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The supramolecular nanoscale assembly group is a multidisciplinary team of scientists, engineers and technical staff dedicated to understanding the underlying concepts of molecular recognition, self-assembly and self-organization processes, and utilizing this knowledge to advance the health and medical technologies, energy and environment, information and communication technologies, and nanomaterials sectors.
The mission of our group is to (a) harness the properties and architecture of matter from the ground up through supramolecular synthesis, self-assembly and self-organization, (b) create new materials for application in sustainable energy generation, catalysis, nanoelectronics, and nanomedicine, (c) develop new technology platforms to address significant public health problems and meet current technological challenges, (d) train highly qualified graduate students, postdoctoral fellows and technical staff.
Our group focuses specifically on the development of a variety of nanomaterials (organic nanotubes, metal nanoparticles, nanocrystalline cellulose) for applications as: (a) adaptable scaffolds for drug display/delivery, in particular for cancer, lung inflammation, and bone therapy; (b) coatings for optimal medical device integration in living systems; (c) electroactive and photoactive components for organic photovoltaics and nanoelectronics; (d) catalysts; (e) platforms for ultradetection; (f) components in composite materials.
In the context of these investigations, we explore the fundamentals of self-assembly and self-organization processes, to advance the design of materials with predefined dimensions and physical properties, and explore commercialization opportunities in the nanomedical device arena.
The supramolecular nanoscale assembly group is a multidisciplinary team of scientists, engineers and technical staff dedicated to understanding the underlying concepts of molecular recognition, self-assembly and self-organization processes, and utilizing this knowledge to advance the health and medical technologies, energy and environment, information and communication technologies, and nanomaterials sectors.
The mission of our group is to (a) harness the properties and architecture of matter from the ground up through supramolecular synthesis, self-assembly and self-organization, (b) create new materials for application in sustainable energy generation, catalysis, nanoelectronics, and nanomedicine, (c) develop new technology platforms to address significant public health problems and meet current technological challenges, (d) train highly qualified graduate students, postdoctoral fellows and technical staff.
Our group focuses specifically on the development of a variety of nanomaterials (organic nanotubes, metal nanoparticles, nanocrystalline cellulose) for applications as: (a) adaptable scaffolds for drug display/delivery, in particular for cancer, lung inflammation, and bone therapy; (b) coatings for optimal medical device integration in living systems; (c) electroactive and photoactive components for organic photovoltaics and nanoelectronics; (d) catalysts; (e) platforms for ultradetection; (f) components in composite materials.
In the context of these investigations, we explore the fundamentals of self-assembly and self-organization processes, to advance the design of materials with predefined dimensions and physical properties, and explore commercialization opportunities in the nanomedical device arena.
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