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Asia-Pacific Microfluidics Market Outlook, 2029

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    Report

  • 105 Pages
  • July 2024
  • Region: Asia Pacific
  • Bonafide Research
  • ID: 5990831
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In the fast-changing landscape of microfluidics today, the Asia-Pacific region is heading the charts on innovation and growth. In a mix of pioneering research, industrial growth, and surging healthcare demand, APAC is fast acquiring the much-needed epicenter of microfluidic development. But that is just half the battle new benchmarks are being set up in diagnostics, drug delivery, and environmental monitoring within this vibrant market, underlining the remarkable propensity for coupling technology with practical applications seamlessly in the region.

Key drivers of the APAC microfluidics market are increasing healthcare infrastructure in the region, a rise in chronic diseases, and a high demand for point-of-care diagnostics. Investing in research and development, coupled with government policies and initiatives, are some other propelling factors. Other factors that have been contributing heavily to the market are the presence of a solid industrial base in the APAC region and a focus toward technological advancement. Technological developments in microfluidics are one of the cornerstones of growth in the APAC market.

Improvements in material sciences, techniques of fabrication, and integration in device fabrication make it possible to realize efficient, highly functional microfluidic devices. Some of the most exciting developments come out of the adoption of 3D printing technologies, setting a revolution in the fabrication of microfluidic devices through the potential for better flexibility in design and more precision. Development of new biocompatible materials enhances the performance and safety of microfluidic devices for medical and diagnostic applications.

Integration of microfluidics with electronic elements and sensors helps raise a breed of smart, automated systems that can bring added functionality and ease of use. The APAC microfluidics market may be segmented by components, materials, applications, and end-users. Some critical elements in lab-on-a-chip technology include microfluidic chips, pumps and valves, sensors and actuators, among others like mixers and reservoirs. Materials used in microfluidics range from the traditional ones such as polymers, glass, and silicon to the relatively new ones such as paper-based microfluidics.

Key areas that exploit this technology are mainly medical diagnostics, drug delivery, research, environmental monitoring, and food and agriculture. These users of microfluidic technologies include the sectors of hospitals and diagnostic centers, pharmaceutical and biotechnology companies, academic and research institutions, and the industrial segment, thereby showcasing broad applicability with high market potential.

According to the research report "Asia-Pacific Microfluidics Market Outlook, 2029," the Asia-Pacific Microfluidics market is expected to reach a market size of more than USD 11 Billion by 2029.A few trends shaping the APAC microfluidics market are increasing demand for rapid, portable, and accurate diagnostic solutions at the point of care, particularly in rural and remote areas. The trend in personalized medicine is further increasing demand for microfluidic technologies that enable detailed genetic and molecular analyses, thus helping in the development of treatment plans tailored for patients.

The use of microfluidic devices in environmental monitoring and food safety testing has been increasingly applied due to efficient and on-site tools in the detection of contaminants and pathogens. All these trends point to a diverse range of applications, indicating an increased significance of microfluidic technologies in the APAC region. These include a variety of markets in the APAC region, such as China, Japan, India, and South Korea, along with the countries located in Southeast Asia, which would continue to tilt towards the growth of the microfluidics market.

China has a large population with increasing healthcare needs, while on the other hand, having the robust capabilities in the field of manufacturing, makes it an ideal market for the microfluidics market. Being tech-savvy, Japan leads the development of microfluidic innovations in the domains of medical diagnostics and drug delivery. The drivers of the Indian microfluidics market are the growing Indian biotech and pharmaceutical sectors, coupled with increasing concerns for better access to healthcare facilities.

In South Korea, the strong "drive" on technology and innovation propels the microfluidics market. Its entrenched solid healthcare system and government support mean that the growth of this sector is hugely influenced. In other emerging countries in Southeast Asia, such as Singapore and Malaysia, there are upcoming hubs for biotech research and innovation that are gaining investments and providing a fine environment for microfluidic development.
The APAC microfluidics market represents a balanced view of established companies and upcoming startups. Major players in the sector have been focusing on innovation, strategic partnerships, and expansion into the market as the mantra for sustenance. Some of the major companies that have dominated the market are Dolomite Microfluidics, Fluidigm Corporation, Bio-Rad Laboratories, Illumina Inc., and Thermo Fisher Scientific. It implies intense investment in research and development, mergers and acquisition, and strategic partnering to help companies preserve their leading market position and foster innovation.

