查看购物车
  • Traditional Chinese
  • English
  • Japanese
  • Korean
生物基粘合剂:技术和知识产权 (IP) 分析
市场调查报告书
商品编码
1319194

生物基粘合剂:技术和知识产权 (IP) 分析

Bio-based Adhesives: Technology and IP Analysis
出版日期: | 出版商: Frost & Sullivan | 英文 70 Pages | 商品交期: 最快1-2个工作天内

价格
简介目录

提高生物基粘合剂的强度、耐水性和经济性的努力推动了研究和开发

由于政府对挥发性有机化合物 (VOC) 的监管更加严格、粘合剂製造中有毒化学品的禁令以及消费者对可持续产品的需求不断增长,粘合剂行业不断发展。这些变革趋势正在推动粘合剂製造商转向可持续的生产和消费流​​程,以提供可持续的解决方案并实现环境、社会和治理 (ESG) 目标。

Frost & Sullivan 的这项研究确定并分析了来源可持续来源的粘合剂的创新。本报告涵盖的生物基胶粘剂包括植物来源胶粘剂、生物基聚合物胶粘剂和其他生物基胶粘剂(包括仿生胶粘剂和来源胶粘剂)。

生物基粘合剂的机械和化学性能低于合成粘合剂。研究重点是将纳米级功能化纳米材料和天然纤维结合起来,以改善生物粘合剂的性质和性能。研究由利益相关者推动,寻求创新方法来解决与生物粘合剂相关的挑战,从而增加这些粘合剂的份额,并将市场从新生儿扩大到全球商业规模。我们将转向部署。

主要问题

  • 推动生物基粘合剂开发和采用的因素
  • 生物基粘合剂类型概述
  • 技术分析重点关注技术参数、原材料、研发力度、优势和劣势、技术准备水平
  • 应用展望,包括生物基粘合剂在各行业采用的比较评估
  • 相关人员活动突出创新重点领域
  • 知识产权分析
  • 成长机会

目录

战略问题

  • 为什么成长如此困难?战略要务 8 (TM):增长的障碍
  • The Strategic Imperative 8 (TM)
  • 生物基粘合剂行业的战略挑战:三大因素的影响
  • 通过增长机会加速增长管道引擎 (TM)
  • 调查方法

增长机会分析

  • 分析范围
  • 调查范围
  • 严格的法规和消费者对可持续解决方案不断增长的需求推动了传统粘合剂向生物基粘合剂的转变
  • 成功采用生物基粘合剂需要解决的主要挑战
  • 生物基粘合剂的选择标准
  • 增长促进因素
  • 生长抑制因素
  • 地理视角:支撑生物粘合剂发展的趋势

技术概述

  • 植物来源粘合剂:开发人员提高粘合剂的机械性能
  • 淀粉基粘合剂:耐水性低阻碍普及
  • 大豆基粘合剂:蛋白质基粘合剂中研究最广泛的
  • 淀粉基粘合剂的高粘合强度引起人们的兴趣
  • 植物来源粘合剂:比较分析
  • 生物基聚合物粘合剂开发商:增强粘合剂功能和粘合强度,
  • 天然橡胶粘合剂:耐水、耐湿,即使在潮湿环境下也能高效使用。
  • 天然橡胶基粘合剂:在生物基聚合物粘合剂中实现最高的粘合强度
  • 生物基聚合物粘合剂的比较分析
  • 与各种基材的高相容性促进了仿生粘合剂和微藻来源粘合剂的发展
  • 製造复杂性阻碍了仿生粘合剂的开发
  • 微藻来源粘合剂:由于粘合强度高、可用性高且成本低而对研究人员有吸引力
  • 纤维纤维素:正在研究作为生物基粘合剂的增强材料
  • 纳米材料:可以改善生物基粘合剂的物理机械性能

应用领域前景

  • 生物粘合剂的应用领域前景
  • 生物粘合剂满足行业需求和挑战的能力
  • 植物来源蛋白粘合剂:受到最终用户行业的关注
  • 聚乙烯醇基粘合剂:正在研究医疗用途
  • 与其他生物基粘合剂的高兼容性可能会推动其采用

知识产权 (IP) 格局

  • 生物粘合剂专利申请:中国占据主导地位
  • 研究和学术机构:引领生物粘合剂的研发
  • 主要受让人关注领域:按材料类型
  • 植物来源粘合剂的专利申请活动正走向商业化
  • 聚乙烯醇:生物基聚合物粘合剂中研究最多的材料。
  • 过去五年增强材料的专利申请活动保持稳定

创新生态系统

  • 学术机构致力于探索生物基粘合剂开发的新方法
  • 粘合剂製造商最新创新:专注于增加产品中的生物基含量
  • 市场进入者:专注于最大限度地提高产品在各行业的渗透率
  • 生物基粘合剂:全球融资和投资展望​​(2020-2023)
  • 伙伴关係和协作侧重于新技术和产品开发

充满增长机会的宇宙

  • 增长机会1:利用功能化纳米材料改善生物基粘合剂的功能特性
  • 增长机会2:探索开发生物基粘合剂的合成路线
  • 增长机会 3:生物基粘合剂在医疗用途中的增值研究

附录

  • 技术准备水平 (TRL):解释

下一步

  • 下一步
  • 为什么选择 Frost & Sullivan?为什么选择现在?
  • 免责声明
简介目录
Product Code: DAAB

Efforts to Improve Bio-based Adhesives' Strength, Water Resistance, and Economic Viability Drive R&D Efforts.

