Add to ORKGHydrogels have great potential as soft body tissue replacements. However due to their weak mechanical properties, are unable to fulfil this application. A double network hydrogel (30% hydrogel concentration) of polyethylene glycol diacrylate (PEGDA) and poly acrylic acid (PAA) along with multi-walled carbon nanotube (MWNT) of 1 mg/ml concentration was synthesized to attempt to strengthen the mechanical properties of the hydrogel. Furthermore, the MWNTs were functionalized with carboxyl groups and the hydrogels immersed in dissolved calcium chloride in order to form strong calcium bridges. A single network PEGDA hydrogel with MWNT and calcium was also synthesized for comparison. The single network hydrogel showed an approximate 15% increase ...
To investigate the formation mechanism of a physically cross-linked double-network hydrogel and its ...
Poly(acrylamide)-multiwalled carbon nanotubes (PAAm-MWNTs) hybrid hydrogels were prepared through th...
This work aims to improve the mechanical properties of starch-based hydrogels using a double-network...
Hydrogels have great potential as soft body tissue replacements. However due to their weak mechanica...
A facile method is developed to fabricate nanocomposite double-network (DN) gels with excellent mec...
Abstract: A facile method is developed to fabricate nanocomposite double-network (DN) gels with exce...
Hydrogel has been widely used in tissue engineering application due to its biocompatibility and its ...
Hydrogels are attractive materials for stimulating 3D cell growth and tissue regeneration, and they ...
Mechanical robustness is an essential consideration in the development of hydrogel platforms for bon...
Nanocomposite hydrogels based on carbon nanotubes (CNTs) are known to possess remarkable stiffness, ...
Novel high strength composite hydrogels were designed and synthesized by introducing multiwalled car...
Nanocomposite hydrogels based on carbon nanotubes (CNTs) are known to possess remarkable stiffness, ...
Chitin is a biopolymer, which has been proven to be a biomedical material candidate, yet the weak me...
Here we demonstrate a polysaccharide hydrogel reinforced with finely dispersed single-walled carbon ...
Hydrogel materials have been an area of research over the past 50 years. These polymer materials hav...
To investigate the formation mechanism of a physically cross-linked double-network hydrogel and its ...
Poly(acrylamide)-multiwalled carbon nanotubes (PAAm-MWNTs) hybrid hydrogels were prepared through th...
This work aims to improve the mechanical properties of starch-based hydrogels using a double-network...
Hydrogels have great potential as soft body tissue replacements. However due to their weak mechanica...
A facile method is developed to fabricate nanocomposite double-network (DN) gels with excellent mec...
Abstract: A facile method is developed to fabricate nanocomposite double-network (DN) gels with exce...
Hydrogel has been widely used in tissue engineering application due to its biocompatibility and its ...
Hydrogels are attractive materials for stimulating 3D cell growth and tissue regeneration, and they ...
Mechanical robustness is an essential consideration in the development of hydrogel platforms for bon...
Nanocomposite hydrogels based on carbon nanotubes (CNTs) are known to possess remarkable stiffness, ...
Novel high strength composite hydrogels were designed and synthesized by introducing multiwalled car...
Nanocomposite hydrogels based on carbon nanotubes (CNTs) are known to possess remarkable stiffness, ...
Chitin is a biopolymer, which has been proven to be a biomedical material candidate, yet the weak me...
Here we demonstrate a polysaccharide hydrogel reinforced with finely dispersed single-walled carbon ...
Hydrogel materials have been an area of research over the past 50 years. These polymer materials hav...
To investigate the formation mechanism of a physically cross-linked double-network hydrogel and its ...
Poly(acrylamide)-multiwalled carbon nanotubes (PAAm-MWNTs) hybrid hydrogels were prepared through th...
This work aims to improve the mechanical properties of starch-based hydrogels using a double-network...