表紙:生分解性感圧接着剤の技術的進歩
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生分解性感圧接着剤の技術的進歩

Technology Advances in Biodegradable Pressure Sensitive Adhesives

出版日: | 発行: Frost & Sullivan | ページ情報: 英文 86 Pages | 納期: 即日から翌営業日

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生分解性感圧接着剤の技術的進歩
出版日: 2021年03月16日
発行: Frost & Sullivan
ページ情報: 英文 86 Pages
納期: 即日から翌営業日
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  • 概要
  • 目次
概要

生分解性ポリマーは多くの用途や産業で採用が広がっています。現在、生分解性ポリマーのバインダー、シーラント、接着剤への応用が注目されており、特に感圧接着剤が注目されています。ヘルスケア、FMCG、パッケージング産業で特に広く導入されています。FDAのガイダンスにより、植物由来の生分解性PSA、天然由来のポリマー、アクリル酸エステルやポリウレタンに生分解性を持たせるなどの研究開発が進んでいます。世界的な循環型経済の推進も生分解性PSAの成長機会を推進しています。

当レポートでは、世界の生分解性感圧接着剤の市場を調査し、技術概要、R&Dの取り組み、競合環境、成功戦略・成長機会の分析などをまとめています。

第1章 戦略的必須要件

  • The Strategic Imperative 8 (TM):産業用途の断熱材の成長への影響因子
  • The Strategic Imperative 8 (TM)
  • 生分解性PSA技術の効率的な成長:新素材の開発への焦点が必要
  • Growth Pipeline Engine (TM) について
  • Growth Pipeline Engine (TM) を推進する成長機会

第2章 エグゼクティブサマリー

第3章 技術概要

  • PVAベースの感圧性接着剤:バイオメディカル用途での使用が確立
  • PVA接着剤:生体適合性の研究に注力
  • 植物由来の生分解性ポリエステル:感圧性接着剤への応用が検討されている
  • 新しいPSAの開発に向けた乳酸エステル(ラクトン)の研究が注目されている
  • ポリ乳酸系接着剤:硬さのため創傷治療への採用には課題が残る
  • PLAベースの接着剤:新しい調剤・製造戦略が考案されている
  • 創傷ケアのための微生物由来ポリマーの研究
  • 藻類由来のバイオ接着剤の研究
  • ムール貝・頭足類の生体模倣ポリマー:ドラッグデリバリーへの応用のための研究
  • ムール貝以外 (サンドキャッスルワーム・頭足類) の接着剤の研究
  • その他の生分解性ポリマー (ポリβ-ヒドロキシオルガノエート・ハイブリッドなど)も研究対象
  • 生分解性感圧性接着剤の試験・実証例
  • 生分解性を促進する植物油ベースの可塑剤とタッキファイヤー
  • タック性・極性・濡れ性・生体適合性:主な機能特性
  • エンドユーザー:耐水性と無刺激性に加え、候補となる製品の強固な接着性を求める

第4章 産業概要

  • 生分解性PSA:創傷治療・スキンケア・包装の分野で重要な用途がある
  • 生分解性PSA:創傷ケア・スキンケアでもっとも多く使用されている
  • ドラッグデリバリー:生分解性PSAの主要な研究対象
  • 持続可能包装:ラベルやテープの優れた生体適合性が必要
  • 生分解性接着剤:り良い電気的接続のための電気医療用途に使用可能
  • 農業:現在、生分解性PSAが研究されているニッチ分野

