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表紙
市場調查報告書

2021-2031年抗菌技術市場

Antimicrobial Technology Market 2021-2031

出版商 IDTechEx Ltd. 商品編碼 986213
出版日期 內容資訊 英文 207 Slides
商品交期: 最快1-2個工作天內
價格
2021-2031年抗菌技術市場 Antimicrobial Technology Market 2021-2031
出版日期: 2021年02月04日內容資訊: 英文 207 Slides
簡介

標題
2021-2031年抗菌技術市場
抗菌添加劑和抗菌塗層可提供連續和殘留的抗菌,抗病毒,抗真菌作用。

"COVID-19正在推動抗菌公司增長3位和4位數字。"

在生活記憶中,COVID-19大流行一直是世界上最嚴重的突發公共衛生事件之一,並已影響到世界各地的生活。大流行也使人們對抗菌技術和抗菌產品的認識達到了新的高度。抗菌技術市場的參與者正在開發添加劑和塗料,以滿足對新型抗菌產品的空前需求,而行業參與者則看到了兩位,三倍甚至四位數的增長。

在生活記憶中,COVID-19大流行一直是世界上最嚴重的突發公共衛生事件之一,並已影響到世界各地的生活。大流行也使人們對抗菌技術和抗菌產品的認識達到了新的高度。抗菌技術市場的參與者正在開發添加劑和塗料,以滿足對新型抗菌產品的空前需求,而行業參與者則看到兩位數,三位數甚至四位數的增長。

什麼是抗菌技術?

I DTechEx報告中涵蓋的抗微生物技術是指能降低甚至消除包括細菌,病毒和真菌在內的微生物活性的添加劑和塗層。定期清潔可以清除並殺死表面上的微生物,但抗菌技術可在兩次清潔之間提供連續的保護。

但是,甚至在COVID-19大流行之前,抗菌技術就已經在許多領域挽救了生命和金錢。使用抗菌技術的關鍵驅動力是其應對醫院獲得性感染(或醫療保健相關感染)的能力。當在醫院等醫療機構中使用時,抗菌技術已被證明可以大大降低感染率。這樣,可以避免成千上萬的死亡,並且可以節省數十億美元。

醫療保健領域以外的許多機會,包括食品,農業,水產養殖,建築(包括HVAC系統)和公共場所。在建築環境中使用抗菌塗料,塗料和添加劑不僅可以延長受保護產品的使用壽命,而且可以通過解決室內空氣質量來間接改善人體健康。抗菌紡織品可以為衣物,窗簾,地毯和柔軟的傢俱提供防臭效果。隨著世界反對在農業中預防性使用抗生素,抗菌藥物公司開始填補這一空白。而現在,COVID-19大流行性麥克風已經闡明了在公共場所清潔高接觸表面的重要性,以及抗菌技術在大流行後世界為人們提供安全環境中的作用。

此報告中的內容是什麼?

該報告深入研究了關鍵的抗菌技術。解釋了每種抗菌技術的作用機理,並比較了將抗菌技術商業化的公司的功效。報告中包含了主要參與者和新興參與者的個人資料,包括主要訪談。

報告涵蓋的關鍵技術是:

  • 銀,包括氯化銀,銀沸石,銀納米顆粒
  • 銅,包括氧化銅和銅納米顆粒
    鋅,包括氧化鋅和巰氧□啶鋅
  • 矽烷季銨鹽化合物
  • 二氧化鈦

報告還重點介紹了其他10種技術,這些技術已商業化或正在開發中,包括新材料,穩定和定位傳統消毒劑的創新方法,仿生技術(例如表面圖案化技術)以及源自自然界的抗菌素(例如□,□)和染料。

IDTechEx已經確定了100多家積極開發抗菌技術和產品的公司,其中包括60多家完全專注於這一領域的公司。報告中還討論了市場規模,市場前景,市場預測以及COVID-19大流行的影響。

為什麼如此重要?

