Global Automated Liquid Handling Market Size, Share & Trends Analysis Report By Type(Automated liquid handling systems, manual liquid handling systems, consumables, and accessories), By Application(Drug discovery, genomics, clinical diagnostics, and other research and development activities), By End user(Pharmaceutical and biotechnology companies, academic and research institutes, contract research organizations, and others) and Geography (North America, Europe, Asia-Pacific, Middle East and Africa, and South America), Global Economy Insights, Regional Outlook, Growth Potential, Price Trends, Competitive Market Share & Forecast Till 2031. Intellectual Market Insights Research

The report offers the value (in USD Billion) for the above segments.

Region: Global | Format: Word, PPT, Excel | Report Status: Published


Market Overview
According to a new report by Intellectual Market Insights Research on Global Automated Liquid Handling Market size was valued at around 10.61 Billion in 2023 and is expected to reach a value of USD 14.76 Billion by 2031, at a CAGR of 5.9% over the forecast period (2024–2031).

Advancements in laboratory automation and the escalating need for precision in liquid handling processes is one of the major reason of growth and development of automated liquid handling systems. Automated liquid handling systems have significantly advanced as compare to traditional manual methods in accuracy, reproducibility, and efficiency in handling liquids such as samples, reagents, and solvents.

The demand for high-throughput screening (HTS) in pharmaceutical and biotechnology research have growth in the automated liquid handling market. To improve workflows and expedite the drug discovery process Strong automation solutions are needed in these sectors. Automated liquid handling systems are essential tools in modern laboratories, to perform complex assays with minimal human intervention thus reducing error rates and increasing productivity. The demands for faster turnaround times and cost-effective operations in drug development this capability is important.

Automated liquid handling systems extends in clinical diagnostics, academic research, and food & beverage testing. In clinical laboratories, these systems play an important role in sample preparation for diagnostic tests, enhancing the precision and reliability of medical diagnostics. Academic institutions apply these technologies to conduct cutting-edge research across disciplines, facilitating advancements in genomics, proteomics, and synthetic biology. These technologies enable more precise and efficient experimentation, accelerating the pace of discovery and enabling breakthroughs that address complex biological questions and medical challenges.

Sample dilution and preparation of standards managing by automated liquid handling systems. This capability improves product safety and compliance also enhances overall operational efficiency in food testing laboratories.

The capabilities of automated liquid handling systems improved by Technological advancements in robotics, software integration, and sensor technologies. Modern automated liquid handling systems are equipped with advanced features that significantly enhance their versatility and usability across diverse applications.

 The market observe the innovation in terms of scalability and modular designs, allowing laboratories to customize systems according to specific workflow requirements. This flexibility is particularly advantageous in research environments where experimentation protocols can vary widely.

Difficulties are found specifically with regard to initial cost and difficulty to integrating automated systems into the current workflows in laboratories. The benefits of automated liquid handling—such as improved data accuracy, reduced operational costs, and increased throughput—continue to drive adoption across industries.

Market Dynamics:- Market Drivers

Increasing Demand for High-Throughput Screening In Pharmaceutical and Biotechnology Research

  • The increasing demand for high-throughput screening (HTS) in pharmaceutical and biotechnology research stems from the need to accelerate drug discovery and development processes. HTS involves the rapid testing of large numbers of chemical and biological compounds against specific targets, allowing researchers to identify potential drug candidates more efficiently than traditional methods. This strategy is necessary to identify that exhibit desired biological activity, pharmacological effects, and safety profiles early in the drug discovery pipeline.
  • High-Throughput Screening (HTS) sincerely transform pharmaceutical research by allowing researchers to efficiently screen vast numbers of compounds against therapeutic targets or disease models. This capacity increases the chance of finding compounds better effectiveness over current treatments in addition to speeding up the identification of possible medicinal candidates.
  • HTS giving benefits to biotechnology companies by optimizing the development of biologics, vaccines, and diagnostic tools. These companies can accelerate research timelines, reduce costs associated with experimental iterations, and ultimately bring innovative products to market faster by implementing screening process.

