Localized Surface Plasmon Resonance (LSPR) is gaining interest as a highly sensitive analytical technique to detect chemical and biological molecules in low concentrations. Plasma treatment is utilized to clean patterned substrates, specifically designed for LSPR, and...
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 → Energy → Photovoltaics 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...
Harrick Plasma → Applications → Surface Patterning Nanoparticles (NPs), which typically range in size from a few to 100 nm diameter, are readily found in nature or can be fabricated from a broad range of materials (metallic, organic, inorganic). The combination of...
Harrick Plasma → Applications → Energy → Page 2 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 first...
Harrick Plasma → Applications → Electronics → Page 2 One common and easily employed method for surface micropatterning is plasma lithography, in which a deformable mask is placed in contact with a substrate surface before plasma treatment to create a chemical template...
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