ABSTRACT
Multilevel Antimicrobial Polymer (MAP-1) coatings represent a transformative advancement in surface disinfection technologies, offering long-term and broad-spectrum protection against a variety of pathogens, including bacteria, viruses, and fungi. Designed for compatibility with diverse surfaces such as metal, plastic, glass, and textiles, MAP-1 exhibits strong adhesion, low cytotoxicity, and resistance to environmental degradation. This review explores the chemical composition, application methods, and real-world utility of MAP-1 in settings ranging from healthcare and public transport to schools and textiles. Antimicrobial efficacy studies and international validation protocols
such as ISO 22196 are critically discussed. The article further contrasts MAP-1 with conventional coatings like silver- and copper-based systems, highlighting its cost-effectiveness and reduced environmental footprint. Despite its advantages, scalability and regulatory challenges persist. Future perspectives include the integration of smart functionalities and AI-guided material optimization. MAP-1 holds signi�cant promise in addressing current gaps in infection control, especially in high-touch environments, offering a sustainable approach to mitigating surface-borne disease transmission.
KEYWORDS
- MAP-1 coating
- Antimicrobial polymer
- Surface coating technology
- Pathogen-resistant
Author Info
Manish Sharma and Rishika Chaturvedi
Nano Surface Texturing Laboratory, Department of Metallurgical and Materials Engineering, Defence Institute of Advanced Technology (DU), Pune, India
Corresponding author: 025manishksharma@gmail.com
