*Schools currently available: Cummings School of Veterinary Medicine, School of Dental Medicine, School of Engineering, The Fletcher School of Law and Diplomacy, Friedman School of Nutrition Science and Policy, School of Medicine, and Graduate School of Biomedical Sciences.
SummaryTufts University researcher, Jeff Hopwood, has developed a low-cost and high-efficiency source that allows plasma surface treatment at atmospheric pressure.SolutionsNon-thermal atmospheric
Identification of a novel therapeutic target for regeneration of the olfactory epitheliumLead Inventor: Dr. James E. SchwobTufts case T001754Business Opportunity: Olfactory dysfunction affects 25% of
Researchers at Tufts University have created a new class of high permeability polymeric membranes with anti-fouling properties. These thin film composite membranes feature a self-assembling copolymer
DESCRIPTIONDr. Charles Mace has designed a novel multilayered paper device. First, liquid sample is transported to chambers within the device with stored reagents. Then the liquid mixtures from the
DESCRIPTIONTufts investigator, Joshua Kritzer, has developed a novel high throughput assay, Chloroalkane Penetration Assay (CAPA), to quantitatively measure the compartment-specific cell penetration
Nanoparticle That Optimizes Singlet Oxygen Detection Singlet oxygen (1O2) is a high-energy form of oxygen and its applications range from photodynamic therapy to biological assays. Tufts University
SUMMARYTufts University investigator Charles Mace has developed a novel paper device that can be used to separate and quantify blood based on size exclusion and affinity separation. This technology is
A Radioactive Monolayer Gold Surface Coating for Short Range Cancer Therapy Tufts University investigator Charles Sykes has developed a novel way to coat gold surfaces with radioactive I-125 such that
Researchers at Tufts University have developed a new method to generate alpha-and beta-selective glycosides without the need for specialized directing groups. Download a detailed description of the
SUMMARYResearchers at Tufts University have developed an implantable, conductive nanothread platform capable of making enhanced measurements of multiple physiological parameters simultaneously and