Table of Contents
Overview
New York, NY – July 31, 2025 : The laboratory centrifuge market is projected to grow steadily, reaching US$ 3.2 billion by 2034, up from US$ 1.8 billion in 2024. This reflects a CAGR of 5.8% from 2025 to 2034. The rising need for accurate sample separation in scientific and medical fields is a key driver. Laboratory centrifuges are crucial tools in various lab settings. They help in separating substances like plasma, cells, and serum from liquids. These applications are vital in clinical diagnostics, biotechnology, and pharmaceutical research.
North America leads the laboratory centrifuge market, capturing over 41.1% of the global share. The region holds a market value of around US$ 0.7 billion as of 2024. This dominance is due to advanced healthcare infrastructure and strong R&D investments. The presence of key players and innovation hubs boosts demand for sophisticated lab equipment. Hospitals, diagnostic centers, and research institutes across the U.S. and Canada increasingly rely on high-performance centrifuges for medical testing and research.
The demand for personalized medicine and biotechnology innovations is increasing worldwide. This trend is pushing laboratories to adopt more precise and efficient equipment. As research becomes more complex, centrifuges that can handle specialized samples are essential. Areas like genomics, proteomics, and cell therapy need consistent, high-speed separation tools. Laboratory centrifuges offer the accuracy required for these advanced research fields. As a result, companies are investing in developing next-generation devices with better speed, capacity, and control.
In January 2024, Hettich Group expanded its market presence by acquiring Kirsch Medical. Kirsch is known for its lab cooling and freezing solutions. This acquisition strengthens Hettich’s portfolio, particularly in advanced centrifuge development. The move supports the creation of integrated lab systems combining cooling and centrifugation technologies. These systems enhance sample integrity and lab efficiency. Such strategic actions also position Hettich to meet the growing demand for multifunctional lab tools in healthcare and research environments.
Technological advancements are transforming the laboratory centrifuge industry. New features like automation, digital controls, and integrated software are now common. These improvements help reduce manual errors and improve sample handling. Labs benefit from faster processing and better results. Automated centrifuges are especially useful in high-throughput settings like clinical labs and pharmaceutical production. As more labs shift towards digitized workflows, demand for smart and connected centrifuge systems will continue to rise, supporting long-term market growth.

Key Takeaways
- In 2024, the laboratory centrifuge market reached US$ 1.8 billion in revenue and is projected to hit US$ 3.2 billion by 2034.
- The market is growing at a compound annual growth rate (CAGR) of 5.8% throughout the forecast period from 2025 to 2034.
- Among product types, equipment took the lead in 2024, capturing 58.3% of the total market share over accessories.
- Based on technology, floor-standing centrifuges held a strong position in 2024, accounting for a significant 62.5% market share.
- In terms of applications, microbiology dominated the market by securing 47.3% of the total revenue share in the laboratory centrifuge sector.
- Clinical centrifuges led the end-use segment in 2024, contributing to 55.2% of the total market revenue.
- North America was the top-performing regional market, accounting for 41.1% of the global market share in 2024.
Regional Analysis
North America leads the laboratory centrifuge market with a dominant 41.1% revenue share. This growth is driven by rising demand in biomedical research, pharmaceuticals, and clinical diagnostics. In 2023, the NIH increased life sciences funding by 12%, heavily supporting advanced lab equipment like centrifuges. The FDA approved over 50 new biologics and biosimilars that relied on centrifugation. The CDC also raised centrifuge procurement by 15% in 2022. Canada’s CIHR invested US$30 million to upgrade lab infrastructure. These developments fuel North America’s strong market position.
Asia Pacific is projected to record the highest CAGR in the coming years. This growth is due to improved healthcare infrastructure and increased pharmaceutical output. In 2023, India’s ICMR boosted biomedical research funding by 20% to support lab advancements. China’s CAS saw a 25% rise in centrifuge use for genomics and drug research. Japan’s MHLW and Australia’s NHMRC each invested US$45 million in 2023 in high-performance lab centrifuges. Strong government support and biotech advancements continue to drive market growth in the region.
Segmentation Analysis
Product Type Analysis
In 2024, the equipment segment led the laboratory centrifuge market with a 58.3% share. This dominance stems from the rising demand for precise and reliable tools in sample preparation and analysis. Centrifuge equipment is vital in separating blood components, isolating DNA, and purifying proteins. As labs shift to more advanced techniques, the need for efficient centrifuge machines grows. Research settings and clinical diagnostics especially drive this demand. Automation and higher throughput requirements also support growth, as centrifuges are crucial in high-volume testing environments.
Technology Analysis
Floor-standing centrifuges captured a 62.5% market share due to their high-capacity and high-speed capabilities. These centrifuges are ideal for large sample volumes and more complex experiments. Compared to benchtop models, they offer better performance and are preferred in clinical labs and pharmaceutical settings. The push for high-throughput testing in fields like genomics and biotechnology is further boosting demand. As research intensifies and sample sizes grow, more labs are choosing powerful floor-standing centrifuges for efficient, large-scale applications.
