Add to ORKGDespite their highly attractive properties, 3D printing of hydrogel materials can be rather challenging. Herein, we present a novel hydrogel material that can be easily processed into three-dimensional scaffolds using different 3D printing technologies. An acrylate-terminated, urethane-based PEG was prepared by reacting PEG 2000 with isophorone diisocyanate (IPDI) and monoacrylated PEG (336 g/mol) in a 1:2:2 molar ratio (WO 2017/005613 A1). For melt 3D-printing, pure polymer was used (Tm 38°C). For bioprinting, a 50 wt% solution with 3 wt% Laponite was used. Please click Additional Files below to see the full abstract
Recently, hydrogels have been utilized as important biomaterials for 3D printing of three dimensiona...
Hydrogels that can be processed with additive manufacturing techniques and concomitantly possess fav...
Hydrogels that can be processed with additive manufacturing techniques and concomitantly possess fav...
[EN]The use of three-dimensional (3D) printable hydrogels for biomedical applications has attracted ...
Despite the rapid and great developments in the field of 3D hydrogel printing, a major ongoing chall...
Despite the rapid and great developments in the field of 3D hydrogel printing, a major ongoing chall...
The use of three-dimensional (3D) printable hydrogels for biomedical applications has attracted cons...
Polymer hydrogel used as computer-aided, non-biological arsenal utilize as a drug delivery vehicle o...
Progress in biofabrication technologies is mainly hampered by the limited number of suitable hydroge...
Progress in biofabrication technologies is mainly hampered by the limited number of suitable hydroge...
Despite the rapid and great developments in the field of 3D hydrogel printing, a major ongoing chall...
Ever since its development, tissue engineering has played a very significant role in the medical are...
Progress in biofabrication technologies is mainly hampered by the limited number of suitable hydroge...
Hydrogels are a promising material for a variety of applications after appropriate functional and st...
There is a current need for the development of robust smart materials for a variety of medical, cons...
Recently, hydrogels have been utilized as important biomaterials for 3D printing of three dimensiona...
Hydrogels that can be processed with additive manufacturing techniques and concomitantly possess fav...
Hydrogels that can be processed with additive manufacturing techniques and concomitantly possess fav...
[EN]The use of three-dimensional (3D) printable hydrogels for biomedical applications has attracted ...
Despite the rapid and great developments in the field of 3D hydrogel printing, a major ongoing chall...
Despite the rapid and great developments in the field of 3D hydrogel printing, a major ongoing chall...
The use of three-dimensional (3D) printable hydrogels for biomedical applications has attracted cons...
Polymer hydrogel used as computer-aided, non-biological arsenal utilize as a drug delivery vehicle o...
Progress in biofabrication technologies is mainly hampered by the limited number of suitable hydroge...
Progress in biofabrication technologies is mainly hampered by the limited number of suitable hydroge...
Despite the rapid and great developments in the field of 3D hydrogel printing, a major ongoing chall...
Ever since its development, tissue engineering has played a very significant role in the medical are...
Progress in biofabrication technologies is mainly hampered by the limited number of suitable hydroge...
Hydrogels are a promising material for a variety of applications after appropriate functional and st...
There is a current need for the development of robust smart materials for a variety of medical, cons...
Recently, hydrogels have been utilized as important biomaterials for 3D printing of three dimensiona...
Hydrogels that can be processed with additive manufacturing techniques and concomitantly possess fav...
Hydrogels that can be processed with additive manufacturing techniques and concomitantly possess fav...