本報告中提供的信息將通過澄清開發抗菌技術的考慮因素,對那些追隨這種不斷增長的抗菌趨勢的人們有所幫助。儘管乍看之下技術可能看起來相似,但這種流行病正在推動那些希望通過在灰色地帶經營來取得成功的公司的崛起。隨著公眾的關注度空前高漲,現在是時候開發對環境負責,可持續,有效和麵向未來的抗菌產品。抗菌技術在安全退出COVID-19大流行方面具有巨大的潛力,但如果使用不當,也會帶來更嚴重的問題。

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目錄

1。執行摘要和共同結論

  • 1.1。抗菌技術市場:報告範圍
  • 1.2。微生物無處不在
  • 1.3。關鍵驅動因素:COVID-19
  • 1.4。關鍵驅動因素:醫院獲得性感染
  • 1.5。關鍵驅動因素:抗菌Resistan CE
  • 1.6。抗菌技術市場:參與者
  • 1.7。抗菌技術參與者:按技術
  • 1.8。關鍵抗菌技術摘要
  • 1.9。抗菌技術的環境考慮
  • 1.10。抗菌藥物技術與抗生素耐藥性
  • 1.11。技術結論與展望
  • 1.12。抗菌技術參與者:按規模和成立年份
  • 1.13。抗菌技術的關鍵應用
  • 1.14。抗菌技術市場
  • 1.15。抗菌技術市場:COVID-19的影響
  • 1.16。2020年抗菌技術市場規模
  • 1.17。抗菌技術市場展望
  • 1.18。2021-2031年抗菌技術市場預測

2。簡介

  • 2.1。報告範圍
  • 2.2。微生物無處不在
  • 2.3。菌
  • 2.4。細菌:生物學
  • 2.5。細菌:生物膜
  • 2.6。黴菌和黴菌
  • 2.7。病毒
  • 2.8。關鍵驅動因素:COVID-19
  • 2.9。關鍵驅動因素:醫院獲得性感染
  • 2.10。關鍵驅動力:抗菌素耐藥性
  • 2.11。理想的抗菌技術

