Add to ORKGBiologically triggered exploding microcapsules were synthesized by layer-by-layer assembly of biopolymers. The microcapsules showed controlled rupturing behaviour upon exposure to a pathologically relevant biomolecule, trypsin. These microcapsules offer significant potential for clinical applications
Microencapsulation of medicines in modern polymeric biomaterials plays a crucial role in success of ...
The generation of novel all-natural biopolymeric microcapsules fabricated using natural biopolymers,...
Protein functions are as diverse as protein structures. The tunability and biocompatibility of prote...
Biologically triggered exploding microcapsules were synthesized by layer-by-layer assembly of biopol...
Drug delivery systems which can generate multiple drug pulses after a single injection can be of maj...
Hollow microcapsules capable of disintegrating in response to dual biological stimuli have been synt...
The aim of investigation was to develop a system for protein sustained release based on the use of p...
Abstract: Microcapsules are a key class of microscale materials with applications in areas ranging f...
Micro- and nano-scale systems have emerged as important tools for developing clinically useful drug ...
Microcapsules are a key class of microscale materials with applications in areas ranging from person...
Microcapsules consisted of biocompatible components- bovine serum albumin and tannic acid were made ...
A reversible drug delivery system based on spontaneous deposition of a model protein into preformed ...
Polyelectrolyte microcapsules have great potential for serving as carriers for the delivery of their...
Microencapsulation is a technique that can bring about in vivo controlled drug release through the f...
Microencapsulation provides a simple and cost-effective way to enclose bioactive materials, such as ...
Microencapsulation of medicines in modern polymeric biomaterials plays a crucial role in success of ...
The generation of novel all-natural biopolymeric microcapsules fabricated using natural biopolymers,...
Protein functions are as diverse as protein structures. The tunability and biocompatibility of prote...
Biologically triggered exploding microcapsules were synthesized by layer-by-layer assembly of biopol...
Drug delivery systems which can generate multiple drug pulses after a single injection can be of maj...
Hollow microcapsules capable of disintegrating in response to dual biological stimuli have been synt...
The aim of investigation was to develop a system for protein sustained release based on the use of p...
Abstract: Microcapsules are a key class of microscale materials with applications in areas ranging f...
Micro- and nano-scale systems have emerged as important tools for developing clinically useful drug ...
Microcapsules are a key class of microscale materials with applications in areas ranging from person...
Microcapsules consisted of biocompatible components- bovine serum albumin and tannic acid were made ...
A reversible drug delivery system based on spontaneous deposition of a model protein into preformed ...
Polyelectrolyte microcapsules have great potential for serving as carriers for the delivery of their...
Microencapsulation is a technique that can bring about in vivo controlled drug release through the f...
Microencapsulation provides a simple and cost-effective way to enclose bioactive materials, such as ...
Microencapsulation of medicines in modern polymeric biomaterials plays a crucial role in success of ...
The generation of novel all-natural biopolymeric microcapsules fabricated using natural biopolymers,...
Protein functions are as diverse as protein structures. The tunability and biocompatibility of prote...