全球生物晶片和 BioMEMS 市场 - 执行摘要:分析和预测(2023-2029 年)
市场调查报告书
商品编码
1436824

全球生物晶片和 BioMEMS 市场 - 执行摘要:分析和预测(2023-2029 年)

Executive Summary of the BioChips & BioMEMS Global Markets: 2023-2029 Analysis & Forecasts

出版日期: | 出版商: Dedalus Consulting, Inc. | 英文 50 Pages and 50 Charts/Graphs | 商品交期: 最快1-2个工作天内

价格
简介目录

本报告概述了动态成长的全球生物晶片和生物MEMS市场。

每个部分都包含市场数据,例如全球生物晶片和生物MEMS设备需求趋势以及依类型、应用和最终用户行业划分的市场需求(以百万美元为单位)。发布2023年至2029年的年度数据,其中2023年为基准年,2029年为预测年。

定量分析

  • 实际消费金额(单位:百万美元)
  • 潜在需求(单位:百万美元)
  • 成长率(复合年增长率:%)

产品

  • 生物晶片
    • 微阵列
    • 晶片实验室
    • 系统
  • 生物微机电系统
    • 生物传感器
  • 流量控制
  • 温度
  • 压力
  • 电化学
  • 生物力学
  • 分子特异性
  • 药物输送系统/微针
  • 微流体装置
    • 阀门
    • 筛选
    • 其他
  • 注入
    • 心血管
    • 神经
    • 视网膜/眼睛
  • 硅结构
    • 多层多晶硅形状
    • 支柱
    • 穿孔形状
    • 长钉
    • 其他
  • 微型执行器
    • 显微操作器
    • 外科微型器械

案例分析

  • 听力
  • 生物防御
  • 生物电工程
  • 生物力学
  • 生物修復
  • 心血管
  • 诊断
  • 给药
  • 内分泌学
  • 环境
  • 一般医疗护理
  • 遗传学/DNA 分析
  • 免疫学
  • 工业医学
  • 分子医学
  • 神经病学
  • 眼科/眼科
  • 肿瘤学
  • 病理
  • 即时诊断
  • 研究与发展:基因表现/基因分型
  • 外科手术
  • 组织学/皮肤病学

最终用户产业

  • 医疗/製药
  • 研究
  • 军事/国防
  • 环境
  • 行业
  • 其他

调查目标区域

  • 北美洲:美国、加拿大、墨西哥
  • 欧洲:德国、法国、英国
  • 其他欧洲国家
  • 亚太地区:日本、中国、韩国
  • 其他亚太国家
  • 拉丁美洲/南美国家
  • 其他地区 (ROW) (中东/非洲)

目录

第一章 技术概述

技术与产业定义

生物材料

  • 聚合物
  • C-MEMS
  • 熔融石英
  • 其他高级合成
  • 水凝胶
  • SU-8
  • 奈米材料

生物材料

  • 聚合物
  • C-MEMS
  • 熔融石英
  • 其他高级合成
  • 水凝胶
  • SU-8
  • 奈米材料

装置/封装原料

  • 氧化硅
  • 氮化物
  • 钛封装
  • 氧化硅
  • 氮化物
  • 其他

生物微机电系统与奈米技术

  • 汇聚、影响力、机遇
  • 纳米生物技术
  • 奈米涂层
  • 奈米材料
  • 奈米执行器
  • 奈米电极
  • 奈米光学

技术/产品引进/商业化/竞争

  • 市场进入阶段
  • 製造相关
  • 铸造厂和製造商
  • 小型实验室和工业
  • 小众企业

科技进步的障碍

  • MEMS封装
  • 生物相容性
  • 设备电源
  • 设备支撑结构
  • 技术整合
    • 生物技术
    • 纳米技术
    • 电子材料及製造
    • 微机电系统
    • 光学
  • 技术开发
    • 对光学和雷射技术的影响
    • 微流控
    • 混合电子学

第二章 行业概况

全球MEMS市场趋势及预测

  • 商业/工业
  • 无线微机电系统
  • 生物微机电系统
  • 光学

生物技术市场趋势与预测(2023-2029)