3。材料與技術

  • 3.1.1。控制微生物的技術
  • 3.1 .2。行動機制
  • 3.1.3。基材
  • 3.1.4。金屬製品
  • 3.2。銀
    • 3.2.1。銀牌:作用機理
    • 3.2.2。銀牌:功效
    • 3.2.3。銀:保濕效果
    • 3.2.4。銀牌:環境問題
    • 3.2.5。銀:抵抗的潛力
    • 3.2.6。銀牌:SWOT分析
    • 3.2.7。銀牌:玩家
    • 3.2.8。Addmaster:Biomaster
    • 3.2.9。應用銀:SilvaClean
    • 3.2.10。應用銀:SilvaClean
    • 3.2.11。AST產品:RepelaCOAT
    • 3.2.12。Covalon:CovaClear,CovaCoat等
    • 3.2.13。杜邦:SILVADUR
    • 3.2.14。HeiQ:HeiQ Pure,HeiQ Viroblock
    • 3.2.15。抑制塗層
    • 3.2.16。Innovotech:InnovoSIL和Agress
    • 3.2.17。Microban:SilverShield
    • 3.2.18。貴族生物材料:離子+
    • 3.2.19。PURE Bioscience:PURE堅硬表面
    • 3.2.20。消毒過的
    • 3.2.21。場景:阿基翁
    • 3.2.22。場景:醫療醫療
  • 3.3。銅
    • 3.3.1。銅:作用機理
    • 3.3.2。銅:功效
    • 3.3.3。銅:潛在的阻力
    • 3.3.4。銅:與銀的比較
    • 3.3.5。銅:SWOT分析
    • 3.3.6。銅:玩家
    • 3.3.7。Aereus Technologies:CuVerro防護罩
    • 3.3.8。CleanCU:K COPPER PLUS
    • 3.3.9。銅杯
    • 3.3.10。納米安全解決方案:AqCure和NSafe +
    • 3.3.11。抗菌銅
  • 3.4。鋅鋅
    • 3.4.1。鋅:行動力
    • 3.4.2。鋅:功效
    • 3.4.3。鋅:潛在的抵抗力
    • 3.4.4。鋅:SWOT分析
    • 3.4.5。鋅:球員
    • 3.4.6。提升性能材料:Acteev Protect
    • 3.4.7。Microban:ZPTech
    • 3.4.8。湯姆森研究協會:超新鮮
    • 3.4.9。帕克斯材料
    • 3.4.10。索諾維亞
  • 3.5。矽烷季銨化合物(矽烷季銨鹽)
    • 3.5.1。矽烷矽烷:作用機理
    • 3.5.2。Silane Quat :功效
    • 3.5.3。Silane Quat:SWOT分析
    • 3.5.4。Silane Quat:玩家
    • 3.5.5。金盾技術:GS5和GS75
    • 3.5.6。Microban:AEGIS MicrobeShield
  • 3.6。二氧化鈦
    • 3.6.1。二氧化鈦:作用機理
    • 3.6.2。二氧化鈦:功效
    • 3.6.3。二氧化鈦:SWOT分析
    • 3.6.4。二氧化鈦:玩家
    • 3.6.5。卡斯圖斯
  • 3.7。其他
    • 3.7.1。其他抗菌TECHN ologies
    • 3.7.2。聚DADMAC
    • 3.7.3。快速醫療技術:Nimbus
    • 3.7.4。聚六亞甲基雙胍(PHMB)
    • 3.7.5。生物相互作用:AvertPlus
    • 3.7.6。氫氧化鈣
    • 3.7.7。Alistagen:短劍
    • 3.7.8。海蘭drogen過氧化物:快速醫療技術
    • 3.7.9。光敏化學品
    • 3.7.10。颱風
    • 3.7.11。氮化矽
    • 3.7.12。SINTX技術
    • 3.7.13。氯氣:UMF Corporation
    • 3.7.14。表面圖案
    • 3 .7.15。鯊魚技術
    • 3.7.16。石墨烯
    • 3.7.17。壓電聚合物和纖維
    • 3.7.18。Pieclex
    • 3.7.19。抗菌□
    • 3.7.20。Amicoat:AMC-109
    • 3.7.21。硝基□
  • 3.8。技術摘要和其他注意事項
    • 3.8.1。抗菌技術:摘要
    • 3.8.2。實驗室效果與現實生活效果
    • 3.8.3。證據等級
    • 3.8.4。環境考量
    • 3.8.5。抗生素耐藥性
    • 3.8.6。技術結論與展望

4。應用

  • 4.1。抗菌技術應用概述
  • 4.2。醫療保健:醫院和其他醫療保健設施
  • 4.3。醫療保健:醫療d evices
  • 4.4。醫療保健:高級傷口護理
  • 4.5。醫療保健:感染費用
  • 4.6。醫療保健:銀
  • 4.7。醫療保健:銅
  • 4.8。餐飲
  • 4.9。農業
  • 4.10。高觸感表面
  • 4.11。施工
  • 4 .12。施工:實例
  • 4.13。建築:暖通空調
  • 4.14。汽車行業
  • 4.15。產品保護
  • 4.16。海軍陸戰隊
  • 4.17。面料和紡織品
  • 4.18。抗菌技術應用概述

5。法規

  • 5.1。抗菌技術法規概述
  • 5.2。美國:EPA和FIFRA
  • 5.3。美國:剩餘功效聲明
  • 5.4。美國:公共衛生與非公共衛生
  • 5.5。美國:處理過的物品
  • 5.6。歐盟:ECHA和BPR
  • 5.7。歐盟:批准的活性物質和供應商
  • 5.8。抗菌技術測試
  • 5.9。紡織品:OEKO-TEX和Bluesign