Growing Adoption in Clinical Diagnostics and Academic Research

  • The increasing use of automated liquid handling systems in clinical diagnostics and academic research is modified by the need for enhanced accuracy, efficiency, and reproducibility in laboratory workflows. In clinical diagnostics, these systems is important e in sample preparation, assay development, and the analysis of patient samples. Automated liquid handlers, can handle a huge volume of samples with consistent precision in Clinical laboratories instead of humans so the lower error and variability is possible. This ability is helpful for diagnostic testing, where patient care and illness management depend heavily on the accuracy and speed of the results.
  • Automated liquid handling systems allow researchers in university to carry out detailed studies in a variety of fields, including drug development, proteomics, and genomics. These systems reduce difficulties and repetitive tasks, allowing researchers to focus more on data analysis and interpretation. These systems improve research productivity, accelerate scientific discoveries, and facilitate the reproducibility of experimental results by automating sample handling, reagent dispensing, and assay setup,
  • The adoption of automated liquid handling systems in both clinical and academic settings is improved by advancements in technology, including improved robotics, software interfaces, and integration with other laboratory equipment. In advancing medical diagnostics and scientific research continues to expand, driving further integration into laboratory workflows worldwide these systems become more versatile and user-friendly.
Market Trends

Integration of Artificial Intelligence and Machine Learning Capabilities

  • The creation of artificial intelligence (AI) and machine learning (ML) capabilities into automated liquid handling systems represents a transformative advancement in laboratory automation. AI and ML technologies can analyse data, reduce procedure and make intelligent decisions this improves productivity, accuracy, and scientific research and clinical diagnoses.
  • AI algorithms is useful to understand complex experimental data generated by automated systems, facilitating real-time adjustments and optimizations in experimental protocols This capability improves the reliability and reproducibility. Machine learning algorithms make possible for Adaptive control and predictive maintenance which helps for user interactions with the system and are capable on trends in data. This can helps to identify problems early on and fix them before they negatively affect operations.
  • AI-driven automation enables personalized and precision medicine by efficiently handling large-scale data sets such as genomic profiles, patient records, and drug interactions. This capability supports researchers and clinicians in identifying biomarkers, optimizing treatment regimens, and developing targeted therapies tailored to individual patient needs.
  • The developments will continue by AI and ML continue to advance. The integration of AI and ML into automated liquid handling systems has great promise for revolutionising laboratory operations through enhanced experimentation, scientific discovery, and personalised healthcare efforts. in upcoming year integration of automation with intelligent analytics represents a transformative trend expected to drive substantial advancements across several critical field diverse fields of biomedical research, pharmaceutical development, and clinical diagnostics.
Market Restraining Factors

Complexity in Integrating Automated Systems into Existing Workflows

  • Due to the diverse operational requirements and specialized protocols of different laboratories difficulties in integrating automated liquid handling systems into existing workflows primarily arises. Each laboratory often has its unique set of procedures, instruments, and workflows that have evolved over time to meet specific research or clinical needs. Integrating automated systems into any operational environment, including aviation, demands strict planning.
  • Integrating new systems into existing protocols often presents a challenges. Improve for automation while maintaining accuracy and repeatability, this may include changing accepted procedures for sample preparation, reagent handling. The actual space constraints within laboratories may pose logistical challenge for installing and configuring automated systems, especially when fitting into existing workflows without interfering with day to day operations.
  • The difficulties grows to train laboratory personnel on the operation and maintenance of automated achieve reliable results users must be qualified in utilizing the system's software interfaces, troubleshooting potential issues. These difficulties may sole by taking active efforts between laboratory personnel, automation specialists, and system vendors to tailor solutions that effectively enhance efficiency and productivity without compromising the quality of scientific research or clinical diagnostics.


Report Coverage

The report will cover the qualitative and quantitative data on the global Automated Liquid Handling Market. The qualitative data includes latest trends, market players analysis, market drivers, market opportunity, and many others. Also, the report quantitative data includes market size for every region, country, and segments according to your requirements. We can also provide customize report in every industry vertical.