全球生物晶片与生物MEMS趋势与预测(2023-2029)

市场驱动因素:最终用户、应用与技术分析

  • 医疗保健
  • 政府支持
  • 提高最终用户的接受度
  • 加深对生物MEMS优势的理解
  • 提高可靠性和效率
  • 每晶片成本低
  • 降低材料成本
  • 降低设备製造成本
  • 提高晶片密度
  • 诊断工具
  • 诊断特异性

生物晶片市场详细分析

  • 全球生物晶片(微阵列)市场(百万美元,2023-2029)
  • 全球生物晶片市场趋势及预测(2023-2029)
  • 生物晶片市场:依产品类型
  • 全球生物晶片市场依产品类型划分(单位:百万美元,2023-2029)
  • 影响需求成长的因素

生物晶片市场:依应用分类

  • 全球生物晶片市场:依应用分类(百万美元,2023-2029)
  • 研发(R&D)生物晶片市场概述
  • 诊断生物晶片市场概况
  • 生物MEMS市场焦点
  • 全球生物MEMS市场(单位:百万美元,2023-2029)
  • 全球生物MEMS市场趋势及预测(2023-2029)

生物 MEMS 市场:依产品类型

  • 依产品类型划分的全球生物MEMS市场(单位:百万美元,2023-2029)
  • 影响需求成长的因素

生物 MEMS 市场:依应用分类

  • 全球生物MEMS市场:依应用分类(单位:百万美元,2023-2029)

市场进入课题分析

  • 市场分析方法
  • 阻碍市场发展的因素
  • 目前生产技术的局限性
  • 大量生产
  • 全球监管环境
  • 瞭解客户/最终用户

市场与技术的融合

  • 微机电系统
  • 生物技术
  • 积体电路/半导体
  • 纳米技术

竞争环境

  • 依公司划分的市场占有率(单位:百万美元,2019-2023)
  • 市场竞争场景
  • 智慧财产权开发商
  • 学术/研究机构
  • 原材料供应商
  • 设计/软体公司
  • 原型设计
  • 製造商/代工厂
  • 系统製造商
  • 利基公司/小型晶圆厂/专业公司
  • 生物製药公司

未来展望

  • 市场融合
  • 合作
  • 新趋势
  • 国内/国际举措

结论/建议

  • 衡量优势和重点领域
  • 市场方式:合作
  • 未来技术:BioNEMS
简介目录

A detailed report analyzing current trends in the dynamic and growing market for BioChips and BioMEMS including DNA chips, lab-on-a-chip, biosensors, drug delivery systems, microfluidic devices, biomems implants, silicon structures and microactuators. Data and analysis includes consumption value, manufacturing feasibility points, sources of funding/venture capital, steps to market, technology licensing revenue generation, and steps to market entry.

Each section contains market data including market demand (US$Millions) for Biochips and BioMEMS devices by global demand, type, application and end-user industry. Data is given for the years 2023-2029 by year with 2023 as the base year and 2029 as the forecast year.

Our published research has been industry proven as a consistently reliable source of market intelligence for many years. Through our work publishing research reports and consulting on life sciences markets, we have been able to offer clients valuable insights into new and existing markets.

The report contains over 50 pages and over 50 charts/graphs.

Scope of Coverage

The following categories present how the data was developed, organized and is presented. Breaking the data into specific categories is essential to analyze and draw meaningful insights. The breakdowns are designed to highlight key patterns and trends in the data, as well as to facilitate comparisons between different groups or segments.

Each section contains quantitative market data including market by consumption value (US$Millions), volume (UnitsMillions) and average selling price (US$/Unit). Data tables and visualizations include breakdowns by country, end-user industry & applications, operating frequencies, packaging and connector types, and supplier sales & market share. Data is given for the years 2023-2029 by year with 2023 as the base year, 2024 as the estimate year, and 2029 as the forecast year.