6。市場景觀

  • 6.1。抗菌素市場概況
  • 6.2。抗菌技術市場概況:按技術
  • 6.3。抗菌技術市場:參與者
  • 6.4。抗菌技術參與者:按技術
  • 6.5。抗菌技術參與者:按國家
  • 6.6。抗菌技術參與者:商業模式
  • 6.7。抗菌技術領域的公司:規模和成立年份
  • 6.8。抗菌技術參與者:競爭與差異化
  • 6.9。母料和塑料
  • 6.10。化學公司
  • 6.1 1.油漆和塗料
  • 6.12。抗菌技術市場
  • 6.13。抗菌技術市場:COVID-19的影響
  • 6.14。抗菌技術市場:COVID-19的影響
  • 6.15。2020年抗菌技術市場規模 6.16。抗菌技術市場展望
  • 6.17。2021年抗菌技術市場預測
  • 6.18。市場展望:白銀價格
  • 6.19。市場展望:銅價

7。抗菌技術和COVID-19

  • 7.1。背景COVID-19
  • 7.2。COVID-19大流行
  • 7.3。SARS-CoV-2傳播
  • 7.4。SARS-CoV-2和表面
  • 7.5。使用針對COVID-19的抗菌技術的公司示例
  • 7.6。膠片和管:CleanCU < li> 7.7。電影和管子:TouchPoint科學
  • 7.8。塗料和噴塗:金盾技術
  • 7.9。消毒噴霧:Covalon Technologies
  • 7.10。應用:抗菌旅行
  • 7.11。應用:郵輪業
  • 7.12。傳播風險
  • 7.13。應用:抗菌面罩
  • 7.14。口罩:提升性能的材料
  • 7.15。口罩:HeiQ
  • 7.16。口罩:I3 BioMedical
  • 7.17。面罩:納米安全解決方案
  • 7.18。臉部表情:Sciessent
  • 7.19。抗菌時尚在後COVID世界中是未來嗎?
目錄
Product Code: ISBN 9781913899318

Title:
Antimicrobial Technology Market 2021-2031
Antimicrobial additives and antimicrobial coatings provide continuous and residual antibacterial, antiviral, antifungal action.

"COVID-19 is driving 3- and 4-digit growth for antimicrobial companies."

The COVID-19 pandemic has been one of the world's worst public health emergencies in living memory and has affected all aspects of life around the world. The pandemic has also propelled awareness of antimicrobial technology and antimicrobial products to new heights. Players in the antimicrobial technology market are developing additives and coatings to meet unprecedented demand for new antimicrobial products, with industry players seeing double-, triple-, or even quadruple-digit growth.

The COVID-19 pandemic has been one of the world's worst public health emergencies in living memory and has affected all aspects of life around the world. The pandemic has also propelled awareness of antimicrobial technology and antimicrobial products to new heights. Players in the antimicrobial technology market are developing additives and coatings to meet unprecedented demand for new antimicrobial products, with industry players seeing double-, triple-, or even quadruple-digit growth.

What are antimicrobial technologies?

Antimicrobial technologies, as covered in this IDTechEx report, refers to additives and coatings that decrease or even eliminate the activity of microorganisms, including bacteria, virus, and fungi. While regular cleaning can remove and kill the microorganisms present on a surface, antimicrobial technologies offer continuous protection between cleans.

But even before the COVID-19 pandemic, antimicrobial technologies have been saving lives and money across a broad number of sectors. A key driver for the use of antimicrobial technologies is their ability to address hospital-acquired infections (or healthcare-associated infection). When used in healthcare facilities such as hospitals, antimicrobial technologies have been demonstrated to significantly decrease the rates of infection. By doing so, thousands if not tens of thousands of deaths can be prevented, and billions of dollars can be saved.

There are many opportunities beyond the healthcare sector, including food, agriculture, aquaculture, construction (including HVAC systems), and public settings. The use of antimicrobial paints, coatings and additives in the built environment can not only extend the lifetime of the protected product, but also indirectly improve human health through addressing indoor air quality. Antimicrobial textiles can provide anti-odour effect to clothing, curtains, carpets, and soft furnishings. With the world moving against the prophylactic use of antibiotics in agriculture, antimicrobial companies are beginning to fill in the gap. And now, the COVID-19 pandemic has shed light on the importance of cleaning high-touch surfaces in public settings, and the role of antimicrobial technologies in providing safe environments for people in a post-pandemic world.

