Graphene, a single atomic layer of carbon with a hexagonal crystal structure, is especially appealing for use in sensor applications because of its high surface area and abundance of active sites for analyte capture, favorable semiconductor properties such as high...
Harrick Plasma → Applications → Device Fabrication Surface acoustic waves (SAW) offer high precision, contactless control of small volumes of liquid in microfluidic devices. Through the implementation of SAW in microfluidic devices (Acoustofluidics), researchers can...
Harrick Plasma → Applications → Biology & Biomedical Organ on a chip models, fabricated with plasma treatment, replicate key tissue structure, function and other physiological characteristics to better explore drug delivery, toxicology and disease progression in...
Harrick Plasma → Applications → Device Fabrication Dye-sensitized solar cells (DSSC) have been heavily investigated as a promising low-cost alternative to silicon-based solar cells. A combination of TiCl4 chemical and O2 plasma treatment has been studied to improve...
Harrick Plasma → Applications → Alter Surface Chemisty Graphene, a single atomic layer of carbon with a hexagonal crystal structure, has been heavily investigated in the past decade for its many unique material properties. With its high electrical and thermal...
Harrick Plasma → Applications → Alter Surface Chemisty To more effectively coat and pattern substrates such as silicon wafers and glass with photoresist, plasma treatment is used extensively to enhance three crucial steps: Cleaning, Spinning and Descum. An essential...
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