived biopolymers and their advanced composites with a specific focus on customized pharmaceutical products and advanced functional biomedical devices prepared via three-dimensional printing. Specifically, various bio-fabrication strategies in which woody biopolymers are used to fabricate customized drug tissue engineering scaffolds and items for other biomedical applications are discussed.
KW - Wood-derived biopolymers
KW - Customized drug delivery device
KW - Tissue engineering scaffold
KW - Cellulose ether
KW - Cellulose ester
KW - biomedical applications
KW - Cellulose nanocrystals
KW - 3D printing
KW - Cellulose nanofibrils
KW - Wood-derived biopolymers
KW - Customized drug delivery device
KW - Tissue engineering scaffold
KW - Cellulose ether
KW - Cellulose ester
KW - biomedical applications
KW - Cellulose nanocrystals
KW - 3D printing
KW - Cellulose nanofibrils
KW - Wood-derived biopolymers
KW - Customized drug delivery device
KW - Tissue engineering scaffold
KW - Cellulose ether
KW - Cellulose ester
KW - biomedical applications
KW - Cellulose nanocrystals
KW - 3D printing
KW - Cellulose nanofibrils
U2 - 10.1021/acssuschemeng.7b03924
DO - 10.1021/acssuschemeng.7b03924
M3 - Översiktsartikel
SN - 2168-0485
VL - 6
SP - 5663
EP - 5680
JO - ACS Sustainable Chemistry and Engineering
JF - ACS Sustainable Chemistry and Engineering
IS - 5
ER -