Application Analysis
The microbiology segment achieved a 47.3% revenue share, marking strong growth. This is due to the increasing role of centrifugation in diagnostics and microbial research. Centrifuges are essential for isolating microbial cultures and processing blood samples. As global health challenges grow, the need for faster, accurate testing also rises. This drives demand for centrifuges in microbiology labs. Areas such as infectious disease detection, antibiotic resistance, and microbial genomics are seeing rising investment. These trends support the expanding use of centrifuges in microbiological applications.
End-Use Analysis
The clinical centrifuges segment saw strong growth, holding a 55.2% market share. Hospitals and diagnostic labs rely on these devices for processing blood, plasma, and urine samples. The rise in chronic illnesses and aging populations increases diagnostic needs. This is fueling demand for centrifuges in clinical settings. The move toward personalized medicine and rapid diagnostics also supports growth. Additionally, automation and efficiency are key focus areas in clinical labs. As a result, clinical centrifuges remain essential for modern healthcare operations.
Key Market Segments
By Product Type
- Equipment
- Accessories
By Technology
- Floor-Standing Centrifuges
- Benchtop Centrifuges
By Application
- Microbiology
- Proteomics
- Diagnostics
- Genomics
- Others
By End-use
- Preclinical Centrifuges
- General Purpose Centrifuges
- Clinical Centrifuges
Key Players Analysis
Key players in the laboratory centrifuge market are focusing on innovation and global expansion to boost growth. They invest in high-performance, energy-efficient centrifuges with features like temperature control and automation. These improvements cater to rising demands from healthcare and research sectors. Companies are also diversifying their product lines for use in pharmaceuticals, biotechnology, and diagnostics. Collaborations with hospitals, universities, and research labs help increase adoption. In addition, growing investments in healthcare infrastructure across emerging markets support further market expansion.
Eppendorf AG, based in Hamburg, Germany, is a major player in the laboratory centrifuge market. The company offers a wide range of equipment, including centrifuges, pipettes, and bioreactors. Eppendorf centrifuges are commonly used for cell separation, DNA extraction, and other lab tasks. The company is known for its precision and innovation. It provides both standard and high-speed centrifuges to suit different lab needs. Eppendorf is expanding its global footprint through product development, strategic partnerships, and a strong focus on sustainability.
Top Key Players in the Laboratory Centrifuge Market
- Sigma Laborzentrifugen GmbH
- Sartorius AG
- QIAGEN
- KUBOTA Corporation
- Hettich Group
- HERMLE Labortechnik GmbH
- Eppendorf
- Cardinal Health
Emerging Trends
1. Automation and Smart Features Are Gaining Popularity
Modern laboratories are shifting towards automated centrifuges. These machines save time and reduce human errors. They come with advanced digital controls, programmable settings, and user-friendly touchscreens. This makes them easier to operate and more efficient in busy lab environments. Automation also improves consistency in sample processing. As demand for faster and more accurate testing grows, smart centrifuges are becoming a preferred choice. They help labs work more smoothly and improve productivity. The rise of digital interfaces is especially helpful for training new lab technicians. These features are expected to drive future innovation across laboratory equipment.
2. Demand for High-Speed and Ultra-Speed Centrifuges
There is a growing need for centrifuges that can spin at very high speeds. These ultra-speed machines are ideal for separating tiny particles such as viruses, DNA fragments, and proteins. They help scientists perform experiments faster and with greater accuracy. As research becomes more complex, labs want machines that offer better performance and reliability. High-speed centrifuges are especially useful in advanced medical research, virology, and nanotechnology labs. Their ability to process delicate samples quickly is a major advantage. This demand is likely to rise as more labs explore deeper molecular and genetic studies.
3. Growth of Portable and Compact Models
Smaller labs and clinics need centrifuges that are space-saving and easy to use. Compact or benchtop models are becoming more popular for this reason. These portable machines fit well in labs with limited space and are easier to install. Mobile testing units and remote healthcare facilities also benefit from their lightweight design. Despite being small, many of these models still offer strong performance and speed. This makes them a smart choice for routine testing and quick analysis. As point-of-care testing grows, compact centrifuges will continue to play a key role in diagnostics.
4. Increased Use in Molecular Biology and Genetics
Research in molecular biology and genetics is expanding rapidly. Labs working on DNA analysis, gene sequencing, and personalized medicine need specialized centrifuges. These machines must offer high precision and gentle handling for fragile samples. They also need advanced temperature control and variable speed settings. The demand is especially high in biotech companies, university labs, and genome research centers. Centrifuges help separate DNA and proteins, which is essential in genetic testing. As interest in personalized medicine grows, so will the need for highly accurate and reliable centrifuges tailored for genetic research.
5. Eco-Friendly and Energy-Efficient Designs
Sustainability is becoming a key focus in laboratory operations. Many labs now prefer energy-efficient centrifuges that use less power and generate less heat. These models help reduce energy bills and support eco-friendly goals. Manufacturers are responding by designing machines that meet green lab standards. Some newer models also feature auto shut-off options to save energy during idle time. These improvements are not only good for the environment but also help labs cut operating costs. As climate goals and energy regulations tighten, energy-efficient centrifuges will see wider adoption across research and healthcare sectors.
