Our Technology is Powerful. Versatile. Safe.
The World’s Most Effective & Safe Antimicrobial Technology
It begins with a naturally occurring mineral, cerium oxide. In its mediated form, it harnesses the power of hydrogen peroxide in the presence of microbes.
HOW OUR TECHNOLOGY WORKS
Kismet’s technology uses a naturally occurring mineral, Cerium Oxide, that can be synthesized to produce hydrogen peroxide in the presence of pathogens.
Hydrogen peroxide is a powerful disinfectant due to its strong oxidizing properties. It has broad-spectrum efficacy against a wide range of bacteria, viruses, and fungi. In addition, it is non-toxic in its pure form, decomposing into water and oxygen.
the future of antimicrobial ingredients
Chitosan-Enabled
Silver-Enabled
Pure Mineral
NEXT GENERATION PRODUCTS
Product Development
Kismet Clean
Scientific Team Achievements
Proven Scientific Results
Peer-reviewed Publications
A Neoteric antibacterial ceria-silver nanozyme for abiotic surfaces
This study presents a ceria-silver nanozyme with potent catalytic activity that effectively eradicates common and resistant bacterial strains through electrostatic interactions and ROS generation, showing long-lasting efficacy in a pediatric dental clinic setting. For an author-copy of the publication, please contact us.
Broad-Spectrum, Potent, and Durable Ceria Nanoparticles Inactivate RNA Virus Infectivity by Targeting Virion Surfaces and Disrupting Virus–Receptor Interactions – MDPI 2023
This study demonstrates that silver-modified ceria nanoparticles (AgCNP1 and AgCNP2) exhibit broad-spectrum and persistent antiviral capabilities by generating ROS and disrupting viral surface proteins, effectively neutralizing multiple respiratory viruses in a single application. For an author-copy of the publication, please contact us.
Nanoscale Cerium Oxide Deactivates Human Coronavirus and Rhinovirus on Surfaces – ACS Publication 2021
The study highlights the development of stable silver and cerium oxide materials that effectively combat viruses such as OC43 coronavirus and RV14 rhinovirus, with differences in redox states and electrochemical properties contributing to their antiviral action mechanisms. For an author-copy of the publication, please contact us.
Select Whitepapers
NanoRAD Coatings Improve Cleanroom Disinfection
This study examines the efficacy of NanoRAD coatings and films in a cleanroom setting.
NanoRAD Coatings Improve Ambulatory Clinic Disinfection - Results
This study examines the efficacy of NanoRAD coatings and films in an ambulatory clinic setting.
NanoRAD Coating and Film Spray Improve Disinfection in Multiple Hospital Settings - Results
This study examines the efficacy of NanoRAD coatings and films in multiple hospital settings.
[1] Based on US EPA Interim Method for Evaluating the Efficacy of Antimicrobial Surface Coatings (pdf) testing
*NanoRAD is not commercially available.