Top Microfluidic Chip Companies

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61 companies for Microfluidic Chip

Mikro Biyosistemler Inc.'s Logo

Mikro Biyosistemler Inc.

Çankaya, Turkey

11-50 Employees


We Are Expanding Our Business to UK to Be A Global Player in The Liquid Biopsy Field | Microfluidics Solutions for Cancer Cell Detection | We Are Developing Liquid Biopsy Platform Which Uses a Simple Blood Sample for Monitoring Cancer. In this study, we developed a novel microfluidic chip, which is a good candidate for CTC isolation applications requiring…. We are expanding our business to UK to be a global player in the liquid biopsy field by transferring MikroBiyo’s know how and patented technology to Cellsway. We are constantly expanding our activities and searching for skilled talents that share our passion for innovation. According to WHO, cancer is the second common cause of deaths worldwide, linked to 8.8 million deaths in 2015. Micro-Electro-Mechanical Systems, or MEMS, is a technology that in its most general form can be defined as miniaturized mechanical…. Microfluidics is a science and technology of manipulating and controlling fluids, usually in the range of microliters (10-6) to picoliters (10-12), in networks of channels.

Core business

Microfluidic Chip Design and Fabrication

... Microfluidic Chip Design and Fabrication – Mikro ...



Old Toronto, Canada

11-50 Employees


uFluidix is industry leader in custom fabrication of Microfluidic devices made of PDMS and thermoplastics. uFluidix owns and operates its own highly confidential cleanroom production facilities for Microfluidics fully equipped by state of the art custom-made, and advanced manufacturing equipment. We use proprietary processes for affordable and high fidelity production of microfluidic chips made of PDMS and other materials. In addition to providing Microfluidics fabrication services, uFluidix has proven its value as a full-service development partner to the creators of microfluidic solutions. In 2015 uFluidix implemented Quality Management System (QMS) for its contract manufacturing and design services for Microfluidics. Address: 17-689 Warden Ave, Toronto ON M1L 4R6 Canada.


Mixing Microfluidic Chip Combo | Microfluidics Product | uFluidix

... Introducing Mixing Microfluidic Chip Combo, the ultimate ...

ExoSort's Logo


Lausanne, Switzerland

1-10 Employees


This project’s goal is to offer a microfluidic chip capable of purifying exosomes and other vesicles, embedded into a user – friendly casing. By speeding up the purification process for researchers, we enable them to focus on developing new diagnostic tools to help patients, rather than wasting time on obtaining sufficient biological material.


Microfluidic chip

... Microfluidic chip ...

Fluigent's Logo


Le Kremlin-Bicêtre, France

11-50 Employees


Fluigent is an international company which develops, manufactures and supports the most advanced fluid control systems available for microfluidics. Whether your application is with droplets, cell biology, particle studies, or in other research areas, we have the expertise and knowledge to provide the most cost-effective and technically advanced solutions to your fluid control needs. The microfluidic laboratories and industry were struggling to perform their research and develop equipment to the level and precision required in terms of fluid control. As a result there was a need for faster, more stable and precise technology for fluid handling at the microscale. Traditional syringe or peristaltic pumps are struggling to deliver this level of performance and could not meet the market needs.


How to choose a microfluidic chip

... WHAT IS A MICROFLUIDIC CHIP? Microfluidic chips are the devices used in ...



Dresden, Germany

1-10 Employees


Our products serve as catalysts, unraveling the intricate mechanisms of cell reactions and providing unprecedented insights into their world.


quality controlled, handmade, microfluidic chips

... controlled, handmade, microfluidic chips ...

Hexano's Logo


Moncton, Canada

1-10 Employees


We are here when you have a proof of concept and want to move to the commercializing phase. Your products will be manufactured and assembled in an ISO clean room environment. Hexano was founded with the goal of solving your manufacturing challenges of microfluidic cartridges. This will allow you to focus on your core business of development and distribution. We specialize in combining different material layers to get the desired performance. We do most of our component manufacturing in-house using the following processes:.

