Surface Patterning
Plasma can be employed in various ways to facilitate surface patterning, which is often a required processing step for the fabrication of multilayer devices, such as solar cells, sensors, and microfluidic chips. Plasma treatment can enhance surface wettability of substrates and templates to improve pattern transfer during contact printing and self-assembly. Plasma etching can selectively remove polymer thin films and 2D organic materials through a masking layer and can also be used to tune the feature size of polymer templates for fabricating patterned nanostructure arrays. This page provides brief summaries on the application of plasma treatment for surface patterning.
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,...
Covid-19 Research
The fight against the Covid-19 pandemic has required unprecedented efforts by the research community to understand, diagnose, and treat the Sars-Cov-2 virus. Harrick Plasma is proud to have its plasma cleaners involved in this groundbreaking...
3D Printing
3D printing is ubiquitous in modern professional and academic laboratories, where researchers continue to find innovative applications. Its essential function is to rapidly provide complex 3D structures with high precision. The technology is now...
Cryogenic Electron Microscopy (Cryo EM)
Cryogenic Electron Microscopy (Cryo EM) is a technique used to study the structure and function of macromolecules with near atomic resolution. Structural biologists employ Cryo EM to identify and map individual atoms, in the pursuit of understanding...