Combing optical nano-resonators with stimuli-responsive hydrogel thin films offers a promising solution towards multimodal detections of analytes. The optical signal from the microscale array can accurately determine the temperature, pH, gas, and target cells.
MRSA is a highly infectious bacteria with potentially life-threatening consequences. Current MRSA detection methods are slow and expensive. An impedance based biosensor is designed to achieve quick an effective MRSA detection by immobilizing PBP-2A antibody on gold electrodes.
(a) MRSA biosensor schematic; (b) Process flow to fabricate the device
How Industry 4.0 Advancements in Wearable Technology Can Save ACLs
The 330 ft2 Class 1000 Cleanroom in the Marburger STEM Center is equipped with two fume hoods, a wet station, an OAI 200 mask aligner, and a Laurell WS-650MZ-23NPPB spin coater.
https://www.ltu.edu/content/engineering/projects/biomems-and-microfabrication-lab
The BioMEMS Laboratory adjoins the Microfabrication Laboratory. Major equipment includes Plasma Etch PE100 plasma etcher, a convection oven, an Nikon SMZ 645T microscope
The Bioinstrumentation Laboratory provides students hands-on experience in instrumentation to properly interpret and utilize measurements from living systems.