Microfluidics Market Size, Share & Trends Analysis Report By Application (Medical/Healthcare, Non-Medical), By Material (Silicon, Glass), By Technology, By Region, And Segment Forecasts, 2024 - 2030

Microfluidics Market Size, Share & Trends Analysis Report By Application (Medical/Healthcare, Non-Medical), By Material (Silicon, Glass), By Technology, By Region, And Segment Forecasts, 2024 - 2030


Microfluidics Market Growth & Trends

The global microfluidics market size is expected to reach USD 71.90 billion by 2030, registering CAGR of 12.22% from 2024 to 2030, according to a new report by Grand View Research, Inc. The demand for microfluidics-based devices is expected to increase due to the introduction of improved technology such as digital microfluidics, which enables on-chip biochemical analysis. An increase in research activities undertaken by analytical and clinical researchers have also driven the demand for microfluidics device. For instance, in May 2022, a research team from the University of Minnesota developed an innovative microfluidic chip for disease diagnosing that uses a minimum number of components and can be operated wirelessly by a smartphone.

Miniature microfluidic-based tools are gaining significant popularity among consumers, which has encouraged companies to invest in their development. Since microfluidics is the underlying principle of lab-on-a-chip devices, it offers various benefits such as minimal sample volume, minimal reagent usage, reduced waste, and rapid processing. Fully automated microfluidics with enhanced functional capabilities, and robust modularity are creating growth opportunities for manufacturers operating in the market. This can be attributed to the fact that modular chips can interface with several instruments. In addition, companies operating in the field of drug discovery are striving to minimize overhead costs and timelines to offset the estimated decline in revenue owing to a significant number of drugs going off-patent.

The implementation of microfluidics is expanding in the field of diagnostics, especially in POC diagnostics. This is also supplemented by microfluidics-integrated biosensor technologies that are expected to enhance POC diagnostics. The combination of microfluidic components with POC devices is largely focused on achieving sensitivity, stability, accuracy, affordability, and obtaining minimally invasive POC technology. Microfluidic POC technologies are expected to enhance patient care by ensuring personalization, early disease detection, and easy monitoring.

In addition, COVID-19 has further upscaled the use of microfluidics. Point-of-care testing involves small equipment, regulates the process, and has limited testing cycles. This allows single or multiple research laboratory services to evaluate biological samples and diagnose harmful diseases simultaneously. In general, stage assessment and rapid detection of viral epidemics are vital to overcoming pandemic situations and diagnosing rapidly. Therefore, combining microfluidic devices with point-of-care testing enhances detection efficiency. At the same time, point-of-care testing of microfluidic chips enhances user accessibility, improves sensitivity and accuracy, and reduces the detection time, all of which are advantageous in detecting SARS-CoV-2.

Further, several acquisitions in the microfluidics industry are aimed at enhancing technologies for expanding the scope of microfluidics-related applications. In June 2021, Danaher Corporation announced that Precision NanoSystems (PNI), a Canada-based solution provider, was acquired by its life science business. PNI offered proprietary genetic toolkit platforms, including LNP delivery and nanoparticle manufacturing via the microfluidic-based platform, which further complemented the company’s portfolio of life science products.

On the other hand, high operational costs hinder the microfluidics market growth to a certain extent. The fabrication of microfluidics chips has certain issues such as open channel construction that require bonding of machine parts to form a final enclosed structure. The open channel is formed by the etching of glass or silicon. This step is slow, costly, and requires the use of aggressive chemicals. In addition, most of the microfluidic prototyping methods are not compatible with the batch process, and are also complicated and costly.