Introduction

  • Study Objectives
  • Methodology & Sources

  • Statistical Notes

Report Objectives

  • Identify and analyze emerging end-use and application markets for biochips and bioMEMS by demand levels.
  • Quantify market segments by value of consumption (US$MM) by product type.
  • Analyze factors affecting market development and demand.
  • Forecast future market consumption by region, product type, end-use market and application.
  • Analyze and present important developments in biochip and bioMEMS technology.

Each product contains market data presented in tables and charts. Data includes market by value (US$Millions) by total market value, end-user industry, and application. An extensive Technology Overview section provides valuable information on product types, trends, and applications. Data is given for the years 2023-2029 by year with 2023 as the base year and 2029 as the forecast year.

Quantitative Analysis

  • Real Consumption ($MM)
  • Potential Demand ($MM)
  • Growth Rate: CAGR (%)

Products Covered:

  • BioChips
    • Microarrays
    • Lab-on-a-chip
    • Systems
  • BioMEMS
    • Biosensors
  • Flow Control
  • Temperature
  • Pressure
  • Electrochemical
  • Biomechanics
  • Molecule specific
  • Drug Delivery Systems/Microneedles
  • Microfluidic Devices
    • Valves
    • Pumps
    • Filters
    • Other
  • Implants
    • Cardiovascular
    • Neural
    • Retinal/Ocular
  • Silicon Structures
    • Multilayer Polysilicon Shapes
    • Pillars
    • Perforated forms
    • Spikes
    • Other
  • Microactuators
    • Micromanipulators
    • Surgical Microinstruments

Applications

  • Aural
  • Biodefense
  • Bioelectrics
  • Biomechanics
  • Bioremediation
  • Cardiovascular
  • Diagnostics
  • Drug Delivery
  • Endocrinology
  • Environmental
  • General Medical
  • Genetics/DNA Analysis
  • Immunology
  • Industrial
  • Molecular Medicine
  • Neurology
  • Ocular/Opthamology
  • Oncology
  • Pathology
  • Point-of-Care Diagnostics
  • R&D: gene expression/genotyping
  • Surgery
  • Tissue/Dermatolology

End-User Industries

  • Healthcare/Pharmaceutical
  • Research
  • Military/Defense
  • Environmental
  • Industrial
  • Other

Geographic Scope

  • North America: US, Canada, Mexico
  • Europe: Germany, France, UK
  • Rest of Europe
  • Asia/Pacific: Japan, China, Korea
  • Rest Asia/Pacific
  • Latin/South America
  • Rest of World (Middle East, Africa)

Table of Contents

Section One: Technology Overview

Technology & Industry Definitions

  • BioMEMS Fabrication
  • Nanomachining
  • VLSI
  • Genetic Engineering and more...

BioMaterials

  • Silicon
  • Polymers
  • C-MEMS
  • Fused Silica
  • Other advanced synthetics
  • Hydrogels
  • SU-8
  • Nanomaterials

Raw Materials for Device/Packaging

  • Silicon
  • Silicon oxide
  • Nitride
  • Titanium Packaging
  • Silicon oxide
  • Nitride
  • Other

BioMEMS and Nanotechnology

  • Convergence, Impact & Opportunities
  • Nanobiotechnology
  • Nanocoatings
  • Nanomaterials
  • Nanoactuators
  • Nanoelectrodes
  • Nano-optics

Technology, Product Introduction, Commercialization, and Competition

  • Steps to Market
  • Manufacturing Relationships
  • Foundries and Producers
  • Small Labs and Industry
  • Niche Players

Obstacles to Technological Advancement

  • MEMS Packaging
  • Biological Compatibility
  • Powering Devices
  • Device Support Structure
  • Integration of Technologies
    • biotechnology
    • nanotechnology
    • electronic materials & fabrication
    • MEMS
    • optics
  • Technological Developments
    • optics and laser technology implications
    • microfluidics
    • hybrid electronics

Section One: Technology Overview

Technology & Industry Definitions

  • BioMEMS Fabrication
  • Nanomachining
  • VLSI
  • Genetic Engineering and more...

