全球實驗室自動化市場規模、佔有率、趨勢和成長分析報告（2026-2034年）

Global Laboratory Automation Market Size, Share, Trends & Growth Analysis Report 2026-2034

出版日期: 2026年03月16日 | 出版商:

Value Market Research | 英文 153 Pages | 商品交期: 最快1-2個工作天內

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簡介目錄

預計檢查室自動化市場將從 2025 年的 82.2 億美元成長到 2034 年的 154.8 億美元，2026 年至 2034 年的複合年成長率為 7.29%。

隨著科研機構和醫療檢查室採用先進技術來提高效率和準確性，全球實驗室自動化市場正在顯著擴張。實驗室自動化利用機器人系統、自動化分析儀和軟體平台，以最少的人工干預完成檢測流程。這些系統有助於減少人為錯誤，並提高診斷檢查室和研究機構的生產力。

多種因素正在推動市場成長。醫療和製藥研究中檢測數量的不斷增加，對更快、更可靠的檢測流程提出了更高的要求。自動化系統使檢查室能夠在保持品質穩定的同時處理大量檢體。機器人技術、數據管理和人工智慧 (AI) 的進步進一步提升了檢查室的自動化能力。

隨著科學研究和診斷檢測的不斷擴展，實驗室自動化市場的未來前景仍然光明。與數位化實驗室資訊系統的整合可望提升數據管理和工作流程效率。生物技術研究和臨床診斷領域投入的增加預計將創造更多機會。隨著實驗室致力於提高生產效率和準確性，自動化技術的重要性只會與日俱增。

區域分析
北美市場分析、洞察與預測
- 美國
- 加拿大
- 墨西哥
歐洲市場分析、洞察與預測
- 英國
- 法國
- 德國
- 義大利
- 俄羅斯
- 其他歐洲國家
亞太市場分析、洞察與預測
- 印度
- 日本
- 韓國
- 澳洲
- 東南亞
- 其他亞太國家
拉丁美洲市場分析、洞察與預測
- 巴西
- 阿根廷
- 秘魯
- 智利
- 其他拉丁美洲國家
中東和非洲市場分析、洞察與預測
- 沙烏地阿拉伯
- UAE
- 以色列
- 南非
- 其他中東和非洲國家

第8章競爭情勢

最新趨勢
公司分類
供應鏈和銷售管道合作夥伴（根據現有資訊）
市場佔有率和市場定位分析（基於現有資訊）
供應商情況（基於現有資訊）
策略規劃

第9章：公司簡介

主要公司的市佔率分析
公司簡介
- Abbott Laboratories
- Thermo Fisher Scientific
- QIAGEN
- RoboArray Systems
- Yokogawa Electric
- BioTek Instruments
- Hudson Robotics
- Tecan Group
- Agilent Technologies
- Eppendorf
- Sartorius
- Molecular Devices
- PerkinElmer
- Siemens Healthineers
- Beckman Coulter

簡介目錄

Product Code: VMR11214196

The Laboratory Automation Market size is expected to reach USD 15.48 Billion in 2034 from USD 8.22 Billion (2025) growing at a CAGR of 7.29% during 2026-2034.

The global laboratory automation market has expanded significantly as research institutions and healthcare laboratories adopt advanced technologies to improve efficiency and accuracy. Laboratory automation involves the use of robotic systems, automated analyzers, and software platforms to perform laboratory processes with minimal human intervention. These systems help reduce manual errors and increase productivity in diagnostic and research laboratories.

Several factors are driving market growth. The increasing volume of laboratory tests in healthcare and pharmaceutical research has created a need for faster and more reliable testing processes. Automated systems help laboratories handle large sample volumes while maintaining consistent quality. Advances in robotics, data management, and artificial intelligence have further enhanced laboratory automation capabilities.

The future outlook for the laboratory automation market remains promising as scientific research and diagnostic testing continue to expand. Integration with digital laboratory information systems may improve data management and workflow efficiency. Growing investments in biotechnology research and clinical diagnostics are expected to create additional opportunities. As laboratories focus on improving productivity and precision, automation technologies will become increasingly important.

MARKET SEGMENTATION

By Application

Sample Preparation
Liquid Handling
Automated Workflow
Data Management
Analysis and Testing

By Product Type

Automated Workstations
Robotic Systems
Software
Consumables
Analyzers

By End-Use

Pharmaceuticals
Biotechnology
Clinical Laboratories
Academic Research
Environmental Testing

COMPANIES PROFILED

Abbott Laboratories, Thermo Fisher Scientific, QIAGEN, RoboArray Systems, Yokogawa Electric, BioTek Instruments, Hudson Robotics, Tecan Group, Agilent Technologies, Eppendorf, Sartorius, Molecular Devices, PerkinElmer, Siemens Healthineers, Beckman Coulter
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Chapter 1. PREFACE

1.1. Market Segmentation & Scope
1.2. Market Definition
1.3. Information Procurement
- 1.3.1 Information Analysis
- 1.3.2 Market Formulation & Data Visualization
- 1.3.3 Data Validation & Publishing
1.4. Research Scope and Assumptions
- 1.4.1 List of Data Sources

