Air-Based Plasma and its Impact on Bacillus subtilis: Implications for Healthcare Sterilization
Datum
2024-08-22Autor
Muñiz La Torre, Cristina
De Jesús, Antuanette
González Lizardo, Ángel E.
Rondón Contreras, Jairo J.
Metadata
Zur LanganzeigeZusammenfassung
This study addresses the limitations of current sterilization
methods in the healthcare industry, which expose operators to
carcinogens and reproductive hazards, the environment to
pollution, and compromise the integrity of polymer-based medical
devices. This research focused on generating plasma using a
custom-designed electrode system with aluminum and stainless
steel as conductive materials and 3D-printed polylactic acid (PLA)
as insulation. The electrode system was designed to operate at
Normal Glow Discharge conditions, achieving a pressure of 1.5 ×
10−1 Torr, a voltage of 500 V, and an average current of 2.21 mA.
The experiments revealed that TSA solution volumes significantly
affect vacuum performance and plasma generation, highlighting
the need for optimization to improve efficiency and effectiveness.