Product diversification implies that different market segments and applications are catered for, hence a wide market presence ensuring continued growth. The future outlook for the APAC microfluidics market looks very promising, with a number of factors that are likely to continue driving growth. Continuous technological development in microfluidics will enhance device performance, reliability, and cost-effectiveness, thus opening a broad array of new sectors for application.

On the other hand, the growing incidence of chronic diseases and the consequent demand for effective diagnostic solutions are likely to fuel further growth in demand for microfluidic technologies. Applications of microfluidics will range beyond healthcare into environmental monitoring, food safety, and agricultural testing. This scenario will more or less pointedly lead to the rise of developing green microfluidics using sustainable materials and processes. Government initiatives and policies would continue to be instrumental in their support of innovation and encouragement toward investment in health care and technology.

Market Drivers

  • Rapid Technological Adoption: APAC is characterized by rapid adoption of new technologies, including microfluidics. The region's dynamic tech ecosystem and increasing investment in research and development drive the demand for advanced microfluidic solutions. Companies and research institutions in APAC are eager to incorporate microfluidics into their operations for improved efficiency, innovation, and competitive advantage.
  • Growing Healthcare Demand: The increasing demand for healthcare services and advancements in medical technologies are significant drivers for the microfluidics market in APAC. The rising prevalence of chronic diseases and the need for advanced diagnostic tools are fueling the adoption of microfluidic devices. Investments in healthcare infrastructure and research support the growth of the microfluidics market in the region.

Market Challenges

  • Regulatory Variability: APAC faces regulatory variability across different countries, which can impact the microfluidics market. Companies must navigate diverse regulatory environments and standards, which can be complex and time-consuming. This variability poses challenges for market entry and expansion, requiring companies to adapt to different regulatory requirements in each country.
  • Cost Sensitivity: The APAC market is highly price-sensitive, which can affect the adoption of advanced microfluidic technologies. The need for cost-effective solutions drives demand for lower-cost alternatives, potentially limiting the market for high-end microfluidic systems. Companies must balance technological innovation with affordability to succeed in this competitive market.

Market Trends

  • Integration with Digital Health: The integration of microfluidic technologies with digital health solutions is a growing trend in APAC. Combining microfluidics with digital platforms and data analytics enhances diagnostic capabilities and enables remote monitoring. This trend reflects the region's focus on advancing healthcare through digital innovation and improving patient care.
  • Emergence of Local Players: APAC is witnessing the emergence of local players in the microfluidics market. These companies are developing innovative solutions tailored to regional needs and leveraging local expertise to compete with global firms. The growth of local players contributes to a more competitive and dynamic market environment, driving innovation and market expansion in the region.
Microfluidic-based devices occupy the top position in an APAC microfluidics market that has now been exposed to rapid infrastructural up-gradation in healthcare and considerable investment in the research and development process.
Major impetus and funding from the government have been provided to this growth, led by countries like China, Japan, and South Korea, in an attempt to develop healthcare technologies. These countries are investing intensively in establishing ultra-modern facilities in healthcare and having research institutions that act as the backbone in driving the adoption and development of microfluidic-based devices. Particular to China, there has been a surge in the adoption of microfluidic technologies by reason of a government-backed focus on improvement in access and quality of healthcare.

The "Healthy China 2030" plan, among other initiatives, charts a course of increased healthcare innovation and infrastructure for the country, hence creating an excellent environment for microfluidic-based devices to thrive. At this supportive policy environment, coupled with substantial funding, numerous research centers and startups have been established to work on microfluidics. Japan and South Korea also play important roles in the APAC microfluidics market because of the robustness of their technological capabilities and strong research ecosystems.

Some of the leading universities and highly acclaimed research institutions pioneering developments in microfluidics are found in these countries. This might be explained by Japan, with its University of Tokyo, and South Korea, with its KAIST, currently being two institutions leading in the next generation of research conducted in microfluidic technologies and therefore allowing further innovation and commercialization in the region. Personalized medicine and point-of-care diagnostics are currently drawing great attention in the APAC region, which further provides additional impetus to the demand for microfluidic devices.