第5章 競合情勢

  • 生分解性へのニーズ:生分解性PSAの主な成長促進要因
  • 新しい接着剤のR&D:ベンチャーキャピタリストからのプッシュが顕著
  • リスク:特定基準の欠如・いくつかのポリマーの高い製造コスト
  • 主要特許:バイオベースの架橋剤・粘着付与剤・その他の添加剤の開発が焦点
  • 特許シナリオに基づく生分解性PSA候補の主要な特性・機能的側面
  • PVA・ポリアクリレート・生体模倣接着剤に対する強い関心を示す
  • ポリビニルアルコール・生分解性ポリアクリエート・生体模倣接着剤:ヘルスケア向けに開発
  • 提携・協力:ドラッグデリバリー接着剤の開発を目的とする
  • 新製品の開発・商品化のためのM&A
  • 新しい生分解性PSAの開発に焦点を当てた資金提供
  • パーソナルケア企業のイニシアチブと生体接着剤に関する取り組み
  • 大学・研究機関:ウレタンに生分解性を導入する可能性を検証
  • 企業:ポリウレタン開発のための出発原料とポリアクリレートの潜在的な代替品の導入

第6章 比較評価

  • ポリラクチド:創傷治療用包帯・テープに広く利用
  • 主要な生分解性PSAの比較

第7章 将来の展望

第8章 主要企業

  • A Toyochem Japan
  • Acucote Inc.
  • Sustainable Adhesive Products
  • Mussel Polymers Inc. (MPI)
  • Chemence
  • LD Davis

第9章 成長機会

  • 成長機会:生分解性PSAの新製品開発
  • 成長機会:創傷治療における新しい生分解性接着剤の発売の必要性
  • 製品の発売:生分解性に関連する技術パラメーターを指定する添付文書と関連付ける必要がある
  • 成長機会:新しい製造施設を建設するための戦略的提携
  • 成長機会:商用利用を制御するための技術とIP保護

第10章 主なコンタクト情報

次のステップ

目次
Product Code: D9E9

Biodegradable Polymers Poised to Play a Key Role for Developing Adhesives in the FMCG and Healthcare Industries

Biodegradable polymers are increasingly adopted in many applications and industries to replace crude-derived polymers. Currently, the application of biodegradable polymers as binders, sealants, and adhesives is gaining traction, with pressure sensitive adhesives (PSA) being a hot area of interest. Healthcare, FMCG, and packaging are the top areas of interest for PSA adoption. Biodegradable polymers are used as PSA in flexible packaging of food, as cosmetic glues and as seed coatings.

The need for biodegradable PSAs in wound care is significant as most adhesive solutions available currently are non-biodegradable or can potentially cause allergies. One of the most common candidates currently used as a tissue sealant is cyanoacrylate, which is non-biodegradable. The US Food and Drug Administration (FDA) has issued guidance to update its policy regarding the use of animal-derived materials in medical patches and skin formats. Therefore, R&D toward plant-derived biodegradable PSA, naturally inspired polymers, and integrating biodegradability in acrylates and polyurethanes has increased. Apart from replacing animal-derived polymers as adhesives, the drive toward a global circular economy contributes to the reduction in the use of fossil resources and greenhouse gas emissions propelling opportunities for biodegradable PSAs. Additionally, certain properties such as wettability, polarity, cohesion strength, and tack can make biodegradable PSA extremely attractive to end users.

The packaging industry is shifting focus from using synthetic petroleum-derived polymers, which may eventually end up as microplastics to compostable PSA adhesives that break into carbon dioxide and nutrients. These factors push consumers and brand owners to be ever-more conscious about the environment. Many companies are trying to adopt biodegradable materials to design labels and tapes for packaging.

This research service titled, 'Technology Advances in Biodegradable Pressure Sensitive Adhesives,' focuses on identifying and analyzing research initiatives focused on the development of new biodegradable PSA candidates for the healthcare, packaging, cosmetics, and agricultural industries. The developments captured in this research service are categorized into three major approaches namely: new material development, introducing biodegradability to existing synthetic polymeric adhesives, and exploring naturally occurring adhesives. The primary focus of researching these materials is to define their biodegradability while not compromising on their binding properties across a wide range of substrates.