What is in this report?

This report takes a deep dive into key antimicrobial technologies. The mechanism of action of each antimicrobial technology is explained and a comparison of efficacy claims from companies commercializing antimicrobial technologies is provided. Profiles of both major and emerging players, including primary interviews, are included in the report.

The key technologies covered in the report are:

  • Silver, including silver chloride, silver zeolite, silver nanoparticles
  • Copper, including copper oxide and copper nanoparticles
  • Zinc, including zinc oxide and zinc pyrithione
  • Silane quaternary ammonium compounds
  • Titanium dioxide

The report also highlights a further 10 technologies either commercialized or in development, including new materials, innovative methods to stabilize and localize traditional disinfectants, biomimetic technologies such as surface patterning techniques, and antimicrobials derived from nature, such as enzymes, peptides, and dyes.

IDTechEx have identified over 100 companies that are actively developing antimicrobial technologies and products, including over 60 companies focused entirely in this area. Discussion on market sizing, market outlook, market forecast, and the effect of the COVID-19 pandemic are also included in the report.

Why is this important?

The information provided in this report will be helpful to those seeking to follow this rising antimicrobial trend by clarifying considerations in developing antimicrobial technology. While technologies may appear similar at first glance, the pandemic is driving a rise in companies looking to make quick wins by operating in grey areas. With public awareness at an all-time high, now is the time to develop environmentally responsible, sustainable, effective, and future-proof antimicrobial products. Antimicrobial technologies have significant potential beyond exiting the COVID-19 pandemic safely, but can also bring about worse problems when used incorrectly.

Analyst access from IDTechEx

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TABLE OF CONTENTS

1. EXECUTIVE SUMMARY& CONCLUSIONS

  • 1.1. Antimicrobial Technology Market: Scope of the Report
  • 1.2. Microorganisms are Everywhere
  • 1.3. Key Driver: COVID-19
  • 1.4. Key Driver: Hospital Acquired Infections
  • 1.5. Key Driver: Antimicrobial Resistance
  • 1.6. Antimicrobial Technology Market: Players
  • 1.7. Antimicrobial Technology Players: By Technology
  • 1.8. Summary of Key Antimicrobial Technologies
  • 1.9. Environmental Considerations of Antimicrobial Technologies
  • 1.10. Antimicrobial Technology and Antibiotic Resistance
  • 1.11. Technology Conclusions and Outlook
  • 1.12. Antimicrobial Technology Players: By Size and Year Founded
  • 1.13. Key Applications of Antimicrobial Technologies
  • 1.14. Antimicrobial Technology Market
  • 1.15. Antimicrobial Technology Market: Effect of COVID-19
  • 1.16. Antimicrobial Technology Market Size in 2020
  • 1.17. Antimicrobial Technology Market Outlook
  • 1.18. Antimicrobial Technology Market Forecast 2021-2031

2. INTRODUCTION

  • 2.1. Scope of the Report
  • 2.2. Microorganisms are Everywhere
  • 2.3. Bacteria
  • 2.4. Bacteria: Biology
  • 2.5. Bacteria: Biofilm
  • 2.6. Mold and Mildew
  • 2.7. Virus
  • 2.8. Key Driver: COVID-19
  • 2.9. Key Driver: Hospital Acquired Infections
  • 2.10. Key Driver: Antimicrobial Resistance
  • 2.11. Ideal Antimicrobial Technology