Microfluidics Market Report Highlights
  • Based on application, the medical segment held the highest revenue share of the market in 2023 and is expected to exhibit a CAGR of 12.56% from 2024-2030.
  • Based on material, the polydimethylsiloxane (PDMS) segment held the highest market share in 2023 and is expected to grow at a CAGR of 13.59% from 2024-2030.
  • Based on technology, the lab-on-a-chip segment dominated the market in 2023 and is expected to reveal a CAGR of 11.06% during the forecast period.
  • North America dominated the market with a revenue share of 42.69% in 2023 and is projected to exhibit a CAGR of 10.57% during the forecast period.
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Chapter 1. Methodology and Scope
1.1. Market Segmentation & Scope
1.2. Market Definitions
1.2.1. Information Analysis
1.2.2. Market Application & Data Visualization
1.2.3. Data Validation & Publishing
1.3. Research Assumptions
1.4. Information Procurement
1.4.1. Primary Research
1.5. Information or Data Analysis
1.6. Market Application & Validation
1.7. Market Model
1.8. Global Market: CAGR Calculation
1.9. Objectives
1.9.1. Objective 1
1.9.2. Objective 2
Chapter 2. Executive Summary
2.1. Market Snapshot
2.2. Segment Snapshot
2.3. Competitive Landscape Snapshot
Chapter 3. Market Variables, Trends, & Scope
3.1. Market Lineage Outlook
3.1.1. Parent Market Outlook
3.1.2. Related/Ancillary Market Outlook
3.2. Market Dynamics
3.2.1. Market Driver Analysis
3.2.1.1. Increasing demand for low-volume sample analysis
3.2.1.2. Growing penetration of microfluidics in diagnostics market
3.2.1.3. Introduction of advanced technologies
3.2.2. Market Restraint Analysis
3.2.2.1. High operational cost
3.2.2.2. Interfacing and integration
3.2.2.3. Complex fabrication process
3.2.3. Market Opportunity Analysis
3.2.3.1. Investments by companies in technological advancements
3.2.3.2. Growing adoption of point-of-care (POC) tests
3.2.3.3. Expansion of application scope for microfluidics technology
3.3. Industry Analysis Tools
3.3.1. SWOT Analysis; By Factor (Political & Legal, Economic And Technological)
3.3.2. Porter's Five Forces Analysis
3.4. COVID-19 Impact Analysis
Chapter 4. Microfluidics Market: Application Business Analysis
4.1. Microfluidics Market: Application Movement Analysis
4.2. Medical
4.2.1. PCR & RT-PCR
4.2.1.1. Global PCR & RT-PCR Market, 2018 - 2030 (USD Million)
4.2.2. Gel electrophoresis
4.2.2.1. Global Gel electrophoresis Market, 2018 - 2030 (USD Million)
4.2.3. Microarrays
4.2.3.1. Global Microarrays Market, 2018 - 2030 (USD Million)
4.2.4. ELISA
4.2.4.1. Global ELISA Market, 2018 - 2030 (USD Million)
4.2.5. Others
4.2.5.1. Global Others Market, 2018 - 2030 (USD Million)
4.3. Non-Medical
4.3.1. Global Non-Medical Market, 2018 - 2030 (USD Million)
Chapter 5. Microfluidics Market: Material Business Analysis
5.1. Microfluidics Market: Material Movement Analysis
5.2. Silicon
5.2.1. Global Silicon Market, 2018 - 2030 (USD Million)