Frost & Sullivan has identified seven key materials with tremendous potential as biodegradable PSAs. 1. Biodegradable polyvinyl alcohols 2. Biodegradable polyesters 3. Polylactides 4. Microbial-derived glues 5. Bio-mimicked adhesives 6. Other emerging materials such as plant oil-based materials 7. Biodegradable polyurethanes and acrylates. While acrylates and polyurethanes are already established as synthetic PSAs, researchers are trying to incorporate biodegradable polymers such as polylactides with these to make these polymers biodegradable. New polymers such as biodegradable acrylated epoxy resin from plant oils, starch, bio- mimicked glues from mussels are investigated to formulate pressure sensitive adhesives. Though biodegradable PSAs would find significant competition from synthetic PSAs, emphasis on sustainability is expected to act as a key driver, primarily in the wound care and flexible packaging areas.

Key Points Discussed:

  • What are the key biodegradable PSA materials being developed?
  • What are the various approaches researched to incorporate biodegradability in polyurethane- and acrylate-based PSA?
  • What are the initiatives undertaken to accelerate R&D?
  • What are the factors impacting R&D and adoption of PSA?
  • What are the growth opportunities for technology developers in the PSA domain?

Table of Contents

1.0 Strategic Imperatives

  • 1.1 The Strategic Imperative 8™Factors creating Pressure on Growth in the Insulation Materials in Industrial Applications
  • 1.2 The Strategic Imperative 8™
  • 1.3 New Material Developments Need to be Emphasized on for Efficient Growth of Biodegradable PSA Technology
  • 1.4 About the Growth Pipeline Engine™
  • 1.5 Growth Opportunities Fuel the Growth Pipeline Engine™

2.0 Executive Summary

  • 2.1 Research Scope
  • 2.2 Biodegradable Pressure Sensitive Adhesives Covered in this Research
  • 2.3 Research Methodology
  • 2.4 Key Findings
  • 2.5 Sustainability Efforts Acts as a Key Driving Factor for Adhesive Development
  • 2.6 Regulations Across the Globe Striving to Promote Biodegradable Adhesives
  • 2.7 Factors Driving Biodegradability in Adhesives for Skin and Wound Care

3.0 Technology Overview

  • 3.1 PVA-Based Pressure Sensitive Adhesives have Established Usage in Biomedical Applications
  • 3.2 Research is Focused on Investigating Biocompatability of PVA Adhesives for Biomedical Applications
  • 3.3 Biodegradable Polyesters Derived from Plants are Being Investigated for Use as Pressure Sensitive Adhesives
  • 3.4 Research is Focused on Investigating Esters of Lactic Acid (Lactones) for Developing New PSAs
  • 3.5 Polylactide- Based Adhesives are Encountering Challenges for Adoption in Wound Care Due to Their Hardness
  • 3.6 New Formulation and Manufacturing Strategies are Being Designed for PLA-based Adhesives
  • 3.7 Microbial Derived Polymers are Being Investigated for Woundcare
  • 3.8 Algae-derived Bioadhesives are Gaining Research Focus
  • 3.9 Biomimicked Polymers from Mussels and Cephalopads are Being Researched for Use in Drug Delivery
  • 3.10 Apart from Mussels, Other Adhesives from Sandcastle Worms and Cephalopods are Being Investigated
  • 3.11 Other Biodegradable Polymers Such as Polybeta-hydroxyorganoate and Hybrids are Also in Research Focus
  • 3.12 Examples of Biodegradable Pressure Sensitive Adhesives Being Tested and Demonstrated
  • 3.13 Vegetable Oil Based Plasticizers and Tackifiers Promote Biodegradability
  • 3.14 Tack, Polarity, Wettability and Biocompatability are Key Functional Attributes
  • 3.15 End Users Demand Firm Adhesion of Candidates Along with Water Resistance and Zero Irritation

4.0 Industry Overview

  • 4.1 Biodegradable Pressure Sensitive Adhesives Have Key Applications in Wound Care, Skincare and Packaging
  • 4.2 Wound Care and Skincare Applications are the Most Predominantly Used Among Biodegradable Pressure Sensitive Adhesives
  • 4.3 Drug Delivery is a Major Research Focus Area for Biodegradable Pressure Sensitive Adhesives
  • 4.4 Sustainable Packaging Requires Excellent Bioadhesion of Labels and Tapes
  • 4.5 Biodegradable Adhesives Can Be Used in Electromedical Applications for Better Electrical Connections
  • 4.6 Agriculture is a Niche Area Currently Wherein Biodegradable PSAs are Being Investigated

