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Self-oxygen generating biomaterials for large tissue engineering
Organ transplantation continues to increase, with 34,770 transplants performed in the US in 2017. Currently, organ transplantation is limited by donor dependence, high costs, and, long-term use of immunosuppressive medications which, in turn, correlates with significant morbidity and mortality. To overcome these limitations, tissue engineering and transplantation...
Published: 3/5/2024
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Inventor(s): Iman Noshadi
Keywords(s): Biomaterials, Electrolyte, Energy Storage, Hydrogels, Oxygenation, Regenerative Medicine, Scaffold, Stem Cells, Tissue Engineering , Transplant
Category(s): Human Health Care > Biomaterials
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Novel Biocompatible Electrolytes for Implantable Flexible Electronics
Although battery technology was developed over one hundred years ago, the search for new materials with better performance, higher energy density, and extended regeneration cycles continues. One avenue of research is the search for new electrolytes as current liquid electrolytes are considered hazardous as they may leak, produce gases upon overcharging,...
Published: 3/6/2024
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Inventor(s): Iman Noshadi, Vaishali Krishnadoss
Keywords(s): Battery, Biomedical, Electrolyte, Energy Storage
Category(s): Human Health Care > Biomaterials, Human Health Care > Medical Devices, Engineering > Electronics
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Method to synthesize ordered mesoporous resin
TechnologyMesoporous materials have several attractive properties including ordered pore structures, very high specific surface areas, and the potential to synthesize the materials in a wide range of morphologies such as spheres rods, discs, and powders. Mesoporous materials with uniform and tailorable pore dimensions with high surface areas are currently...
Published: 3/6/2024
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Inventor(s): Iman Noshadi
Keywords(s): Biomaterials, Carbon Capture, Filtration, Mesoporous, Resin
Category(s): Engineering > Materials, Environment
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Poly (ionic liquid) surgical and tissue adhesive
TechnologyThis is a new method to improve the adhesion properties of any biomaterial. This method is very general and applicable with wide range of materials. This method is simple and easy to use. Dr. Iman Noshadi in the Department of Chemical Engineering has developed a modified hydrogel to make antimicrobial, highly adhesive for surgical applications....
Published: 3/5/2024
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Inventor(s): Iman Noshadi
Keywords(s): Adhesive, Antimicrobial, Hydrogels, Surgical, Tissue Engineering
Category(s): Human Health Care > Biomaterials
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