Accurate diagnosis within a short period is possible through these devices; thus, they provide an effective way of managing and treating diseases in rural and underserved areas. The capability of microfluidic devices to deliver results within minutes and with small volumes of samples makes them especially useful when health infrastructure is limited. The prevalence of chronic and infectious diseases is increasing in the APAC region. All these factors underscore the demand for advanced diagnostic solutions.

Microfluidic-based devices are designed to contribute to meeting this demand by delivering at your doorstep or bringing about efficient, cost-effective, and portable diagnostic tools that can easily be deployed in all healthcare settings. Such versatility and adaptability guarantee extensive diffusion of microfluidic technologies within the region. The booming biotech and pharma sectors in APAC are also leading the leadership in microfluidic-based devices. In order to enhance drug discovery, development, and testing processes, companies in these sectors are rapidly integrating microfluidic technologies into their research and development activities. This aids in increasing the speed of innovation and brings about accuracy and efficiency in pharmaceutical research.

Polymer leadership in the Asia-Pacific microfluidics market is a conglomerate of factors together due to the rapid growth of industries, strong government support, a vibrant ecosystem for manufacturing, and rising demands for low-cost healthcare solutions.
The APAC region is a home to a very well-established manufacturing ecosystem, complete with an extensive supplier, manufacturer, and service provider network. This enables the high-volume production of polymer-based microfluidic devices at very competitive costs. This makes countries like China and India, with their well-established infrastructure for manufacturing and a skilled workforce, particularly suited to harness the many advantages polymers can offer in microfluidics. This manufacturing capability is one of the important drivers for polymers' leading position in terms of market share since it aids in the diffused adoption of microfluidic technologies across the region.
Another important driver for the APAC polymer-based microfluidic devices market is the rising demand for low-cost healthcare solutions. This region is characterized by a diverse population with huge disparities in access to health services. Due to their potential low cost and point-of-care diagnostics associated with personalized medicine, microfluidic devices offer promising solutions in relation to the healthcare challenges.

Polymers are inexpensive and biocompatible; hence, they will be convenient for developing such devices, making healthcare more easily accessible to the APAC population at affordable costs. Government support and various initiatives have an additionally very important role in promoting the adoption of polymer-based microfluidic technologies in the APAC region. Subsidies, tax benefits, and other incentives are being given for research and development in microfluidics by many governments around the world.

For instance, initiatives like "Made in China 2025" by China and "Make in India" by India aim to build a stronger and more innovative domestic manufacturing capability for certain advanced technologies, including microfluidics. Emphasis on cost-effective and flexible materials, such as polymers, is given by most of these initiatives, thus strongly supporting their leadership in the market. In addition, in the APAC region, startup activities related to microfluidics are on the rise.

New companies are using the advantages of polymers in creating new microfluidic devices that really help fulfill the demands of the region. The ecosystem is further supported by incubators, accelerators, and venture capital firms, offering funding, mentorship, and market access to early-stage companies. It is this entrepreneurial activity that also fuels innovation and helps boost the polymer-based microfluidics market in the APAC region.
The high prevalence rate of infectious diseases and chronic conditions explains the critical driver to the increasing demand for diagnostic solutions which are accessible and efficient; hence, the reason why POC diagnostics is taking over the market for microfluidics.

The growth of the market will be majorly propelled by the increasing prevalence of infectious diseases, such as tuberculosis, malaria, and COVID-19, coupled with chronic conditions of diabetes and cardiovascular diseases, during the forecast period. Cognizant of the criticality of rapid and accurate diagnosis in both comprehensive and rural healthcare settings, healthcare providers are being pushed towards the use of POC diagnostics, which allow immediate test performance and timely availability of test results at the site of patient care. This becomes even more critical in resource-constrained settings where conventional laboratory facilities could be deficient.

The rapid growth of preventive healthcare and early detection of diseases is also increasing demand for POC testing solutions. Quick, easy testing not only enhances patient care but also reduces the burden on healthcare centers, therefore making resource utilization truly effective. The recent era of microfluidic technologies has enabled spontaneous growth in the development of portable, low-cost diagnostic devices for functional tests with necessary sensitivity and specificity. Such innovations would be crucial in order to manage this challenge in the healthcare sector for poor developing nations in the region.