6. Customization for Industry-Specific Needs
Laboratory centrifuges are now being tailored to meet the unique needs of different industries. For example, pharmaceutical labs need machines that can handle sterile samples. Food testing labs require models that work with different densities and textures. Forensic labs often need high-precision equipment for delicate evidence. Customization allows each lab to choose features that match their workflow. This can include speed ranges, rotor types, or cooling systems. As demand grows across various sectors, manufacturers are creating flexible solutions. Industry-specific designs help improve accuracy, safety, and speed—making centrifuges more valuable than ever before.
Use Cases
1. Clinical Diagnostics
Hospitals and diagnostic labs use centrifuges to separate blood into different parts like plasma and red blood cells. This helps doctors get clear results from blood tests. It is useful in detecting infections, monitoring diabetes, or diagnosing conditions like anemia. Accurate separation of blood components makes it easier for medical teams to track patient health. Centrifuges also speed up test processing, which is important in emergency cases. Their use is growing in routine check-ups and advanced diagnostics. As healthcare systems become more data-driven, centrifuges play a bigger role in providing fast and reliable lab results.
2. Pharmaceutical Research
In pharmaceutical labs, centrifuges are essential tools during drug development. They help separate and purify chemical compounds from complex mixtures. This step ensures that medicines are safe, pure, and effective. It also supports quality control during production. Any impurity can affect the drug’s performance or safety, so precise separation is key. Researchers use centrifuges to test formulations before they go into clinical trials. These machines save time and improve lab accuracy. As demand for new drugs increases, especially after global health crises, centrifuges continue to be vital in pharmaceutical R&D and manufacturing.
3. Biotechnology and Genetic Testing
Biotech companies and genetic labs depend on centrifuges for many research tasks. These machines help isolate DNA, RNA, and proteins from biological samples. This process is a core step in genetic testing, vaccine research, and gene therapy. Scientists use centrifuges to study how genes work and to create personalized treatments. The equipment also helps in producing cell-based therapies and bioengineered products. With growing interest in personalized medicine and genomics, centrifuges are more important than ever. They offer speed and precision in handling complex biological materials, which supports rapid advances in biotech research.
4. University and Academic Research
Centrifuges are widely used in colleges and universities for teaching and research. Students use them in labs to learn about cells, bacteria, and molecular biology. Academic researchers rely on centrifuges for experiments in biology, chemistry, and medical sciences. These machines help separate materials based on density, making it easier to study microscopic structures. Whether for basic science projects or advanced research papers, centrifuges are key lab tools. Their presence in educational settings builds future scientists’ skills. As research funding increases in higher education, demand for advanced centrifuge models also grows.
5. Food and Beverage Testing
The food and beverage industry uses centrifuges to test product purity and quality. They help analyze items like milk, juices, and edible oils. By separating liquids and solids, centrifuges detect contamination and ensure safety. This testing is important for meeting food safety regulations and consumer expectations. Quality checks help prevent recalls and improve product consistency. Labs also use centrifuges to test nutritional content. This helps food producers maintain labeling accuracy. With growing health awareness among consumers, food companies are investing more in reliable lab testing. Centrifuges support this by providing fast and accurate results.
6. Environmental Testing
Centrifuges are used in environmental labs to test water, soil, and air quality. They help separate solids from liquids in samples, making it easier to study pollution and contamination. For example, water samples can be checked for toxic metals or bacteria. Soil samples reveal chemical buildup or harmful waste. These insights support conservation, public health, and pollution control efforts. Scientists also monitor ecosystems using centrifuge data. With rising global concerns about the environment, testing and monitoring have become more important. Centrifuges help deliver accurate results quickly, which supports faster decision-making and action.
7. Forensic Science
In crime labs, centrifuges play a key role in analyzing blood and tissue samples. They separate components that help identify DNA or detect drugs and toxins. This aids investigators in solving crimes, confirming identities, and collecting evidence. The precision of centrifuges ensures samples remain uncontaminated during processing. They are also used to prepare samples for advanced techniques like PCR or toxicology testing. Fast and accurate lab results are critical in criminal cases. As forensic science becomes more tech-driven, centrifuges remain a trusted tool for evidence analysis and case resolution.
Conclusion
In conclusion, the laboratory centrifuge market is growing steadily due to rising demand in research, diagnostics, and pharmaceutical sectors. Advancements in automation, digital controls, and energy-efficient designs are making centrifuges more reliable and easier to use. From hospitals to biotech labs, these machines are essential for separating samples quickly and accurately. With increasing focus on personalized medicine, genetic research, and high-throughput testing, the need for advanced centrifuge systems will continue to rise. North America holds a strong market position, while Asia Pacific is emerging as a fast-growing region. Overall, the market outlook is positive, supported by innovation, industry-specific applications, and strong global investment in laboratory infrastructure.
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