Hollow porous nanoshells can be tailored to have unique physical and chemical properties for potential use in catalysis and biosensor applications. Plasma treatment can be applied to facilitate nanoshell fabrication and alter physical properties and morphology....
Harrick Plasma → Archives for Connie Lew Conductive nanowires have been extensively studied recently for their potential use as transparent conducting electrodes in flexible electronics, wearable biosensors (wearable electronics), organic light emitting diodes OLEDs,...
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 is a leading supplier of plasma equipment to the research community. We have been providing quality tabletop plasma devices specifically designed for laboratory and R&D use for over 30 years.
