Nanoscale gap allows for a huge array of detection in the body

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On the right, the nanoscale gap that allows the Lilliputian chip to collect high-resolution signals from the broad array of sound and motion sources on the left. Credit: Georgia Tech / Ayazi lab

Additional Information

Groups

News Room, Research Horizons

Categories

Research, Biotechnology, Health, Bioengineering, Genetics, Engineering

Keywords

mems, Micromechanical Devices, microelectromechanical systems, Heart Monitor, Lung Monitor, Pulmonary Diseases, Pulmonary Function, Pulmonary Illnesses, Pulmonary Infections, Pulmonary Medicine, Pulmonary, Respiratory Medicine, Respiratory Function, Respiratory Health, Respiratory Diseases, Respiratory Disorders, Respiratory Insufficiency, Respiratory Infection, Respiratory Issues, Cardio Vascular Disease, cardiology, Cardiology Patients, Heart Stress Exercise, cardiac imaging, Cardiac Devices, Cardiac Diagnostic Testing, cardiac disease, Accelerometer, Electronic Stethoscope, Seismocardiography, Seismoacoustics, Galloping, heart failure, Heart Failure Detection, High-Throughput, Advanced Manufacturing, Signal-Conditioning Circuit

Status

Created By: Ben Brumfield
Workflow Status: Published
Created On: Apr 15, 2020 - 5:40pm
Last Updated: Apr 15, 2020 - 5:40pm