Chapter 2. EXECUTIVE SUMMARY

2.1. Market Snapshot
2.2. Segmental Outlook
2.3. Competitive Outlook

Chapter 3. MARKET VARIABLES, TRENDS, FRAMEWORK

3.1. Market Lineage Outlook
3.2. Penetration & Growth Prospect Mapping
3.3. Value Chain Analysis
3.4. Regulatory Framework
- 3.4.1 Standards & Compliance
- 3.4.2 Regulatory Impact Analysis
3.5. Market Dynamics
- 3.5.1 Market Drivers
- 3.5.2 Market Restraints
- 3.5.3 Market Opportunities
- 3.5.4 Market Challenges
3.6. Porter's Five Forces Analysis
3.7. PESTLE Analysis

Chapter 4. GLOBAL LABORATORY AUTOMATION MARKET: BY APPLICATION 2022-2034 (USD MN)

4.1. Market Analysis, Insights and Forecast Application
4.2. Sample Preparation Estimates and Forecasts By Regions 2022-2034 (USD MN)
4.3. Liquid Handling Estimates and Forecasts By Regions 2022-2034 (USD MN)
4.4. Automated Workflow Estimates and Forecasts By Regions 2022-2034 (USD MN)
4.5. Data Management Estimates and Forecasts By Regions 2022-2034 (USD MN)
4.6. Analysis and Testing Estimates and Forecasts By Regions 2022-2034 (USD MN)

Chapter 5. GLOBAL LABORATORY AUTOMATION MARKET: BY PRODUCT TYPE 2022-2034 (USD MN)

5.1. Market Analysis, Insights and Forecast Product Type
5.2. Automated Workstations Estimates and Forecasts By Regions 2022-2034 (USD MN)
5.3. Robotic Systems Estimates and Forecasts By Regions 2022-2034 (USD MN)
5.4. Software Estimates and Forecasts By Regions 2022-2034 (USD MN)
5.5. Consumables Estimates and Forecasts By Regions 2022-2034 (USD MN)
5.6. Analyzers Estimates and Forecasts By Regions 2022-2034 (USD MN)

Chapter 6. GLOBAL LABORATORY AUTOMATION MARKET: BY END-USE 2022-2034 (USD MN)

6.1. Market Analysis, Insights and Forecast End-use
6.2. Pharmaceuticals Estimates and Forecasts By Regions 2022-2034 (USD MN)
6.3. Biotechnology Estimates and Forecasts By Regions 2022-2034 (USD MN)
6.4. Clinical Laboratories Estimates and Forecasts By Regions 2022-2034 (USD MN)
6.5. Academic Research Estimates and Forecasts By Regions 2022-2034 (USD MN)
6.6. Environmental Testing Estimates and Forecasts By Regions 2022-2034 (USD MN)

Chapter 7. GLOBAL LABORATORY AUTOMATION MARKET: BY REGION 2022-2034 (USD MN)

7.1. Regional Outlook
7.2. North America Market Analysis, Insights and Forecast, 2022-2034 (USD MN)
- 7.2.1 By Application
- 7.2.2 By Product Type
- 7.2.3 By End-use
- 7.2.4 United States
- 7.2.5 Canada
- 7.2.6 Mexico
7.3. Europe Market Analysis, Insights and Forecast, 2022-2034 (USD MN)
- 7.3.1 By Application
- 7.3.2 By Product Type
- 7.3.3 By End-use
- 7.3.4 United Kingdom
- 7.3.5 France
- 7.3.6 Germany
- 7.3.7 Italy
- 7.3.8 Russia
- 7.3.9 Rest Of Europe
7.4. Asia-Pacific Market Analysis, Insights and Forecast, 2022-2034 (USD MN)
- 7.4.1 By Application
- 7.4.2 By Product Type
- 7.4.3 By End-use
- 7.4.4 India
- 7.4.5 Japan
- 7.4.6 South Korea
- 7.4.7 Australia
- 7.4.8 South East Asia
- 7.4.9 Rest Of Asia Pacific
7.5. Latin America Market Analysis, Insights and Forecast, 2022-2034 (USD MN)
- 7.5.1 By Application
- 7.5.2 By Product Type
- 7.5.3 By End-use
- 7.5.4 Brazil
- 7.5.5 Argentina
- 7.5.6 Peru
- 7.5.7 Chile
- 7.5.8 Rest of Latin America
7.6. Middle East & Africa Market Analysis, Insights and Forecast, 2022-2034 (USD MN)
- 7.6.1 By Application
- 7.6.2 By Product Type
- 7.6.3 By End-use
- 7.6.4 Saudi Arabia
- 7.6.5 UAE
- 7.6.6 Israel
- 7.6.7 South Africa
- 7.6.8 Rest of the Middle East And Africa

Chapter 8. COMPETITIVE LANDSCAPE

8.1. Recent Developments
8.2. Company Categorization
8.3. Supply Chain & Channel Partners (based on availability)
8.4. Market Share & Positioning Analysis (based on availability)
8.5. Vendor Landscape (based on availability)
8.6. Strategy Mapping

Chapter 9. COMPANY PROFILES OF GLOBAL LABORATORY AUTOMATION INDUSTRY

9.1. Top Companies Market Share Analysis
9.2. Company Profiles
- 9.2.1 Abbott Laboratories
- 9.2.2 Thermo Fisher Scientific
- 9.2.3 QIAGEN
- 9.2.4 RoboArray Systems
- 9.2.5 Yokogawa Electric
- 9.2.6 BioTek Instruments
- 9.2.7 Hudson Robotics
- 9.2.8 Tecan Group
- 9.2.9 Agilent Technologies
- 9.2.10 Eppendorf
- 9.2.11 Sartorius
- 9.2.12 Molecular Devices
- 9.2.13 PerkinElmer
- 9.2.14 Siemens Healthineers
- 9.2.15 Beckman Coulter