5.3. Glass
5.3.1. Global Glass Market, 2018 - 2030 (USD Million)
5.4. Polymer
5.4.1. Global Polymer Market, 2018 - 2030 (USD Million)
5.5. Polydimethylsiloxane (PDMS)
5.5.1. Global Polydimethylsiloxane (PDMS) Market, 2018 - 2030 (USD Million)
5.6. Others
5.6.1. Global Others Market, 2018 - 2030 (USD Million)
Chapter 6. Microfluidics Market: Technology Business Analysis
6.1. Microfluidics Market: Technology Movement Analysis
6.2. Lab-on-a-chip
6.2.1. Global Lab-on-a-chip Market, 2018 - 2030 (USD Million)
6.2.2. Medical
6.2.2.1. Medical Market, 2018 - 2030 (USD Million)
6.2.3. Non-medical
6.2.3.1. Non-medical Market, 2018 - 2030 (USD Million)
6.3. Organs-on-chips
6.3.1. Global Organs-on-chips Market, 2018 - 2030 (USD Million)
6.3.2. Medical
6.3.2.1. Medical Market, 2018 - 2030 (USD Million)
6.3.3. Non-medical
6.3.3.1. Non-medical Market, 2018 - 2030 (USD Million)
6.4. Continuous flow microfluidics
6.4.1. Global Continuous Flow Microfluidics Market, 2018 - 2030 (USD Million)
6.4.2. Medical
6.4.2.1. Medical Market, 2018 - 2030 (USD Million)
6.4.3. Non-medical
6.4.3.1. Non-medical Market, 2018 - 2030 (USD Million)
6.5. Optofluidics and microfluidics
6.5.1. Global Optofluidics and microfluidics Market, 2018 - 2030 (USD Million)
6.5.2. Medical
6.5.2.1. Medical Market, 2018 - 2030 (USD Million)
6.5.3. Non-medical
6.5.3.1. Non-medical Market, 2018 - 2030 (USD Million)
6.6. Acoustofluidics and microfluidics
6.6.1. Global Acoustofluidics and microfluidics Market, 2018 - 2030 (USD Million)
6.6.2. Medical
6.6.2.1. Medical Market, 2018 - 2030 (USD Million)
6.6.3. Non-medical
6.6.3.1. Non-medical Market, 2018 - 2030 (USD Million)
6.7. Electrophoresis and microfluidics
6.7.1. Global Electrophoresis and microfluidics Market, 2018 - 2030 (USD Million)
6.7.2. Medical
6.7.2.1. Medical Market, 2018 - 2030 (USD Million)
6.7.3. Non-medical
6.7.3.1. Non-medical Market, 2018 - 2030 (USD Million)
Chapter 7. Regional Business Analysis
7.1. Microfluidics Market Share By Region, 2023 & 2030
7.2. North America
7.2.1. North America Microfluidics Market, 2018 - 2030 (USD Million)
7.2.2. U.S.
7.2.2.1. Key Country Dynamics
7.2.2.2. Target disease prevalence
7.2.2.3. Competitive Scenario
7.2.2.4. Regulatory Framework
7.2.2.5. U.S. Microfluidics Market, 2018 - 2030 (USD Million)
7.2.3. Canada
7.2.3.1. Key Country Dynamics
7.2.3.2. Target disease prevalence
7.2.3.3. Competitive Scenario
7.2.3.4. Regulatory Framework
7.2.3.5. Canada Microfluidics Market, 2018 - 2030 (USD Million)
7.3. Europe
7.3.1. Europe Microfluidics Market, 2018 - 2030 (USD Million)
7.3.2. UK
7.3.2.1. Key Country Dynamics
7.3.2.2. Target disease prevalence
7.3.2.3. Competitive Scenario
7.3.2.4. Regulatory Framework
7.3.2.5. UK Microfluidics Market, 2018 - 2030 (USD Million)
7.3.3. Germany
7.3.3.1. Key Country Dynamics
7.3.3.2. Target disease prevalence
7.3.3.3. Competitive Scenario
7.3.3.4. Regulatory Framework
7.3.3.5. Germany Microfluidics Market, 2018 - 2030 (USD Million)
