Bioanalytical Devices
Arizona State University researchers are among the best in the world, and they have developed several promising Bioanalytical Devices.
PortfolioRadical Activated Cleavage of Biologics and Microfluidic Devices Using the Same
Tuning Fork Sensing Technologies
Composite Substrate Sealing Methods and Resulting Devices
Micro-Miniaturized Passively Powered Wireless Telemetry
Application of Brain Synchronization to Epilepsy and Other Dynamical Disorders
Sensor For Dection of RNAse Activity
DNA Sequencing by Molecular Recognition and Nanoscale Manipulation of Single Molecules
Novel Method for the Control of Flow and Materials on Micro-devices
Novel Rapid Method of Gene & Cell Selection For Research & Healthcare Applications
Nanojunction Sensors for the Detection of chemical and Biological Species
Molecular Semaphore Device for Single Molecule Detection
SPR Sensor for Polynucleotide Elongation
A Chemical Sensor Based on an Integrated Electrochemical and Electrical Detection
A Compact LED-Based Module for Capillary Electrophoresis of DNA Samples
Method and Apparatus for Rolling Biomedical Implanted Sensors
Wireless Biotelemetry Using Piezomaterial-Diode Coupled Systems
Integrated, Automated System for Single Cell Analysis
Synchronizing Brain Activity for Accelerated Functional Recovery Post Spinal Cord and Brain Injury
Culture-Free Infectious Disease Detection
Fluorescence-Bleaching of Nucleotides in Sequencing-By-Extension
Controlled Tunnel Gap Device for Sequencing Polymers
Microarray of Three-dimensional Heteropolymer Microstructures
A Novel Substrate with Improved Properties for Microarrays
Methods of Identifying Molecular Function
Magnetofluidics
Radical Activated Cleavage of Biologics and Microfluidic Devices Using the Same
Software Package for the Solvation Thermodynamics of Biomolecules
