Published on October 6th, 2022 📆 | 7456 Views ⚑
0Opportunities in Wide Adoption in Antimicrobial Additives, Coatings, and Films in Consumer Health Applications
Dublin, Oct. 06, 2022 (GLOBE NEWSWIRE) -- The "Growth Opportunities for Global Antimicrobial Technologies Enabled by COVID-19" report has been added to ResearchAndMarkets.com's offering.
Antimicrobial technology has previously seen wide adoption in antimicrobial additives, coatings, and films in consumer health applications.
However, with the emergence of COVID-19, the demand for antimicrobial technology has driven innovations, such as graphene nanoparticles (NPs), photocatalytic additives, and antimicrobial polymer nanomaterials, in developing high-temperature resistance, non-toxic antimicrobial disinfectants, and long-lasting antimicrobial technology adoption in consumer health, building and construction, automotive, and consumer goods applications.
Antimicrobial technology materials include antimicrobial polymers; composites, metal-based antimicrobial agents; nanomaterials; natural-based antimicrobial agents; antimicrobial peptides (AMPs); and other materials, such as phenolics, amidines, and biguanides.
Due to their stable structure, metal ions and metal-oxide ions have found use in medical and food packaging applications. The use of ultra-thin two-dimensional materials like black phosphorus and graphene on antimicrobial surfaces has been a focus of technology development initiatives following the outbreak of COVID-19.
In addition to antimicrobial surfaces, implants, medical devices, food packaging, building and construction materials, and textiles have all experienced a spike in interest for antimicrobial coatings.
The need for active packaging that exhibits high antimicrobial features for food and personal care applications following COVID-19 has prompted industry stakeholders and researchers to continue pursuing their work with natural antimicrobials such as chitin-chitosan and peptides to develop biodegradable, safe, yet high-performance antimicrobial films.
The research will answer the following questions:
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What factors will drive antimicrobial technology adoption post COVID-19?
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What challenges and impediments restrain antimicrobial technology adoption?
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What initiatives are industry participants undertaking to accelerate adoption across industries?
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What previous challenges does antimicrobial technology adoption across applications address?
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What growth potential exists for commercializing antimicrobial technologies across industries?
Key Topics Covered:
1. Strategic Imperatives
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Why Is It Increasingly Difficult to Grow? The Strategic Imperative: Factors Creating Pressure on Growth
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The Strategic Imperative
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The Impact of the Top 3 Strategic Imperatives on Antimicrobial Technologies Enabled by COVID-19
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Growth Opportunities Fuel the Growth Pipeline Engine
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Research Methodology
2. Research Scope and Segmentation
3. Research Summary
4. Growth Opportunity Analysis: Impact of COVID-19 on Antimicrobial Technologies
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COVID-19 Has Resulted in an Unprecedented Demand for Antimicrobial Technologies
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Accelerated AMR Risk and Infection Spread Propelled Antimicrobial Use in Emerging Markets Pre- and During COVID-19
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Technologies to Accommodate Antimicrobial Features in Various Applications
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Metal Ions, Polymers, Naturals, AMPs, and Nanoantimicrobials Could Act as Disruptors to Mitigate Infections
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Technologies Could Solve Existing AMR Challenges Post-COVID-19
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Mode of Action of Antimicrobials Defines Clinical Efficacy via Syntheses
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Antimicrobials Pave the Way for a New Application Landscape beyond Healthcare
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Regulatory Aspects Make High-performance Antimicrobial Commercialization Time-consuming
5. Technology Assessment: Antimicrobial Technologies
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Metal Ions, Especially Copper and Ag, Help Create New Antimicrobial Technologies
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Interest in Metal and Metal-oxide Ion Adoption as an Antimicrobial for Their Stable Structure
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Nanomaterials Provide Multiple Bactericidal Pathways to Combat Microbes and Infections
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Antimicrobial Nanomaterials for High-performance Solutions
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Food Quality and Safety Awareness Create Demand for Natural Antimicrobials
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Interest in Use of Natural Antimicrobial Materials for Degradable Antimicrobial Technology
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The Multifaceted Nature of AMPs Drives Their Long-term Applicability
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AMP Adoption Is Increasing in Healthcare and Food Packaging Applications
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Antimicrobial Polymers Have Proven Capabilities to Protect Against the Negative Impact of Pathogenic Microorganisms
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Simplifying Antimicrobial Polymer Fabrication and Application Processes
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To Evaluate the Effect of Antimicrobial Susceptibility on Outcomes, Benchmarking Key Performance Indicators Is Pivotal
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Antimicrobial Agents' Relevance in Various Industrial Sectors
6. Innovation Ecosystem
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Commercialized Metal-ion Antimicrobial Technologies
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High-performance Antimicrobial Coating Development Using Metal Ions
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Nanomaterials for Cost-efficient, High-performance Antimicrobial Technology Development
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Studies Focusing on Antimicrobial Nanomaterial Adoption in Food and Energy Applications
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Increase in Degradable Antimicrobial Film Development
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Stakeholders Investigating the Potential Adoption of Antimicrobial Peptides for Food Packaging
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High Interest in Research Studies on Antimicrobial Polymers in APAC
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Antimicrobial Coatings Remain an Area of High R&D
7. IP Analysis
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Steady Rise in Research Studies Related to Antimicrobial Technologies
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Metal Ions and Natural Antimicrobial Technologies Lead in IP Filing across the Globe
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US and European Patent Offices Show Steady Rise in IP Filings in Last 5 Years
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Natural Antimicrobials Are Gaining IP Focus Because of Increased Interest in Developing Environment-friendly Technologies
8. Funding and Investment Analysis
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Investors Bet Big on Antimicrobials to Reinforce Health and Safety During the Pandemic
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Funding Is Predominantly Inclined towards New Product Innovation
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Healthcare Companies Are Prominent Beneficiaries to Investigate Enhanced Antimicrobials for Combatting AMR
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Antimicrobial Spending to Escalate to Eliminate Superbug Threats
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Government Initiatives and Funding and Private Funding Encourage Cost-efficient Antimicrobial Technology Development
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Accelerators and Incubators Expedite Material and Digitization Initiative Growth
9. Growth Opportunity Universe
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Growth Opportunity 1: Ultra-thin, Durable, High-performance Antimicrobial Technology Development
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Growth Opportunity 2 Nanomaterial Integration During Fabrication for Cost-efficient and High-performance Antimicrobial Technologies
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Growth Opportunity 3: R&D Activities to Use Metal and Metal-oxide Ions to Develop Self-sanitizing Technology
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Growth Opportunity 4: Digital Interventions on Antimicrobial Stewardship Can Drive New Product Development
10. Appendix
For more information about this report visit https://www.researchandmarkets.com/r/wpthk2
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