3. MATERIALS AND TECHNOLOGIES

  • 3.1.1. Techniques to Control Microorganisms
  • 3.1.2. Mechanisms of Action
  • 3.1.3. Substrates
  • 3.1.4. Metals
  • 3.2. Silver
    • 3.2.1. Silver: Mechanism of Action
    • 3.2.2. Silver: Efficacy
    • 3.2.3. Silver: Effect of Moisture
    • 3.2.4. Silver: Environmental Concerns
    • 3.2.5. Silver: Potential for Resistance
    • 3.2.6. Silver: SWOT Analysis
    • 3.2.7. Silver: Players
    • 3.2.8. Addmaster: Biomaster
    • 3.2.9. Applied Silver: SilvaClean
    • 3.2.10. Applied Silver: SilvaClean
    • 3.2.11. AST Products: RepelaCOAT
    • 3.2.12. Covalon: CovaClear, CovaCoat, and more
    • 3.2.13. DuPont: SILVADUR
    • 3.2.14. HeiQ: HeiQ Pure, HeiQ Viroblock
    • 3.2.15. Inhibit Coatings
    • 3.2.16. Innovotech: InnovoSIL and Agress
    • 3.2.17. Microban: SilverShield
    • 3.2.18. Noble Biomaterials: Ionic+
    • 3.2.19. PURE Bioscience: PURE Hard Surface
    • 3.2.20. Sanitized
    • 3.2.21. Sciessent: Agion
    • 3.2.22. Sciessent: Agion for Medical
  • 3.3. Copper
    • 3.3.1. Copper: Mechanism of Action
    • 3.3.2. Copper: Efficacy
    • 3.3.3. Copper: Potential for Resistance
    • 3.3.4. Copper: Comparison with Silver
    • 3.3.5. Copper: SWOT Analysis
    • 3.3.6. Copper: Players
    • 3.3.7. Aereus Technologies: CuVerro Shield
    • 3.3.8. CleanCU: K COPPER PLUS
    • 3.3.9. Cupron
    • 3.3.10. Nanosafe Solutions: AqCure and NSafe+
    • 3.3.11. Antimicrobial Copper
  • 3.4. Zinc
    • 3.4.1. Zinc: Mechanism of Action
    • 3.4.2. Zinc: Efficacy
    • 3.4.3. Zinc: Potential for Resistance
    • 3.4.4. Zinc: SWOT Analysis
    • 3.4.5. Zinc: Players
    • 3.4.6. Ascend Performance Materials: Acteev Protect
    • 3.4.7. Microban: ZPTech
    • 3.4.8. Thomson Research Associates: Ultra-Fresh
    • 3.4.9. Parx Materials
    • 3.4.10. Sonovia
  • 3.5. Silane Quaternary Ammonium Compounds (Silane Quat)
    • 3.5.1. Silane Quat: Mechanism of Action
    • 3.5.2. Silane Quat: Efficacy
    • 3.5.3. Silane Quat: SWOT Analysis
    • 3.5.4. Silane Quat: Players
    • 3.5.5. Goldshield Technologies: GS5 and GS75
    • 3.5.6. Microban: AEGIS MicrobeShield
  • 3.6. Titanium Dioxide
    • 3.6.1. Titanium Dioxide: Mechanism of Action
    • 3.6.2. Titanium Dioxide: Efficacy
    • 3.6.3. Titanium Dioxide: SWOT Analysis
    • 3.6.4. Titanium Dioxide: Players
    • 3.6.5. Kastus
  • 3.7. Others
    • 3.7.1. Other Antimicrobial Technologies
    • 3.7.2. PolyDADMAC
    • 3.7.3. Quick-Med Technologies: Nimbus
    • 3.7.4. Polyhexamethylene biguanide (PHMB)
    • 3.7.5. BioInteractions: AvertPlus
    • 3.7.6. Calcium Hydroxide
    • 3.7.7. Alistagen: Caliwel
    • 3.7.8. Hydrogen Peroxide: Quick-Med Technologies
    • 3.7.9. Photosensitizing Chemicals
    • 3.7.10. Dyphox
    • 3.7.11. Silicon Nitride
    • 3.7.12. SINTX Technologies
    • 3.7.13. Chlorine: UMF Corporation
    • 3.7.14. Surface Patterns
    • 3.7.15. Sharklet Technologies
    • 3.7.16. Graphene
    • 3.7.17. Piezoelectric Polymers and Fibers
    • 3.7.18. Pieclex
    • 3.7.19. Antimicrobial Peptides
    • 3.7.20. Amicoat: AMC-109
    • 3.7.21. NitroPep
  • 3.8. Technology Summary and Other Considerations
    • 3.8.1. Antimicrobial Technologies: Summary
    • 3.8.2. Laboratory vs Real Life Efficacy
    • 3.8.3. Levels of Evidence
    • 3.8.4. Environmental Considerations
    • 3.8.5. Antibiotic Resistance
    • 3.8.6. Technology Conclusions and Outlook