7.3.4. France
7.3.4.1. Key Country Dynamics
7.3.4.2. Target disease prevalence
7.3.4.3. Competitive Scenario
7.3.4.4. Regulatory Framework
7.3.4.5. France Microfluidics Market, 2018 - 2030 (USD Million)
7.3.5. Italy
7.3.5.1. Key Country Dynamics
7.3.5.2. Target disease prevalence
7.3.5.3. Competitive Scenario
7.3.5.4. Regulatory Framework
7.3.5.5. Italy Microfluidics Market, 2018 - 2030 (USD Million)
7.3.6. Spain
7.3.6.1. Key Country Dynamics
7.3.6.2. Target disease prevalence
7.3.6.3. Competitive Scenario
7.3.6.4. Regulatory Framework
7.3.6.5. Spain Microfluidics Market, 2018 - 2030 (USD Million)
7.3.7. Denmark
7.3.7.1. Key Country Dynamics
7.3.7.2. Target disease prevalence
7.3.7.3. Competitive Scenario
7.3.7.4. Regulatory Framework
7.3.7.5. Denmark Microfluidics Market, 2018 - 2030 (USD Million)
7.3.8. Sweden
7.3.8.1. Key Country Dynamics
7.3.8.2. Target disease prevalence
7.3.8.3. Competitive Scenario
7.3.8.4. Regulatory Framework
7.3.8.5. Sweden Microfluidics Market, 2018 - 2030 (USD Million)
7.3.9. Norway
7.3.9.1. Key Country Dynamics
7.3.9.2. Target disease prevalence
7.3.9.3. Competitive Scenario
7.3.9.4. Regulatory Framework
7.3.9.5. Norway Microfluidics Market, 2018 - 2030 (USD Million)
7.4. Asia Pacific
7.4.1. Asia Pacific Microfluidics Market, 2018 - 2030 (USD Million)
7.4.2. Japan
7.4.2.1. Key Country Dynamics
7.4.2.2. Target disease prevalence
7.4.2.3. Competitive Scenario
7.4.2.4. Regulatory Framework
7.4.2.5. Japan Microfluidics Market, 2018 - 2030 (USD Million)
7.4.3. China
7.4.3.1. Key Country Dynamics
7.4.3.2. Target disease prevalence
7.4.3.3. Competitive Scenario
7.4.3.4. Regulatory Framework
7.4.3.5. China Microfluidics Market, 2018 - 2030 (USD Million)
7.4.4. India
7.4.4.1. Key Country Dynamics
7.4.4.2. Target disease prevalence
7.4.4.3. Competitive Scenario
7.4.4.4. Regulatory Framework
7.4.4.5. India Microfluidics Market, 2018 - 2030 (USD Million)
7.4.5. Australia
7.4.5.1. Key Country Dynamics
7.4.5.2. Target disease prevalence
7.4.5.3. Competitive Scenario
7.4.5.4. Regulatory Framework
7.4.5.5. Australia Microfluidics Market, 2018 - 2030 (USD Million)
7.4.6. Thailand
7.4.6.1. Key Country Dynamics
7.4.6.2. Target disease prevalence
7.4.6.3. Competitive Scenario
7.4.6.4. Regulatory Framework
7.4.6.5. Thailand Microfluidics Market, 2018 - 2030 (USD Million)
7.4.7. South Korea
7.4.7.1. Key Country Dynamics
7.4.7.2. Target disease prevalence
7.4.7.3. Competitive Scenario
7.4.7.4. Regulatory Framework
7.4.7.5. South Korea Microfluidics Market, 2018 - 2030 (USD Million)
7.5. Latin America
7.5.1. Latin America Microfluidics Market, 2018 - 2030 (USD Million)
7.5.2. Brazil
7.5.2.1. Key Country Dynamics
7.5.2.2. Target disease prevalence
7.5.2.3. Competitive Scenario
7.5.2.4. Regulatory Framework
7.5.2.5. Brazil Microfluidics Market, 2018 - 2030 (USD Million)
7.5.3. Mexico
7.5.3.1. Key Country Dynamics
7.5.3.2. Target disease prevalence
7.5.3.3. Competitive Scenario
7.5.3.4. Regulatory Framework