Out of the entire POC diagnostics market, emerging markets such as China and India represent a fertile ground in terms of growth. Major drivers of POC testing in these countries are increased healthcare investments, large and growing patient pools, and improved health awareness. The local manufacturers and the international companies partner and collaborate, thus leading to the incorporation of newer diagnostic technologies in order to enter these markets.

The leading end-users in the APAC microfluidics market are hospitals and diagnostic centers. This is attributed to the increasing use of microfluidics technology for point-of-care testing and molecular diagnostics, further stimulated by the need for speed, accuracy, and cost-cutting in healthcare while attaining better outcomes.

The APAC region is recording a considerable increase in the adoption of microfluidics technology in hospitals and diagnostic centers due to the rising demand for point-of-care testing and molecular diagnostics. The large population, growing healthcare needs, and increasing investments in healthcare infrastructure are some of the factors generating huge demand for microfluidics-based diagnostic devices for this region. The technology of microfluidics is being adopted in hospitals and diagnostic centers in the APAC region to help in the improvement of patient outcomes, reduction in healthcare costs, and enrichment of the quality of care.

Presently, there is also growing demand for faster and more accurate diagnosis in APAC; conventional diagnostic techniques require large sample volumes, complex laboratory equipment, and skilled personnel. Thus, a delay in diagnosis and subsequently in treatment occurred. In contrast, microfluidics technology allows the creation of miniature diagnostic devices for handling small sample volumes, thus decreasing the need for big and pricey laboratory equipment. It therefore allows healthcare providers to conduct diagnostic testing at the point-of-care, reducing both time and cost associated with sending samples to centralized laboratories.

Further, there exist many local players in the APAC region that are developing innovative microfluidics-based diagnostic devices. Such players are offering a number of affordable and accessible diagnostic solutions to hospitals and diagnostic centers, thereby driving the growth of the microfluidics market in this region. Other government initiatives in countries like China and India encourage the use of advanced technologies, including microfluidics.

Other factors boosting the growth of the microfluidics market in APAC include increasing investments in research and development. It is a region that comprises a great number of institutions involved in research as well as universities dedicated to the development of microfluidics-based diagnostic devices. These institutions then collaborate with the industry players in coming up with innovations about microfluidics-based solutions, thus driving market growth.

China has the largest market for microfluidics, significantly investing in research and development, growing biotechnology and pharmaceutical industries, and government policies and initiatives that act as supporting factors.
The Chinese Government has been funding at high levels for scientific research and technological innovation, especially in the development of new medical technologies. This is evidenced by the large number of research institutes and laboratories on microfluidics and associated fields. The availability of substantial funding has increased the speed of innovation, resulting in the development of state-of-the-art microfluidic devices and applications. Another major reason that makes China dominant in the microfluidics market is the booming biotechnology and pharmaceutical industries in the country.

It has a large and rapidly growing number of biotech and pharmaceutical firms that increasingly adopt microfluidic technologies for a number of applications, such as drug discovery, diagnostics, and personalized medicine. These companies are looking for more efficient, cost-effective, and precise tools; these are exactly the benefits that microfluidics can offer. Hence, developed demand from these industries will drive market growth. Government policies and initiatives of support further strengthen the position of China in the microfluidics market.

The policies that have been adopted by the Chinese government are intended to facilitate the development and commercialization of high-tech medical devices, including microfluidics. The "Made in China 2025" plan, among others, is one of the initiatives targeted toward transforming China into a global leader in advanced manufacturing and technology. Regulatory reforms in the process of approving new medical technologies have now given companies the ability to come up with innovative microfluidic products and launch them in the market.