The adhesives industry is evolving, attributed to the stricter implementation of government regulations for volatile organic compounds (VOCs), the ban on toxic chemicals in adhesive manufacturing, and the rising consumer demand for sustainable products. In line with these transformative trends, adhesive manufacturers aim to offer sustainable solutions while moving toward sustainable production and consumption processes to meet Environmental, Social, and Governance (ESG) goals.

This Frost & Sullivan study identifies and analyzes innovation in adhesives derived from sustainable sources. The bio-based adhesives the study covers are plant-based adhesives, bio-based polymer adhesives, and other bio-based adhesives (including bio-inspired adhesives and microalgae-derived adhesives).

Bio-based adhesives impart lower mechanical and chemical performance than synthetic adhesives. A lot of the research centers on the incorporation of functionalized nanomaterials and natural fibers, at the nanoscale, to improve bio-adhesives' characteristics and performance. Research is driven by stakeholders trying to find innovative approaches to address the challenges associated with bio-based adhesives, which will boost these adhesives' share and take the market from nascency to global commercial-scale deployment.

Key Discussion Points:

  • Factors driving bio-based adhesives' development and adoption
  • Overview of bio-based adhesive types
  • Technology analysis, highlighting technical parameters, raw materials, R&D efforts, advantages and disadvantages, and technology readiness level
  • Application outlook, including comparative assessment for the adoption of bio-based adhesives across various industries
  • Stakeholder activities, emphasizing key focus areas of innovation
  • Intellectual property analysis
  • Growth opportunities

Table of Contents

Strategic Imperatives

  • Why Is It Increasingly Difficult to Grow?The Strategic Imperative 8™: Factors Creating Pressure on Growth
  • The Strategic Imperative 8™
  • The Impact of the Top 3 Strategic Imperatives on the Bio-based Adhesives Industry
  • Growth Opportunities Fuel the Growth Pipeline Engine™
  • Research Methodology

Growth Opportunity Analysis

  • Scope of Analysis
  • Research Scope
  • Strict Regulations and Rising Consumer Demand for Sustainable Solutions are Encouraging the Transition from Conventional to Bio-based Adhesives
  • Key Challenges to be Addressed for the Successful Adoption of Bio-based Adhesives
  • Selection Criteria for Bio-based Adhesives
  • Growth Drivers
  • Growth Restraints
  • Geographic Outlook: Trends Supporting Bio-based Adhesives' Development

Technology Snapshot

  • Plant-based Adhesive Developers are Improving Adhesives' Mechanical Characteristics
  • Starch-based Adhesives' Poor Water Resistance can Hinder its Adoption
  • Soy-based Adhesives are the Most Widely Researched among Protein-based Adhesives
  • Starch-based Adhesives' High Adhesive Bond Strength Drives Interest in Them
  • Plant-based Adhesives: Comparative Analysis
  • Bio-based Polymer Adhesive Developers are Increasing Adhesives' Functionality and Bond Strength
  • Good Resistance to Water and Moisture Allows Natural Rubber-based Adhesives to Operate Efficiently in Wet Environments
  • Natural Rubber-based Adhesives Deliver the Highest Adhesive Bond Strength among Bio-based Polymer Adhesives
  • Bio-based Polymer Adhesives: Comparative Analysis
  • High Compatibility with Different Substrates Drives Bio-inspired and Microalgae-derived Adhesive Developments
  • Manufacturing Complexities Hinder Bioinspired Adhesives' Development
  • Microalgae-derived Adhesives are Gaining Interest among Researchers due to their High Adhesive Strength, Easy Availability, and Low Cost
  • Microfibrillated Cellulose is Being Researched as a Reinforcing Material for Bio-based Adhesives
  • Nanomaterials can Improve Bio-based Adhesives' Physiomechanical Properties

Application Outlook

  • Bio-based Adhesives: Application Outlook
  • Bio-based Adhesives' Ability to Address Industry Needs and Challenges
  • Plant-based Protein Adhesives are Gaining Traction across End-user Industries
  • Polyvinyl Alcohol Adhesives are Being Researched for Healthcare Applications
  • High Compatibility of Other Bio-based Adhesives is Likely to Drive their Adoption

Intellectual Property Landscape

  • China Dominates Bio-based Adhesive Patent Filling Activity
  • Research Academia Drives Bio-based Adhesive R&D
  • Key Focus Areas of Top Assignees by Material Type
  • Plant-based Adhesive Patent Filing Activity is Being Translated to Commercialization
  • Polyvinyl Alcohols are the Most Researched Materials among Bio-based Polymer Adhesives
  • Patent Filing Activity for Reinforced Materials has been Steady over the Past 5 Years

Innovation Ecosystem

  • Academia are Focusing on Finding New Approaches to Bio-based Adhesive Development
  • Adhesive Manufacturers' Recent Innovation Emphasizes Increasing Bio-based Content in Product Offerings
  • Market Participants are Focusing on Maximizing Product Penetration across Industries
  • Bio-based Adhesives: Global Funding and Investment Snapshot, 2020-2023
  • Partnerships and Collaborations Focus on New Technology and Product Development

Growth Opportunity Universe

  • Growth Opportunity 1: Using Functionalized Nanomaterials to Improve Bio-based Adhesives' Functional Characteristics
  • Growth Opportunity 2: Exploring Synthetic Routes to Develop Bio-based Adhesives
  • Growth Opportunity 3: Researching Value-added Benefits for Bio-based Adhesives in Healthcare Applications

Appendix

  • Technology Readiness Levels (TRL): Explanation

Next Steps

  • Your Next Steps
  • Why Frost, Why Now?
  • Legal Disclaimer