Explores the development of biological models with integrated monitoring, focusing on cell membranes, conducting polymer scaffolds, and bioelectronic devices.
Explores the definition, key properties, synthesis schemes, and applications of hydrogels as biomaterials, emphasizing their importance in drug delivery, tissue engineering, and cell biology.
Explores controlled radical polymerization, emphasizing the challenges and strategies for achieving living polymerization with precise control over polymer properties.
Explores sequence control in polymers, focusing on biological polymer synthesis, monomer sequence distribution, and strategies to enhance control over synthetic polymer sequences.
Explores the thermodynamics of polymer blends, phase diagrams, miscible blends, phase segregation, block copolymers, and applications in thermoplastic elastomers and nanotechnology.
Explores the mechanisms of polymer synthesis, including radical chain polymerization and the synthesis of high molecular weight poly(lactic acid) for compostable materials and biomaterials.