7.5.3.5. Mexico Microfluidics Market, 2018 - 2030 (USD Million)
7.5.4. Argentina
7.5.4.1. Key Country Dynamics
7.5.4.2. Target disease prevalence
7.5.4.3. Competitive Scenario
7.5.4.4. Regulatory Framework
7.5.4.5. Argentina Microfluidics Market, 2018 - 2030 (USD Million)
7.6. MEA
7.6.1. MEA Microfluidics Market, 2018 - 2030 (USD Million)
7.6.2. South Africa
7.6.2.1. Key Country Dynamics
7.6.2.2. Target disease prevalence
7.6.2.3. Competitive Scenario
7.6.2.4. Regulatory Framework
7.6.2.5. South Africa Microfluidics Market, 2018 - 2030 (USD Million)
7.6.3. Saudi Arabia
7.6.3.1. Key Country Dynamics
7.6.3.2. Target disease prevalence
7.6.3.3. Competitive Scenario
7.6.3.4. Regulatory Framework
7.6.3.5. Saudi Arabia Microfluidics Market, 2018 - 2030 (USD Million)
7.6.4. UAE
7.6.4.1. Key Country Dynamics
7.6.4.2. Target disease prevalence
7.6.4.3. Competitive Scenario
7.6.4.4. Regulatory Framework
7.6.4.5. UAE Microfluidics Market, 2018 - 2030 (USD Million)
7.6.5. Kuwait
7.6.5.1. Key Country Dynamics
7.6.5.2. Target disease prevalence
7.6.5.3. Competitive Scenario
7.6.5.4. Regulatory Framework
7.6.5.5. Kuwait Microfluidics Market, 2018 - 2030 (USD Million)
Chapter 8. Competitive Landscape
8.1. Company Categorization
8.2. Strategy Mapping
8.3. Company Market Position Analysis, 2023
8.4. Company Profiles
8.4.1. Illumina, Inc.
8.4.1.1. Overview
8.4.1.2. Financial Performance (Net Revenue/Sales/EBITDA/Gross Profit)
8.4.1.3. Product Benchmarking
8.4.1.4. Strategic Initiatives
8.4.2. F. Hoffmann-La Roche Ltd
8.4.2.1. Overview
8.4.2.2. Financial Performance (Net Revenue/Sales/EBITDA/Gross Profit)
8.4.2.3. Product Benchmarking
8.4.2.4. Strategic Initiatives
8.4.3. PerkinElmer, Inc
8.4.3.1. Overview
8.4.3.2. Financial Performance (Net Revenue/Sales/EBITDA/Gross Profit)
8.4.3.3. Product Benchmarking
8.4.3.4. Strategic Initiatives
8.4.4. Agilent Technologies, Inc
8.4.4.1. Overview
8.4.4.2. Financial Performance (Net Revenue/Sales/EBITDA/Gross Profit)
8.4.4.3. Product Benchmarking
8.4.4.4. Strategic Initiatives
8.4.5. Bio-Rad Laboratories, Inc
8.4.5.1. Overview
8.4.5.2. Financial Performance (Net Revenue/Sales/EBITDA/Gross Profit)
8.4.5.3. Product Benchmarking
8.4.5.4. Strategic Initiatives
8.4.6. Danaher Corporation
8.4.6.1. Overview
8.4.6.2. Financial Performance (Net Revenue/Sales/EBITDA/Gross Profit)
8.4.6.3. Product Benchmarking
8.4.6.4. Strategic Initiatives
8.4.7. Abbott
8.4.7.1. Overview
8.4.7.2. Financial Performance (Net Revenue/Sales/EBITDA/Gross Profit)
8.4.7.3. Product Benchmarking
8.4.7.4. Strategic Initiatives
8.4.8. Thermo Fisher Scientific Inc.
8.4.8.1. Overview
8.4.8.2. Financial Performance (Net Revenue/Sales/EBITDA/Gross Profit)
8.4.8.3. Product Benchmarking
8.4.8.4. Strategic Initiatives
8.4.9. Standard BioTools, Inc.
8.4.9.1. Overview
8.4.9.2. Financial Performance (Net Revenue/Sales/EBITDA/Gross Profit)
8.4.9.3. Product Benchmarking
8.4.9.4. Strategic Initiatives

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