Core business

Microfluidics | Canada | Hexano

... is a manufacturer of microfluidic chips. We bring your chips out of ...

On-chip Biotechnologies (USA) Co., Ltd's Logo

On-chip Biotechnologies (USA) Co., Ltd

Burlingame, United States

11-50 Employees


On-chip Biotechnologies, incorporated in 2005, is the first company in the world to launch a microfluidic chip-based cell sorter on the market. Our microfluidic chip-based cell sorter, On-chip Sort, designed and manufactured in Japan, uses a disposable microfluidic chip as the core of its technology. Our microfluidic chips are manufactured with Japan’s outstanding high-precision plastic injection molding technology. Therefore, as a prevention for post-sorting cell changes with conventional cell sorter, we developed On-chip Sort. On-chip Biotechnologies is the first company in the world to launch a microfluidic chip-based cell sorter on the market.Our microfluidic chip-based cell sorter, On-chip Sort, designed and manufactured in Japan, uses a disposable microfluidic chip as the core of its technology.Our mission is to assist researchers in accelerating the world’s new discoveries in life science, drug development and diagnostics with On-chip Sort. On-chip products delivered in University of Birmingham on February 13. The use of the disposable microfluidic chip as the core of On-chip Sort realizes great benefits over conventional cell sorters. On-chip Biotechnologies currently offer two instruments: On-chip Sort (cell sorter) and On-chip SPiS (single cell dispenser).

Core business

Microfluidic Chip-Based Gentle Cell Sorter, Single Cell & Cluster Dispenser | On-chip Bio | Microfluidic Chip-Based Gentle Cell Sorter, Single Cell & Cluster Dispenser | On-chip Bio

... The world's first microfluidic chip-based cell sorter for fragile cells, ...

microdrop Technologies GmbH's Logo

microdrop Technologies GmbH

Norderstedt, Germany

11-50 Employees


Our products range from single dispenser systems up to sophisticated Autodrop Platforms (including glove box and production systems). We provide our customers with a number of services like training, dispensing tests, prototyping and customized solutions. Our products are found in several production processes, e. We are specialized in tailor-made solutions in close collaboration with our customer. We focus on high quality products and services for industrial applications as well as for R&D purposes. Provider: YouTube, LLC, 901 Cherry Ave., San Bruno, CA 94066, USA. We offer a number of lab and engineering services to find the best solution for the application demands of our customers. From 3D bioprinting to microarray analysis, we provide in-depth insights and expert resources tailored exclusively for the Life Science community.

Core business

microdrop @ Lab-on-a-Chip and Microfluidics World Congress, Long Beach

... @ Lab-on-a-Chip and Microfluidics World Congress, Long ...

Launani Biomedical LLC's Logo

Launani Biomedical LLC

Baltimore, United States

1-10 Employees


We are a Contract Development and Manufacturing Services (CDMS) provider who specialize in the engineering of micro-nano structured devices for nano-biotechnology applications. Nirmala D Nag Founder and CEO of Launani Biomedical. Launani assists the R&D team in engineering customized functional devices to impart intelligent functions. We use advanced manufacturing processes to shape devices and packaging components over various metals and polymers. We collaborate closely with other partners to meet the requirements in the early stage of product development.

Core business

CDMS provider assisting R&D team biomedical products, microfluidic chip, and microneedles.

... R&D team biomedical products, microfluidic chip, and microneedles. ...

Workshop of Photonics's Logo

Workshop of Photonics


11-50 Employees


Since the beginning, we are continually investing in research, striving to always be in front of micron-scale challenges. Today we are among the top femtosecond laser micromachining providers for industry and science customers around the globe, delivering fully integrated services from feasibility and prototyping to actual solutions – micromachining services and tailor-made laser workstations. Here we are happy to share our expertise, learn new things, and meet our new customers! Our passion, dedication, and hard work led to the deep know-how we can offer you today – send us your µ task, and we will deliver a solution. Whether it is a prototype to test your idea, small to medium-scale production services, or a need for a tailor-made laser system – we are ready to assist. Ultra-high precision production services on all materials - glass, sapphire, ceramics, silicon, optical fibers, metal, plastic. A femtosecond laser micromachining solutions provider for industry and science customers around the globe. Custom design glass, silicon, polymers (PDMS) microfluidic chips and devices manufacturing.


