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Microfluidics Engineer Jobs (NOW HIRING)

Signature Science LLC

Controls Engineer

Austin, TX · On-site

$60K/yr

As a Controls Engineer, you will be instrumental in the design, development, implementation, and ... microfluidics, lab-on-a-chip, and flow chemistry systems. * Demonstrated experience using ...

Signature Science, LLC

Controls Engineer

Austin, TX

$82K - $107K/yr

As a Controls Engineer, you will be instrumental in the design, development, implementation, and ... microfluidics, lab-on-a-chip, and flow chemistry systems. * Demonstrated experience using ...

LuckyJay Consulting

Automation Engineer, Biopharmaceutical The successful candidate will work very closely with the ... An interest and experience in a breadth of technologies is a strong plus (devices, microfluidics ...

Bio-Techne

Product Support Scientist

Wallingford, CT · On-site

$81K - $134K/yr

Experience with automated ELISA platforms or microfluidics is a plus. Experience with programming (e.g., R, Python) or advanced statistical methods is a plus. Prior experience mentoring, leading ...

Re:Build Manufacturing

Mechanical Engineer

Wilmington, MA

$95K - $120K/yr

... microfluidics, specialty plastic design, optics, and design for manufacturing. We have extensive in ... Results-oriented engineers who thrive in a streamlined environment, using the right tools and ...

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Microfluidics Engineer information

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$30K

$103.1K

$151K

How much do microfluidics engineer jobs pay per year?

As of Jun 6, 2026, the average yearly pay for microfluidics engineer in the United States is $103,106.00, according to ZipRecruiter salary data. Most workers in this role earn between $67,500.00 and $129,000.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a Microfluidics Engineer, and why are they important?

To thrive as a Microfluidics Engineer, you need a strong background in engineering principles, fluid dynamics, and materials science, typically supported by a degree in biomedical, mechanical, or chemical engineering. Familiarity with CAD software, microfabrication techniques, and simulation tools like COMSOL Multiphysics is essential, and experience with cleanroom protocols is often required. Strong problem-solving skills, attention to detail, and effective teamwork are vital soft skills in this interdisciplinary role. These abilities ensure the successful design, development, and testing of microfluidic devices used in diagnostics, research, and medical applications.

How does a Microfluidics Engineer typically collaborate with multidisciplinary teams during product development?

Microfluidics Engineers often work closely with biologists, chemists, mechanical engineers, and software developers to design and optimize lab-on-a-chip devices and other microfluidic systems. Collaboration frequently involves regular team meetings, sharing prototype data, and integrating feedback from various disciplines to ensure the device meets functional and regulatory requirements. Effective communication and a willingness to iterate on designs based on interdisciplinary input are key to success in this role.

What is a Microfluidics Engineer?

A Microfluidics Engineer is a specialized engineer who designs, develops, and tests systems that manipulate small amounts of fluids, typically on the scale of microliters or nanoliters, often within micro-scale channels. These professionals work on devices and technologies used in areas such as medical diagnostics, pharmaceutical research, and chemical analysis. Their work often involves interdisciplinary knowledge of mechanical engineering, chemistry, biology, and materials science. Microfluidics Engineers may also be involved in prototyping, simulation, and manufacturing processes for microfluidic devices.

What is the difference between Microfluidics Engineer vs Biomedical Engineer?

AspectMicrofluidics EngineerBiomedical Engineer
Required CredentialsBachelor's or Master's in Mechanical, Chemical, or Bioengineering; specialized knowledge in microfluidicsBachelor's or Master's in Biomedical, Mechanical, or Electrical Engineering; often includes biology or medicine coursework
Work EnvironmentResearch labs, biotech companies, microfabrication facilitiesHospitals, medical device companies, research institutions
Industry UsageDesigning microfluidic devices for diagnostics, drug delivery, lab-on-a-chip systemsDeveloping medical devices, prosthetics, imaging systems, and healthcare solutions

While both roles require engineering backgrounds, Microfluidics Engineers focus on designing and developing micro-scale fluid systems, often within biotech and research settings. Biomedical Engineers have a broader scope, working on medical devices and healthcare solutions, sometimes involving microfluidics but also encompassing other biomedical technologies.

