Gas Plasma Sterilization in Microbiology
- Introduction
- Theoretical Background and Mode of Action of Gas Plasma Sterilization
- Concomitant Achievement of a Sterility Assurance Level of 10-6 with Material and Functional Compatibility by Gas Plasma Sterilization
- Current Progress in Advanced Technology of Nitrogen Gas Plasma for Remote Sterilization and Clarification of Sterilization
- Current Progress in the Inactivation of Endotoxin and Lipid A by Exposure to Nitrogen Gas Plasma
- Current Progress in Advanced Research into Tetrodotoxin Inactivation by Gas Plasmas
- Current Progress in Advanced Research into Fungal and Mycotoxin Inactivation by Cold Plasma Sterilization
- Current Progress in the Sterilization of Spores and Vegetative Cells by Exposure to Gas Plasma: Sterilization, Disinfection and Antimicrobial Activity
- Current Progress in Advanced Research into the Inactivation of Fungi and Yeasts by Gas Plasma
- Current Progress in Advanced Research into the Inactivation of Viruses by Gas Plasma: Influenza Virus Inactivation by Nitrogen Gas Plasma
- Current Technology and Applications of Gas Plasma for Disinfection of Agricultural Products: Disinfection of Fungal Spores on Citrus unshiu by Atmospheric Pressure Dielectric Barrier Discharge
- Current Progress in Seed Disinfection by Gas Plasma: Disinfection of Seed-borne Fungi and Bacteria by Plasma with Alternating Current High Voltage Discharge
- Validation of Gas Plasma Sterilization (Importance of ISO documents, ISO TC 198 and 194).
- Misinterpretation of Microbiological Data on Gas Plasma Sterilization: Avoiding the Pitfalls.
- Future Perspectives and Trends in Gas Plasma Sterilization
- Gas Plasma Sterilization in Microbiology