China's large, growing population is also a demand factor for advanced healthcare solutions. With an increasing incidence of chronic diseases and a raising aging population, a large need is felt for better diagnostic and therapeutic tools. Microfluidic devices offer the potential for both rapid and cost-effective diagnostics with high accuracy two key ingredients needed to address such vast healthcare needs. This creates demand, thereby driving the adoption and development of microfluidic technologies in China.
  • In February 2023, Amar Equipment, an India-based company, launched NanoMake, a microfluidics-based device. The launch was to boost the preclinical research for mRNA vaccines for COVID-19. Such product launches are expected to facilitate market growth.
  • In August 2022, HORIBA announced a collaboration with SigTuple to speed up the deployment of its AI100, an AI-assisted digital pathology solution, in the Indian subcontinent. SigTuple combined AI, robotics, microfluidics, and cloud computing to develop smart diagnostic solutions to make quality healthcare delivery accessible and affordable.
  • In November 2019, Panasonic Corporation and IMT jointly created a technology for the mass production of microfluidic devices utilizing glass molding.

Considered in this report

  • Historic year: 2018
  • Base year: 2023
  • Estimated year: 2024
  • Forecast year: 2029

Aspects covered in this report

  • Microfluidics market Outlook with its value and forecast along with its segments
  • Various drivers and challenges
  • On-going trends and developments
  • Top profiled companies
  • Strategic recommendation

By Product Type

  • Microfluidic-based Devices
  • Microfluidic Components (Microfluidic Chips, Micro Pumps, Microneedles and other Mocrofluids Components Type)

By Material

  • Polymer
  • Glass
  • Silicon
  • Other Materials (Paper-based microfluidics, Ceramic-based microfluidics, Hydrogels, Metal-based microfluidics)

By Application

  • Point-of-care diagnostics
  • Drug delivery systems
  • Pharmaceutical and biotechnology research
  • In vitro diagnostics
  • Others (e.g., environmental testing, industrial applications)

By End User

  • Hospitals and diagnostic centers
  • Pharmaceutical and biotechnology companies
  • Academic and research institutes
  • Others (e.g., contract research organizations, industrial users)

The approach of the report:

This report consists of a combined approach of primary and secondary research. Initially, secondary research was used to get an understanding of the market and list the companies that are present in it. The secondary research consists of third-party sources such as press releases, annual reports of companies, and government-generated reports and databases. After gathering the data from secondary sources, primary research was conducted by conducting telephone interviews with the leading players about how the market is functioning and then conducting trade calls with dealers and distributors of the market. Post this; we have started making primary calls to consumers by equally segmenting them in regional aspects, tier aspects, age group, and gender. Once we have primary data with us, we can start verifying the details obtained from secondary sources.

Intended audience

This report can be useful to industry consultants, manufacturers, suppliers, associations, and organizations related to the Microfluidics industry, government bodies, and other stakeholders to align their market-centric strategies. In addition to marketing and presentations, it will also increase competitive knowledge about the industry.