More about Microfluidics Engineer jobs
What cities are hiring for Microfluidics Engineer jobs? Cities with the most Microfluidics Engineer job openings:
Who are the top companies hiring for Microfluidics Engineer jobs? The top employers for Microfluidics Engineer jobs are:
What states have the most Microfluidics Engineer jobs? States with the most job openings for Microfluidics Engineer jobs include:
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Microfluidics Engineer jobs near you
Infographic showing various Microfluidics Engineer job openings in the United States as of May 2026, with employment types broken down into 100% Full Time. Highlights an 100% In-person job distribution, with an average salary of $103,106 per year, or $49.6 per hour.
Postdoctoral Researcher Position: Flexible Biosensor and Wearable Bioelectronics

Postdoctoral Researcher Position: Flexible Biosensor and Wearable Bioelectronics

Terasaki Institute

Woodland Hills, CA

$122K/yr

Full-time

Posted 2 days ago

Job description

Overview

The Terasaki Institute for Biomedical Innovation develops personalized therapeutic solutions using advanced micro- and nanoscale technologies to address major challenges in human health. The Institute works closely with clinicians, engineers, and industry partners to translate biomaterials, bioelectronics, microfluidics, and biosensing technologies into clinically relevant platforms.

We are seeking a highly motivated Postdoctoral Researcher to join an interdisciplinary team developing wearable sweat biosensors for closed-loop obesity management. The project focuses on creating a wearable physiological feedback sensor module that can be integrated with a vagus nerve stimulation-based obesity management system. The first-generation sensor platform will focus on sweat lactate, pH, and ionic strength as metabolic and contextual readouts to support future closed-loop neuromodulation and personalized metabolic monitoring.

The successful candidate will contribute to sensor design, microfluidic sweat collection, electrochemical biosensing, wearable device integration, benchtop validation, data analysis, and prototype development.

Key Responsibilities

  • Conduct research on wearable biosensors for metabolic and physiological monitoring.
  • Integrate biosensors with flexible substrates, portable electronics, and data acquisition systems.
  • Perform calibration, analytical validation, interference testing, stability testing, and repeatability studies in artificial sweat and relevant biological samples.
  • Analyze sensor data and develop methods for signal correction, contextual interpretation, and quality control.
  • Collaborate with interdisciplinary teams, including engineers, clinicians, neuroscientists, industry partners, and regulatory or translational collaborators.
  • Prepare technical reports, invention disclosures, manuscripts, presentations, and grant-related materials.
  • Disseminate findings through peer-reviewed publications, conferences, and partner-facing technical updates.

Required Qualifications

  • PhD. in Biomedical Engineering, Bioengineering, Electrical Engineering, Chemical Engineering, Analytical Chemistry, or a related discipline.
  • Strong research experience in wearable sensors, electrochemical sensing, microfluidics, bioelectronics, or related areas.
  • Demonstrated ability to design experiments, collect data, analyze results, and troubleshoot complex technical problems.
  • Strong publication record in peer-reviewed journals.
  • Excellent written and verbal communication skills.
  • Ability to work independently while contributing effectively to an interdisciplinary team.
  • Strong organizational skills and ability to meet project milestones in a fast-paced translational research environment.

Preferred Qualifications

  • Experience developing electrochemical biosensors with various modalities.
  • Experience with wearable biosensors, skin-interfaced devices, or physiological monitoring systems.
  • Experience with microfluidic device design, soft lithography, laser cutting, flexible materials, adhesive patches, or wearable device fabrication.
  • Experience with flexible electronics, portable potentiostat, wireless readout, signal acquisition, or embedded sensor systems.
  • Experience with biological sample testing, sensor calibration, interference testing, antifouling strategies, and drift correction.
  • Experience with data processing, signal quality analysis, Python, MATLAB, LabVIEW, Arduino, or related tools.
  • Interest in bioelectronic medicine, closed-loop therapeutic systems, neuromodulation, metabolic health, or digital health technologies.
  • Experience working with translational research projects, industry collaborations, prototype development, or milestone-driven R&D programs.

Application Materials

  • Curriculum Vitae (CV).
  • Research statement (1-3 pages).
  • Contact information for three professional references.

Apply