Nanoscale Cleaning
A clean surface with controlled and tunable surface chemistry can be critical for improving interfacial, biological, and electronic properties of materials for optimal device and structural performance. Plasma surface treatment removes nanoscale organic contamination and alters surface chemistry without affecting the bulk material. This page provides brief summaries on the benefits and applications of plasma cleaning.
Porous Metal Nanoshells
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....
Zinc Oxide Films
Creative Commons license. Zinc oxide (ZnO) is an exciting alternative wide bandgap semiconductor that has promising use in sensors and flexible electronics. Plasma treatment can be applied to prepare surfaces for ZnO deposition, improve electrical properties through...
Graphene Transfer
Graphene is commonly deposited by chemical vapor deposition (CVD) on a growth substrate followed by transfer onto a target substrate appropriate for its specific application. Plasma treatment can be applied to support and facilitate various graphene...
Nanowires
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, and solar cells [1-3]....
Next Generation Sequencing (NGS)
Next Generation Sequencing (NGS), or deep sequencing, provides researchers and clinicians with extensive genetic data with a multitude of applications. By fragmenting genetic materials and performing millions to billions of reads simultaneously,...