By Type (Automated liquid handling systems, manual liquid handling systems, consumables, and accessories), By Application (Drug discovery, genomics, clinical diagnostics, and other research and development activities), By End User (Pharmaceutical and biotechnology companies, academic and research institutes, contract research organizations, and others)

Report Scope and Segmentations

Study Period


Base Year


Estimated Forecast Year


Growth Rate

CAGR of 4.0% from 2024 to 2032


By Type, By Application, By End User, By Region


USD Billion

By Type

  • Automated liquid handling systems
  • Manual liquid handling systems
  • consumables
  • Accessories

By Application

  • Drug discovery
  • genomics
  • clinical diagnostics
  • other research and development activities

By End User

  • Pharmaceutical and biotechnology companies
  • academic and research institutes
  • contract research organizations
  • others

By Region

  • North America (U.S., Canada, Mexico)
  • Europe (Germany, France, UK, Italy, Spain, Russia, Rest of Europe)
  • Asia-Pacific (China, India, Japan, ASEAN, Rest of Asia-Pacific)
  • LAMEA (Latin America, Middle East, Africa)


List of Companies Profiled
  • Thermo Fisher Scientific Inc.
  • Tecan Group Ltd.
  • Hamilton Company
  • PerkinElmer Inc.
  • Gilson, Inc.
  • Eppendorf AG
  • Agilent Technologies, Inc.
  • Danaher Corporation
  • Corning Incorporated
  • Sartorius AG
  • Bio-Rad Laboratories, Inc.
  • Mettler-Toledo International Inc.
  • Qiagen N.V.
  • Lonza Group Ltd.
  • Aurora Biomed Inc.
  • Analytik Jena AG
  • Beckman Coulter, Inc.
  • Brand GmbH + Co KG
Key Industry Developments

In November 2022, Agilent Technologies Inc. has announced the release of the AssayMAP Bravo Protein Sample Prep Workbench 4.0 software. This update brings a variety of new features designed to ensure compliance with 21 CFR Part 11. With these enhancements, the AssayMAP Bravo system now facilitates automated sample preparation, providing substantial benefits for biopharmaceutical drug development workflows.

In November 2022, Agilent Technologies Inc. recently announced that Mike McMullen and Bob McMahon are set to present at the 5th Annual Evercore ISI HealthCONx conference. This information was shared in a recent official statement from Agilent Technologies Inc. (NYSE: A).

Automated Liquid Handling Market Segmentation Analysis

The market scope is segmented because of by Type, by Application, by End user.

By Type

  • Automated liquid handling systems
  • Manual liquid handling systems
  • consumables
  • Accessories

Due to their exceptional ability to execute difficult liquid manipulation tasks with unmatched accuracy and consistency automated liquid handling systems attract attention. These systems feature advanced robotics, precise pipetting technology, and sophisticated software interfaces, allowing smooth integration with laboratory information management systems (LIMS) and other laboratory equipment.

By Application

  • Drug discovery
  • Genomics
  • Clinical Diagnostics
  • Other research and development activities

The market for liquid handling systems is seeing its fastest growth in the genomics sector. Genomics research provide focus on the structure, function, and interactions of genes, it has grown increasingly relevant and has advanced our understanding of genetic illnesses and personalised treatment. . Liquid handling systems play an important role in essential tasks such as DNA extraction, sample preparation, PCR amplification, DNA sequencing, and genotyping. These systems' high-throughput capabilities allow researchers to efficiently process large quantities of genetic material. Strong and growing demand for liquid handling systems in this sector is due to developments in genomics research, particularly with next-generation sequencing technologies.

By End User

  • Pharmaceutical and Biotechnology Companies
  • Academic and Research Institutes
  • Contract Research Organizations
  • Others

The pharmaceutical and biotechnology sector includes companies in the research, development, manufacturing, and commercialization of drugs, biologics, and therapeutic products. These companies operate within highly regulated environments and focus on discovering new treatments, improving existing therapies, and advancing medical innovation.