BioMaterials

  • Silicon
  • Polymers
  • C-MEMS
  • Fused Silica
  • Other advanced synthetics
  • Hydrogels
  • SU-8
  • Nanomaterials

Raw Materials for Device/Packaging

  • Silicon
  • Silicon oxide
  • Nitride
  • Titanium Packaging
  • Silicon oxide
  • Nitride
  • Other

BioMEMS and Nanotechnology

  • Convergence, Impact & Opportunities
  • Nanobiotechnology
  • Nanocoatings
  • Nanomaterials
  • Nanoactuators
  • Nanoelectrodes
  • Nano-optics

Technology, Product Introduction, Commercialization, and Competition

  • Steps to Market
  • Manufacturing Relationships
  • Foundries and Producers
  • Small Labs and Industry
  • Niche Players

Obstacles to Technological Advancement

  • MEMS Packaging
  • Biological Compatibility
  • Powering Devices
  • Device Support Structure
  • Integration of Technologies
    • biotechnology
    • nanotechnology
    • electronic materials & fabrication
    • MEMS
    • optics
  • Technological Developments
    • optics and laser technology implications
    • microfluidics
    • hybrid electronics

Section Two: Industry Overview

MEMS Global Market Trends and Forecasts

  • Table 2.1: Total MEMS Market by Type ($MM): 2023-2029
    • Commercial/Industrial
    • RF MEMS
    • BioMEMS
    • Optical

BioTech Market Trends and Forecasts 2023-2029

  • Table 2.2: Global Biotechnology Market Total ($MM): 2023-2029

Global Trends and Forecasts for Biochips & BioMEMS 2023-2029

  • Table 2.3: World Biochips & BioMEMS Market Total by Type: 2023-2029
  • Table 2.4: World Biochips & BioMEMS Demand by End-User ($MM): 2023-2029
  • Table 2.5: World Biochips & BioMEMS Demand by Application ($MM): 2023-2029

Market Drivers Analyzed by End-User, Applications & Technology

  • Healthcare
  • Government Support
  • Increased End-User Acceptance
  • Increased Understanding of bioMEMS Benefits
  • Increased Reliability and Efficiency
  • Lower costs per Chip
  • Materials Cost Decreases
  • Decreases in Device Production Cost
  • Increased Chip Density
  • Diagnostic Tools
  • Diagnostic Specificity

Biochips Market Focus

  • Biochips (Microarrays) Global Market ($MM): 2023-2029
  • Biochips Global Market Trends and Forecasts 2023-2029
  • Biochips Market by Product Type
  • (see categories above)
  • Global Biochips Market by Product Type ($MM): 2023-2029
  • Factors Affecting Growth in Demand

Biochips Market by Application

  • Global Biochips Market by Application ($MM): 2023-2029
  • Biochips in R&D Applications Market Overview
  • Biochips in Diagnostic Applications Market Overview
  • BioMEMS Market Focus
  • BioMEMS Global Market ($MM): 2023-2029
  • BioMEMS Global Market Trends and Forecasts 2023-2029

BioMEMS Market by Product Type

  • Global BioMEMS Market by Product Type ($MM): 2023-2029
  • Factors Affecting Growth in Demand

BioMEMS Market by Application

  • Global BioMEMS Market by Application ($MM): 2023-2029

Analysis of Issues Surrounding Market Entry

  • Approach to Analyzing the Market
  • Barriers to Market Development
  • Limitations of Current Production Techniques
  • Mass Scale Production
  • Global Regulatory Environment
  • Customer/End-User Understanding

Convergence of Markets and Technologies

  • MEMS
  • Biotechnology
  • IC/Semiconductor
  • Nanotechnology

Competitive Environment

  • Player Market Shares ($MM): 2023-2024
  • The Playing Field
  • Intellectual Property Developers
  • Academic/Research Institutions
  • Raw Materials Suppliers
  • Design/Software Companies
  • Prototyping
  • Fabricators/Foundries
  • Systems Manufacturers
  • Niche Players/Small Fabs/Specialty
  • Biomedical Companies

Future Outlook

  • Convergence of Markets
  • Collaboration
  • New Developments
  • National/International Initiatives

Conclusions and Recommendations

  • Measuring Strengths and Focus
  • Market Approach: Collaboration
  • Future Technologies: BioNEMS