In recent history, bioengineering has never taken on such an essential and crucial in our medical advancements. The usage of hydrogels in drug deliveries have been made much more prominent due to the composites’ increased pH sensitivity and ionic strength. Moreover, hydrogels are also able to protect the deliverables such as medicinal drugs, peptides and various proteins from the external environment. This paper will discuss about the various research and development that has been done in hydrogels, such as the different classifications, the types of release mechanisms and the structures. It will also discuss briefly on the previous works which focused on constant dilatation in multilayer spheres, leading up to the primary focus of this pro...
Gels and hydrogels have attracted a great attention for potential applications in tissue engineering...
Hydrogels are widely used for many biomedical as well as commercial purposes such as scaffolds for t...
The stiffness of hydrogels is crucial for their application. Nature’s hydrogels become stiffer as th...
In recent history, bioengineering has never taken on such an essential and crucial in our medical ad...
The presence of symmetric dilatation in single spherical hydrogels or biogels often occurs due to mi...
The application of multilayered hydrogel capsules in biomedical engineering has stimulated much inte...
AbstractThe stresses and displacements in a dual-layer spherical hydrogel subjected to a constant di...
AbstractMultilayered gels play an important role in biomedical engineering as drug delivery vehicles...
A 2nd order non-linear elastic material has been successfully modeled as a 2-layered spherical shell...
textA hydrogel consists of a cross-linked polymer network and solvent molecules, capable of large, r...
When a soft hydrogel sphere is placed on a rigid hydrophilic substrate, it undergoes arrested spread...
The mechanics of soft matter has stimulated much interest due to diverse applications of soft materi...
In the present work, the mechanical properties of poly(2-hydroxyethyl methacrylate) (PHEMA) such as ...
Contains fulltext : 169131.pdf (publisher's version ) (Open Access)Cells in the hu...
Soft materials subject to both static and dynamic loading are known to exhibit a variety of mechanic...
Gels and hydrogels have attracted a great attention for potential applications in tissue engineering...
Hydrogels are widely used for many biomedical as well as commercial purposes such as scaffolds for t...
The stiffness of hydrogels is crucial for their application. Nature’s hydrogels become stiffer as th...
In recent history, bioengineering has never taken on such an essential and crucial in our medical ad...
The presence of symmetric dilatation in single spherical hydrogels or biogels often occurs due to mi...
The application of multilayered hydrogel capsules in biomedical engineering has stimulated much inte...
AbstractThe stresses and displacements in a dual-layer spherical hydrogel subjected to a constant di...
AbstractMultilayered gels play an important role in biomedical engineering as drug delivery vehicles...
A 2nd order non-linear elastic material has been successfully modeled as a 2-layered spherical shell...
textA hydrogel consists of a cross-linked polymer network and solvent molecules, capable of large, r...
When a soft hydrogel sphere is placed on a rigid hydrophilic substrate, it undergoes arrested spread...
The mechanics of soft matter has stimulated much interest due to diverse applications of soft materi...
In the present work, the mechanical properties of poly(2-hydroxyethyl methacrylate) (PHEMA) such as ...
Contains fulltext : 169131.pdf (publisher's version ) (Open Access)Cells in the hu...
Soft materials subject to both static and dynamic loading are known to exhibit a variety of mechanic...
Gels and hydrogels have attracted a great attention for potential applications in tissue engineering...
Hydrogels are widely used for many biomedical as well as commercial purposes such as scaffolds for t...
The stiffness of hydrogels is crucial for their application. Nature’s hydrogels become stiffer as th...
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