Microfluidic Chips and Devices Manufacturing

... silicon, polymers (PDMS) microfluidic chips and devices manufacturing ...

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Some interesting numbers and facts about your company results for Microfluidic Chip

Country with most fitting companiesUnited States
Amount of fitting manufacturers1840
Amount of suitable service providers1174
Average amount of employees11-50
Oldest suiting company1982
Youngest suiting company2022

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Things to know about Microfluidic Chip

What is Microfluidic Chip?

A microfluidic chip is a miniaturized device, often fabricated from silicon, glass, or polymers like PDMS, designed to manipulate fluids at the microscale, typically in the range of microliters to picoliters. These chips contain intricate networks of channels, valves, and chambers, enabling precise control over fluid movement, mixing, and separation. The significance of microfluidic technology lies in its broad application across various fields, notably in biochemical analysis, medical diagnostics, and pharmaceutical research. By leveraging the principles of microfluidics, scientists and engineers can conduct experiments with enhanced efficiency, sensitivity, and speed compared to traditional laboratory techniques. This technology facilitates the development of point-of-care diagnostic tools, allowing for rapid, on-site health assessments, and personalized medicine. Furthermore, in pharmaceutical research, microfluidic chips enable high-throughput screening of drugs, contributing to the acceleration of drug discovery processes. The integration of microfluidic chips into these areas underscores a transformative shift towards miniaturization and automation, promising significant advancements in science and medicine by enabling sophisticated analyses and experiments at a fraction of the cost and time.

Advantages of Microfluidic Chip

1. Precision and Control
Microfluidic chips offer unparalleled precision and control over the manipulation of fluids at the microscale. This capability allows for precise reactions, mixing, and separation processes which are crucial in applications like diagnostics and research, where minute volumes and concentrations can significantly impact outcomes.

2. Reduced Sample and Reagent Volume
One of the most significant advantages is the minimal volume of samples and reagents required. This not only reduces costs dramatically, especially when dealing with expensive or rare chemicals, but also minimizes waste, making the technology an eco-friendly alternative to conventional laboratory processes.

3. Speed and Efficiency
The compact size and innovative design of microfluidic chips lead to faster reactions and shorter analysis times. The high surface-area-to-volume ratio enhances heat transfer and mass transport, speeding up biochemical reactions and enabling quicker results compared to traditional methods.

4. Integration and Scalability
Microfluidic chips are easily integrated with other technologies and can be scaled up for high-throughput screening. This integration capacity enables the development of compact, portable devices for point-of-care testing, opening up new possibilities for decentralized diagnostics and personalized medicine.

How to select right Microfluidic Chip supplier?

While evaluating the different suppliers make sure to check the following criteria:

1. Material Quality
Ensure the materials used in the microfluidic chips are of high quality, offering durability and compatibility with various substances.

2. Manufacturing Precision
Evaluate the precision of the manufacturing process to ensure the chips meet exact specifications for channel size and surface smoothness.

3. Customization Options
Determine if the supplier offers customization, allowing you to tailor the microfluidic chips to specific applications or experiments.

4. Scalability
Assess the supplier's capacity to scale production up or down based on your requirements, ensuring they can meet demand fluctuations.

5. Compliance and Certification
Check for relevant certifications or compliance with industry standards, which can indicate the quality and reliability of the supplier's products.

6. Technical Support and Service
Consider the level of technical support and customer service provided, which can be crucial for troubleshooting and optimizing the use of microfluidic chips in your projects.

What are common B2B Use-Cases for Microfluidic Chip?