Pharmaceutical companies execute preclinical and clinical studies to evaluate safety and efficacy, identify possible medication candidates, and gain regulatory clearances for market authorization as part of their drug discovery and development procedures. As well as Biotechnology companies specialize in leveraging biological processes and technologies to develop therapeutic proteins, vaccines, and diagnostic tools.

Regional Snapshots

Liquid handling systems increases the growth rates, with North America leading in market share and Asia-Pacific emerging as the fastest-growing region. North America dominating in the global liquid handling system market due to its advanced healthcare infrastructure, extensive presence of pharmaceutical and biotechnology firms, and substantial investments in laboratory automation. Thermo Fisher Scientific Inc. and PerkinElmer Inc., based in North America, drive innovation in liquid handling systems, supporting diverse industry needs such as drug discovery and genomics research.

The liquid handling system market rises in Asia-Pacific fuelled by advancements in healthcare infrastructure, increased research funding, and rising adoption of automation technologies. Biotechnology and pharmaceutical sectors, are expanding in China, Japan, and India also there is rising need for personalized medicine and genomics-driven diagnostics. Governments to bolster research capabilities and investments in life sciences in countries like China contribute further to the rising demand for liquid handling systems in the region are taking initiative.

These geographical factors, encouraged by technical innovation, market demand, and cooperative research efforts, highlight North America's well-established supremacy and Asia-Pacific's emerging potential within the worldwide liquid handling system market.

Global Automated Liquid Handling Market Regional Analysis

The objective of the report is to present comprehensive analysis of Global Automated Liquid Handling Market including all the stakeholders of the industry. The past and current status of the industry with forecasted market size and trends are presented in the report with the analysis of complicated data in simple language.

Automated Liquid Handling Market Report is also available for below Regions and Country Please Ask for that

North America

  • U.S.
  • Canada


  • Switzerland
  • Belgium
  • Germany
  • France
  • U.K.
  • Italy
  • Spain
  • Sweden
  • Netherland
  • Turkey
  • Rest of Europe


  • India
  • Australia
  • Philippines
  • Singapore
  • South Korea
  • Japan
  • China
  • Malaysia
  • Thailand
  • Indonesia
  • Rest Of APAC

Latin America

  • Mexico
  • Argentina
  • Peru
  • Colombia
  • Brazil
  • Rest of South America

Middle East and Africa

  • Saudi Arabia
  • UAE
  • Egypt
  • South Africa
  • Rest Of MEA
Points Covered in the Report
  • The points that are discussed within the report are the major market players that are involved in the market such as market players, raw material suppliers, equipment suppliers, end users, traders, distributors and etc.
  • The complete profile of the companies is mentioned. And the capacity, production, price, revenue, cost, gross, gross margin, sales volume, sales revenue, consumption, growth rate, import, export, supply, future strategies, and the technological developments that they are making are also included within the report. This report analysed 12 years data history and forecast.
  • The growth factors of the market are discussed in detail wherein the different end users of the market are explained in detail.
  • Data and information by market player, by region, by type, by application and etc., and custom research can be added according to specific requirements.
  • The report contains the SWOT analysis of the market. Finally, the report contains the conclusion part where the opinions of the industrial experts are included.
Key Reasons to Purchase
  • To gain insightful analyses of the Automated Liquid Handling market and have comprehensive understanding of the global market and its commercial landscape.
  • Assess the production processes, major issues, and solutions to mitigate the development risk.
  • To understand the most affecting driving and restraining forces in the market and its impact in the global market.
  • Learn about the Automated Liquid Handling market strategies that are being adopted by leading respective organizations.
  • To understand the future outlook and prospects for the Automated Liquid Handling market. Besides the standard structure reports, we also provide custom research according to specific requirements.
Research Scope of Automated Liquid Handling Market
  • Historic year: 2019- 2022
  • Base year: 2023
  • Forecast: 2024 to 2032
  • Representation of Market revenue in USD Million
  • PUBLISHED ON : January, 2024
  • BASE YEAR : 2023
  • STUDY PERIOD : 2020-2032
  • NO OF PAGES : 380

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