Technology Breakthroughs in Antimicrobial Textiles

Gaining Prominence of Antimicrobial Technologies in Smart Textiles, Personal Care and Personal Protective Equipment Sectors

This research service is focused on capturing the current technology scenario, emerging innovations, and the current trends in antimicrobial textiles.

Some of the key aspects covered in this research includes the different types of antimicrobial technologies, both that are currently used and emerging, for the manufacture of antimicrobial textiles. This research service also features the various antimicrobial platforms and highlights key innovations that are in use as well as under development by the market participants. It also highlights the various industry trends, detailing how these trends impact the adoption of antimicrobial textile technologies and how the adoption of the same is expected to evolve in the future.

Executive Summary

Research Scope
Research Methodology
Application Scope
Key Findings
Need for Antimicrobial Platforms
Varying Modes of Action of Antimicrobial Technologies

Technology Snapshot and Application Landscape

Technologies Used for Antimicrobial Textiles
Natural Agents are Currently Being Developed as an Alternative for Synthetic Antimicrobials
Peppermint Shows High Potential for Use in Antimicrobial Textiles
Natural Antimicrobials May Find Increasing Adoption in Personal Care and Smart Textiles
Naturally Occurring Antimicrobial Peptides are under Research for Use in Antimicrobial Textiles
L-Cystine is a Promising Antimicrobial Peptide Technology for Textile Applications
Nano-Silver is the Most Advanced Among Nanotechnology-based Antimicrobial Platforms
More Research is Required to Establish the Safe Use of Nanotechnology in Antimicrobial Textiles
Silver is the Most Preferred Choice for Antimicrobial Textiles
Zinc Is Being Increasingly Used for Smart Textile Applications
Chitosan is the Majorly Used Antimicrobial Polymer
Complex Polymers are Used as Combination Technology for Effective Antimicrobial Solutions
Quaternary Ammonium is Mostly Used in Combination with Other Antimicrobial Technologies
QACs are Effective Against Viruses in addition to Other Microbes
Triclosan is the Most Commonly Used Phenol-based Technology
Phenol and Derivatives Provide Durable Antimicrobial Effects
Polybiguanides are yet to Find Large Scale Adoption in Antimicrobial Textiles
PHMB is the Most Widely Used Biguanide in Antimicrobial Textiles
Multiple Methods of Antimicrobial Incorporation Offer Varying Benefits
Antimicrobial Textiles Can Help Prevent Spread of Infection in Healthcare and Medical Settings
EPA and ECHA Monitor the Use of Biocidal Agents for Antimicrobial Textiles in the US and EU Respectively

Industry Landscape of Antimicrobial Technologies

Zinc Pyrithione Offers Broad Spectrum Protection for Antimicrobial Textiles
Polymer-impregnated Silver-based Particles Offer Durable and Effective Antimicrobial Solutions
Silver-based Antimicrobial Additives are Being Increasingly Adopted in the Antimicrobial Textile Industry
Metallic Silver Ions or Salt-based Antimicrobials are the Most Commonly Used Antimicrobial Technology
Zinc Ion-based Antimicrobials Offer a Good Alternative to Their Silver-Based Antimicrobial Counterparts

Antimicrobial Technology - Application and Impact Assessment

Impact of Antimicrobial Technologies on Various Application Sectors Depends on Multiple Factors
Safety Rates High in Application Segments that Offer Material Durability
Leading Antimicrobial Solutions Score Consistently on Multiple Impact Factors
Nanotechnology May Experience Low Adoption Rates due to Probability of Safety Issues
Natural Agents Display the Highest Potential for Smart Textile Applications
Polybiguanides Enjoy Better Technology Maturity in Comparison to Quaternary Ammonium for Antimicrobial Textiles
Flexibility of Antimicrobial Polymers for Use as a Combination Platform Contributes to their High Potential

Innovation Landscape of Antimicrobial Technologies

Emerging Natural Antimicrobial Solutions Are Currently Focused on the Smart Textile and Medical Textile Segments
Peppermint Has Proven Effective against Antibiotic-Resistant Bacteria
Antimicrobial Platforms Also Focused on Offering Antiviral Capabilities
Zinc Oxide is Increasingly Being Researched as a Safe and Effective Antimicrobial Textile Solution
Number of Collaborations Have Provided an Impetus to Advancing the Capabilities of Antimicrobial Textiles
Patent Landscape for Antimicrobial Technologies
The US and Europe lead the Global Development of Novel Antimicrobial Technologies
Steady Patenting Activity Witnessed

Growth Opportunities

Growth Opportunity 1: Combining Antimicrobial Platforms For Better Textile Performance
Growth Opportunity 2: Developing More Effective Antimicrobial Peptides & Other Natural Antimicrobial Solutions
Growth Opportunity 3: Implementing Sustainable Manufacturing Practices

Appendix

Key Contacts
Legal Disclaimer

Companies Mentioned (Partial List)

A selection of companies mentioned in this report includes, but is not limited to:

EPA
ECHA

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SITE LICENSE PDF and Hard Copy	The product is a PDF. A printed copy will be shipped to you.	This is a site license, allowing all users within a given geographical location of your organization access to the product.	€5303EUR$5,450USD£4,543GBP
ENTERPRISE LICENSE PDF	The product is a PDF.	This is an enterprise license, allowing all employees within your organization access to the product.	€6276EUR$6,450USD£5,376GBP
ENTERPRISE LICENSE PDF and Hard Copy	The product is a PDF. A printed copy will be shipped to you.	This is an enterprise license, allowing all employees within your organization access to the product.	€6762EUR$6,950USD£5,793GBP

Table of Contents

Companies Mentioned (Partial List)

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