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Table of Contents

1. Executive Summary
2. Research Methodology
2.1. Secondary Research
2.2. Primary Data Collection
2.3. Market Formation & Validation
2.4. Report Writing, Quality Check & Delivery
3. Market Structure
3.1. Market Considerate
3.2. Assumptions
3.3. Limitations
3.4. Abbreviations
3.5. Sources
3.6. Definitions
4. Economic /Demographic Snapshot
5. Global Microfluidics Market Outlook
5.1. Market Size By Value
5.2. Market Share By Region
5.3. Market Size and Forecast, By Product Type
5.4. Market Size and Forecast, By Material
5.5. Market Size and Forecast, By Application
5.6. Market Size and Forecast, By End User
5.7. Market Size and Forecast, By Components
6. Asia-Pacific Microfluidics Market Outlook
6.1. Market Size By Value
6.2. Market Share By Country
6.3. Market Size and Forecast, By Product Type
6.4. Market Size and Forecast, By Material
6.5. Market Size and Forecast, By Application
6.6. Market Size and Forecast, By End User
6.7. Market Size and Forecast, By Components
7. Market Dynamics
7.1. Market Drivers & Opportunities
7.2. Market Restraints & Challenges
7.3. Market Trends
7.4. COVID-19 Effect
7.5. Supply chain Analysis
7.6. Policy & Regulatory Framework
7.7. Industry Experts Views
7.8. China Microfluidics Market Outlook
7.8.1. Market Size By Value
7.8.2. Market Size and Forecast By Product Type
7.8.3. Market Size and Forecast By Material
7.8.4. Market Size and Forecast By Application
7.8.5. Market Size and Forecast By End User
7.8.6. Market Size and Forecast By Components
7.9. Japan Microfluidics Market Outlook
7.9.1. Market Size By Value
7.9.2. Market Size and Forecast By Product Type
7.9.3. Market Size and Forecast By Material
7.9.4. Market Size and Forecast By Application
7.9.5. Market Size and Forecast By End User
7.9.6. Market Size and Forecast By Components
7.10. India Microfluidics Market Outlook
7.10.1. Market Size By Value
7.10.2. Market Size and Forecast By Product Type
7.10.3. Market Size and Forecast By Material
7.10.4. Market Size and Forecast By Application
7.10.5. Market Size and Forecast By End User
7.10.6. Market Size and Forecast By Components
7.11. Australia Microfluidics Market Outlook
7.11.1. Market Size By Value
7.11.2. Market Size and Forecast By Product Type
7.11.3. Market Size and Forecast By Material
7.11.4. Market Size and Forecast By Application
7.11.5. Market Size and Forecast By End User
7.11.6. Market Size and Forecast By Components
7.12. South Korea Microfluidics Market Outlook
7.12.1. Market Size By Value
7.12.2. Market Size and Forecast By Product Type
7.12.3. Market Size and Forecast By Material
7.12.4. Market Size and Forecast By Application
7.12.5. Market Size and Forecast By End User
7.12.6. Market Size and Forecast By Components
8. Competitive Landscape
8.1. Competitive Dashboard
8.2. Business Strategies Adopted by Key Players
8.3. Key Players Market Positioning Matrix
8.4. Porter's Five Forces
8.5. Company Profile
8.5.1. Thermo Fisher Scientific Inc.
8.5.1.1. Company Snapshot
8.5.1.2. Company Overview
8.5.1.3. Financial Highlights
8.5.1.4. Geographic Insights
8.5.1.5. Business Segment & Performance
8.5.1.6. Product Portfolio
8.5.1.7. Key Executives
8.5.1.8. Strategic Moves & Developments
8.5.2. Becton, Dickinson and Company
8.5.3. Roche Holding AG
8.5.4. Agilent Technologies, Inc
8.5.5. Bio-Rad Laboratories, Inc.
8.5.6. Illumina, Inc
8.5.7. Standard BioTools Inc.
8.5.8. QuidelOrtho Corporation
8.5.9. PerkinElmer, Inc.
8.5.10. Hologic, Inc.
8.5.11. Danaher Corporation
8.5.12. QIAGEN N.V.
9. Strategic Recommendations
10. Annexure
10.1. FAQ`s
10.2. Notes
10.3. Related Reports
11. Disclaimer
List of Figures
Figure 1: Global Microfluidics Market Size (USD Billion) By Region, 2023 & 2029
Figure 2: Market attractiveness Index, By Region 2029
Figure 3: Market attractiveness Index, By Segment 2029
Figure 4: Global Microfluidics Market Size By Value (2018, 2023 & 2029F) (in USD Billion)
Figure 5: Global Microfluidics Market Share By Region (2023)
Figure 6: Asia-Pacific Microfluidics Market Size By Value (2018, 2023 & 2029F) (in USD Billion)
Figure 7: Asia-Pacific Microfluidics Market Share By Country (2023)
Figure 8: China Microfluidics Market Size By Value (2018, 2023 & 2029F) (in USD Billion)
Figure 9: Japan Microfluidics Market Size By Value (2018, 2023 & 2029F) (in USD Billion)