5.0 Competitive Landscape

  • 5.1 Need for Biodegradability is a Major Factor Driving Growth of Biodegradable PSAs
  • 5.2 The Push from Venture Capitalists to Develop and Research New Adhesives is Prominent
  • 5.3 Lack of Specific Standards and High Cost of Production of Some Polymers Used in These PSAs Pose Certain Risks
  • 5.4 Key Patents are Focused on Developing Bio-Based Cross-Linkers, Tackifiers, and Other Additives
  • 5.5 Key Properties and Functional Aspects of Biodegradable PSA Candidates Based on Patent Scenario
  • 5.6 Research Publications Showcases Strong Interest Toward PVA, Polyacrylates, and Biomimicked Adhesives
  • 5.7 Polyvinyl Alcohol, Biodegradabl Polyacryates, and Biomimetic Adhesives are Developed for Healthcare
  • 5.8 Partnerships and Collaborations are Aimed at Developing Drug Delivery Adhesives
  • 5.9 Mergers & Acquisitions for New Product Development and Commercialization
  • 5.10 Funding Focused on Development of New Biodegradable Pressure Sensitive Adhesives
  • 5.11 Personal Care Company Initatives and Commitments on Bioadhesives
  • 5.12 Universities and Research Institutes are Testing the Feasibility to Introduce Biodegradability in Urethanes
  • 5.13 Companies Introduce Starting Feedstocks to Develop Polyurethanes and Potential Replacements for Polyacrylates

6.0 Comparative Assessment

  • 6.1 Polylactides Which are Excellent Biodegradable Polymers are Used Significantly in Dressings and Tapes for Wound Care
  • 6.2 Comparision of Key Biodegradable Pressure Sensitive Adhesive

7.0 Future Prospects

  • 7.1 Emerging Biodegradable Materials for Pressure Sensitive Adhesive Across Main Applications
  • 7.2 Growth Opportunities of Biodegradable Pressure Sensitive Adhesives in the Next Five Years
  • 7.3 Application Expansion into Wound Care and Packaging as Expected

8.0 Companies to Action

  • 8.1 A Toyochem Japan (A Part of Toyoink Group) Has Developed a PSA With More Than 80% Recyclable Content
  • 8.2 Acucote Inc. Develops Biodegradable Pressure Sensitive Dispersable Labels and Wash Off Adhesives
  • 8.3 Sustainable Adhesive Products Have Launched the BioTak Adhesive With Excellent Tack and Flow Properties
  • 8.4 Mussel Polymers Inc. (MPI) Plans to Demonstrate Its PCS-based Adhesive for Underwater Applications
  • 8.5 Chemence's Exofin Aims to Introduce Biodegradability Within Cyanoacrylates and Use the Same for Biomedical
  • 8.6 LD Davis is Focusing Primarily on Recycled Gelatin and Testing Its Use in New Applications, Such as Cosmetics

9.0 Growth Opportunities

  • 9.1 Growth opportunity: New Product Development of Biodegradable Pressure Sensitive Adhesives
  • 9.1 Growth Opportunity: New Product Development of Biodegradable Pressure Sensitive Adhesives (continued)
  • 9.2 Growth Opportunity: Need for Launching New Biodegradable Adhesives in Wound Care
  • 9.3 Product Launches Need to be Associated with Attached Documents Specifying Technology Parameters Related to Biodegradability
  • 9.4 Growth Opportunity: Strategic Partnerships to Build New Manufacturing Facilities
  • 9.5 Growth Opportunity: Technology and IP Protection to Control Commercial Use

10.0 Key Contacts

  • 10.1 Select List of Industry Contacts
  • 10.1 Select List of Industry Contacts (continued)

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