Published Software & Platforms Sequence Detection This technology avoids the shortcoming of energy detection which can be ineffective in high noise, low SNR environments. By University of Notre Dame
Published Medical Pathogen Detection Selective recognition of siderophores to identify and characterize different types of bacteria By University of Notre Dame
Published Telecommunications Wideband Spectrum Sensing A technique which allows for under-sampling while still being able to achieve the goal of determining which sub-channels present opportunities for spectrum sharing. By University of Notre Dame
Published Medical Personalized Wellness A network-centric analysis to drive an increase in patient realized value while lowering overall healthcare costs. By University of Notre Dame
Published Sciences Single Cell Transfection This invention uses the same nanopore and applied nanopore voltage to transfect the cell making sing cell secretome detection possible. By University of Notre Dame
Published Medical Lysosomal Storage Disease The lipid trafficking probes being developed will provide the first data to validate, modify, or refute the model. By University of Notre Dame
Published Multi Sector Enhanced Raman Substrate The SERS substrate provides coupled nanostructures resulting in enhanced signals and better analyte detection capabilities. By University of Notre Dame
Published Sciences Selective UV Crosslinking The initial proof of this concept demonstrates the potential for this process to enhance the detection abilities of many currently employed immunosensor technologies By University of Notre Dame
Published Software & Platforms General-purpose Compiler The computing of sensitive information can now be accomplished in a cloud computing framework without risking data security. By University of Notre Dame
Published Power & Utilities Catalytic Cartridge Environmentally friendly. Low cost. By University of Notre Dame
Published Sciences Device for Quantifying Iodine The PAD may be interfaced with cell phone camera technology to allow refined quantification by colorimetry. By University of Notre Dame
