Liquid Handling Systems Market: Global Industry Trends, Share, Size, Growth, Opportunity and Forecast 2026

Liquid handling systems range from simple volumetric pipettes to robotic assisted liquid handling workstations integrated with cloud-based software, which are specifically designed to transfer desired volumes of liquids in various life science experiments. Liquid handling systems are used in biological sample preparation and handling, serial dilution, cell-based assays, chemical and medicine manufacturing, genomic extraction, microarray spotting, next generation gene sequencing, protein crystallization, and other applications. Furthermore, these systems include indispensable tools that have a wide range of applications in clinical diagnostics, pharmaceutical, and biotechnological drug discovery. The Liquid Handling Systems Market reduce the risk of sample contamination, increase accuracy, and shorten the processing time of the experiments.

Liquid Handling Systems Market are widely used in the pharmaceutical and biotechnology industries for a variety of research activities such as high-throughput screening, absorption, distribution, metabolism, and excretion (ADME) screening, sample distribution, and target validation.

Pipets and micropipets, both digital and electronic, with fixed or disposable tips; microplate or microtiter plate dispensers, stackers, handlers, and washers; and a variety of automated robotic systems are examples of liquid handling equipment.

Soaring investments in drug discovery and development research are expected to boost demand for liquid handling systems. The increasing number of research activities and investments are expected to drive demand for Liquid Handling Systems Market  in research laboratories and the biopharmaceutical industries, propelling market growth.

The complexity and scarcity of skilled labor with technical expertise to operate liquid handling systems may have a negative impact on the market's growth. Because liquid handling systems, particularly automated systems and full-scale workflow stations, are complex in nature, they must be handled by skilled operators. The availability of skilled labor, particularly in developing countries, may limit the use of these instruments.

Key Players

Key market players are focusing on expanding their global presence through the introduction of new liquid handling systems, tools, and instruments. For example, in October 2017, Qiagen launched a next-generation DNA testing automated workflow in collaboration with the International Commission of Missing Persons (ICMP) for DNA identification using Qiagen's instruments and consumables for DNA extraction, liquid handling, and others. Furthermore, in January of 2016,

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