Figure 10: India Microfluidics Market Size By Value (2018, 2023 & 2029F) (in USD Billion)
Figure 11: Australia Microfluidics Market Size By Value (2018, 2023 & 2029F) (in USD Billion)
Figure 12: South Korea Microfluidics Market Size By Value (2018, 2023 & 2029F) (in USD Billion)
Figure 13: Competitive Dashboard of top 5 players, 2023
Figure 14: Porter's Five Forces of Global Microfluidics Market
List of Tables
Table 1: Global Microfluidics Market Snapshot, By Segmentation (2023 & 2029) (in USD Billion)
Table 2: Top 10 Counties Economic Snapshot 2022
Table 3: Economic Snapshot of Other Prominent Countries 2022
Table 4: Average Exchange Rates for Converting Foreign Currencies into U.S. Dollars
Table 5: Global Microfluidics Market Size and Forecast, By Product Type (2018 to 2029F) (In USD Billion)
Table 6: Global Microfluidics Market Size and Forecast, By Material (2018 to 2029F) (In USD Billion)
Table 7: Global Microfluidics Market Size and Forecast, By Application (2018 to 2029F) (In USD Billion)
Table 8: Global Microfluidics Market Size and Forecast, By End User (2018 to 2029F) (In USD Billion)
Table 9: Global Microfluidics Market Size and Forecast, By Components (2018 to 2029F) (In USD Billion)
Table 10: Asia-Pacific Microfluidics Market Size and Forecast, By Product Type (2018 to 2029F) (In USD Billion)
Table 11: Asia-Pacific Microfluidics Market Size and Forecast, By Material (2018 to 2029F) (In USD Billion)
Table 12: Asia-Pacific Microfluidics Market Size and Forecast, By Application (2018 to 2029F) (In USD Billion)
Table 13: Asia-Pacific Microfluidics Market Size and Forecast, By End User (2018 to 2029F) (In USD Billion)
Table 14: Asia-Pacific Microfluidics Market Size and Forecast, By Components (2018 to 2029F) (In USD Billion)
Table 15: Influencing Factors for Microfluidics Market, 2023
Table 16: China Microfluidics Market Size and Forecast By Product Type (2018 to 2029F) (In USD Billion)
Table 17: China Microfluidics Market Size and Forecast By Material (2018 to 2029F) (In USD Billion)
Table 18: China Microfluidics Market Size and Forecast By Application (2018 to 2029F) (In USD Billion)
Table 19: China Microfluidics Market Size and Forecast By End User (2018 to 2029F) (In USD Billion)
Table 20: China Microfluidics Market Size and Forecast By Components (2018 to 2029F) (In USD Billion)
Table 21: Japan Microfluidics Market Size and Forecast By Product Type (2018 to 2029F) (In USD Billion)
Table 22: Japan Microfluidics Market Size and Forecast By Material (2018 to 2029F) (In USD Billion)
Table 23: Japan Microfluidics Market Size and Forecast By Application (2018 to 2029F) (In USD Billion)
Table 24: Japan Microfluidics Market Size and Forecast By End User (2018 to 2029F) (In USD Billion)
Table 25: Japan Microfluidics Market Size and Forecast By Components (2018 to 2029F) (In USD Billion)
Table 26: India Microfluidics Market Size and Forecast By Product Type (2018 to 2029F) (In USD Billion)
Table 27: India Microfluidics Market Size and Forecast By Material (2018 to 2029F) (In USD Billion)
Table 28: India Microfluidics Market Size and Forecast By Application (2018 to 2029F) (In USD Billion)
Table 29: India Microfluidics Market Size and Forecast By End User (2018 to 2029F) (In USD Billion)
Table 30: India Microfluidics Market Size and Forecast By Components (2018 to 2029F) (In USD Billion)
Table 31: Australia Microfluidics Market Size and Forecast By Product Type (2018 to 2029F) (In USD Billion)
Table 32: Australia Microfluidics Market Size and Forecast By Material (2018 to 2029F) (In USD Billion)
Table 33: Australia Microfluidics Market Size and Forecast By Application (2018 to 2029F) (In USD Billion)
Table 34: Australia Microfluidics Market Size and Forecast By End User (2018 to 2029F) (In USD Billion)
Table 35: Australia Microfluidics Market Size and Forecast By Components (2018 to 2029F) (In USD Billion)
Table 36: South Korea Microfluidics Market Size and Forecast By Product Type (2018 to 2029F) (In USD Billion)
Table 37: South Korea Microfluidics Market Size and Forecast By Material (2018 to 2029F) (In USD Billion)
Table 38: South Korea Microfluidics Market Size and Forecast By Application (2018 to 2029F) (In USD Billion)
Table 39: South Korea Microfluidics Market Size and Forecast By End User (2018 to 2029F) (In USD Billion)
Table 40: South Korea Microfluidics Market Size and Forecast By Components (2018 to 2029F) (In USD Billion)