4. APPLICATIONS

  • 4.1. Overview of Antimicrobial Technology Applications
  • 4.2. Healthcare: Hospitals and Other Healthcare Facilities
  • 4.3. Healthcare: Medical Devices
  • 4.4. Healthcare: Advanced Wound Care
  • 4.5. Healthcare: Costs of Infections
  • 4.6. Healthcare: Silver
  • 4.7. Healthcare: Copper
  • 4.8. Food
  • 4.9. Agriculture
  • 4.10. High Touch Surfaces
  • 4.11. Construction
  • 4.12. Construction: Examples
  • 4.13. Construction: HVAC
  • 4.14. Automotive
  • 4.15. Product Protection
  • 4.16. Marine
  • 4.17. Fabrics and Textiles
  • 4.18. Summary of Antimicrobial Technology Applications

5. REGULATIONS

  • 5.1. Overview of Antimicrobial Technology Regulations
  • 5.2. USA: EPA and FIFRA
  • 5.3. USA: Residual Efficacy Claims
  • 5.4. USA: Public Health vs Non-Public Health
  • 5.5. USA: Treated Articles
  • 5.6. European Union: ECHA and BPR
  • 5.7. European Union: Approved Actives and Suppliers
  • 5.8. Antimicrobial Technology Testing
  • 5.9. Textiles: OEKO-TEX and Bluesign

6. MARKET LANDSCAPE

  • 6.1. Overview of Antimicrobial Market Landscape
  • 6.2. Antimicrobial Technology Market Overview: By Technology
  • 6.3. Antimicrobial Technology Market: Players
  • 6.4. Antimicrobial Technology Players: By Technology
  • 6.5. Antimicrobial Technology Players: By Country
  • 6.6. Antimicrobial Technology Players: Business Model
  • 6.7. Antimicrobial Technology Players: Size and Year Founded
  • 6.8. Antimicrobial Technology Players: Competition and Differentiation
  • 6.9. Masterbatch and Plastics
  • 6.10. Chemical Corporations
  • 6.11. Paints and Coatings
  • 6.12. Antimicrobial Technology Market
  • 6.13. Antimicrobial Technology Market: Effect of COVID-19
  • 6.14. Antimicrobial Technology Market: Effect of COVID-19
  • 6.15. Antimicrobial Technology Market Size in 2020
  • 6.16. Antimicrobial Technology Market Outlook
  • 6.17. Antimicrobial Technology Market Forecast 2021
  • 6.18. Market Outlook: Silver Prices
  • 6.19. Market Outlook: Copper Prices

7. ANTIMICROBIAL TECHNOLOGY AND COVID-19

  • 7.1. Background COVID-19
  • 7.2. COVID-19 as a Pandemic
  • 7.3. SARS-CoV-2 Transmission
  • 7.4. SARS-CoV-2 and Surfaces
  • 7.5. Examples of Companies Using Antimicrobial Technologies Against COVID-19
  • 7.6. Films and Tubes: CleanCU
  • 7.7. Films and Tubes: TouchPoint Science
  • 7.8. Coatings and Spray: Goldshield Technologies
  • 7.9. Sanitizer Spray: Covalon Technologies
  • 7.10. Application: Antimicrobial Travel
  • 7.11. Application: Cruise Industry
  • 7.12. Risk of Fomite Transmission
  • 7.13. Application: Antimicrobial Face Coverings
  • 7.14. Face Masks: Ascend Performance Materials
  • 7.15. Face Masks: HeiQ
  • 7.16. Face Masks: I3 BioMedical
  • 7.17. Face Masks: Nanosafe Solutions
  • 7.18. Face Masks: Sciessent
  • 7.19. Is Antimicrobial Fashion the Future in a Post-COVID World?