Microfluidic chips revolutionize the pharmaceutical industry by streamlining drug development. These chips allow for precise control and manipulation of fluids at a microscale, facilitating high-throughput screening of drug compounds. This capability accelerates the identification of potential drug candidates, significantly reducing the time and cost associated with traditional drug discovery processes. In the healthcare sector, microfluidic chips are integral to the development of point-of-care diagnostic tools. They enable rapid, on-site analysis of blood, saliva, or urine samples, providing immediate results for various conditions. This technology is particularly beneficial in remote or resource-limited environments where access to comprehensive laboratory facilities is scarce. The environmental monitoring field benefits from microfluidic technology through the creation of compact, efficient sensors. These chips are capable of detecting contaminants and pathogens in water and air with high sensitivity and specificity. This application is crucial for ensuring public health and safety, as well as for compliance with environmental regulations. Agriculture sees the use of microfluidic chips in optimizing crop management and soil analysis. By enabling precise measurement of nutrients and contaminants in soil samples, farmers can make informed decisions about fertilization and irrigation, leading to increased crop yields and sustainable farming practices. Each of these use cases demonstrates the versatility and impact of microfluidic chip technology across different B2B sectors, highlighting its potential to innovate and improve efficiency in various industries.

Current Technology Readiness Level (TLR) of Microfluidic Chip

Microfluidic chips have advanced significantly in recent years, reaching a Technology Readiness Level (TRL) of 6 to 7 on a scale where 9 represents a technology fully matured and integrated into operational environments. This position reflects the successful demonstration of microfluidic device prototypes in relevant environments, particularly in the biomedical and diagnostic fields. The core technical reasons underpinning this TRL include the refinement of fabrication techniques, such as soft lithography, photolithography, and 3D printing, which have enhanced the precision and reduced the cost of chip production. Moreover, the integration of microfluidics with electronic and optical components has been proven, allowing for the development of lab-on-a-chip systems that can perform complex analyses. However, challenges remain in scaling up production and ensuring consistent quality across batches, which prevents these technologies from achieving full commercialization and deployment (TRL 9). Additionally, there are ongoing efforts to improve the durability and reliability of these chips in various operational conditions, which is crucial for their widespread adoption in clinical settings. As research continues to address these technical hurdles, microfluidic chips are expected to advance to higher TRLs in the near future.

What is the Technology Forecast of Microfluidic Chip?

In the short-term, advancements in microfluidic chip technology are expected to focus on enhancing precision and integration capabilities. Researchers are working on developing chips with higher resolution channels and more accurate fluid control, which will significantly improve the performance of lab-on-a-chip devices. This phase is also seeing efforts to integrate sensors directly onto microfluidic devices, allowing for real-time monitoring and analysis, a crucial step for applications in medical diagnostics and environmental monitoring. Looking at the mid-term developments, the emphasis is likely to shift towards scalability and mass production. As the demand for microfluidic chips in medical diagnostics, pharmaceuticals, and chemical engineering grows, the ability to produce these chips cost-effectively at scale becomes paramount. Innovations in manufacturing processes, such as the use of roll-to-roll techniques and 3D printing, are expected to reduce costs and increase the availability of microfluidic devices. Moreover, the integration of AI and machine learning for predictive analysis in microfluidic systems will enhance their functionality and application scope. In the long-term, the frontier of microfluidic chip technology will likely be defined by the development of fully autonomous systems. These systems will be capable of self-regulation and adaptation, conducting complex analyses and decision-making processes without human intervention. The convergence of microfluidics with nanotechnology could lead to the creation of nano-microfluidic chips, offering unprecedented precision and control at the molecular level. Such advancements would herald a new era in targeted drug delivery, personalized medicine, and biochemical detection, marking a significant leap forward in healthcare and scientific research.

Frequently asked questions (FAQ) about Microfluidic Chip Companies

Some interesting questions that has been asked about the results you have just received for Microfluidic Chip

Based on our calculations related technologies to Microfluidic Chip are Magnets, Printed Electronics, Industrial Amplifiers, Electronic Transducers, Electronic Oscillators

Start-Ups who are working in Microfluidic Chip are LiveDrop, Rapid Fluidics Ltd

The most represented industries which are working in Microfluidic Chip are Biotechnology, Other, Medical, Electronics and Electrical engineering, Semiconductor

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