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.
Battery Research
Recent advances in battery research have made lithium-ion batteries a mainstay of electric vehicles, smartphones, and grid-scale energy storage. Lithium-ion batteries contain several major components. A positively charged region (cathode) stores...
Programming Naive T Cells
Adoptive T cell therapy (or T-cell transfer therapy) is an emerging immunotherapy with the potential to improve outcomes for late-stage cancer patients. The technique relies on programming naïve T cells to induce therapeutic responses directly in...
Photocatalysis
Photocatalysis is a process where light energy, usually from ultraviolet (UV) sources, is used to accelerate a chemical reaction through the activation of a catalyst. The ability to degrade harmful substances and improve material properties under...
Bacteria Sensors
Bacteria sensors play a crucial role in reducing food spoilage, minimizing economic losses and illness from foodborne diseases. These sensors can detect spoilage earlier, eliminating its potential to spread throughout the supply chain, from...
Textile Chemistry
Textile chemistry is important for numerous markets, including clothing, automotive, and outdoor recreation industries. Plasma treatment is a dry, non-toxic process that can make textiles water-repellent, oil-repellent, or both. In this application...