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Microfluidics Engineer Jobs in Texas (NOW HIRING)

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Microfluidics Engineer information

See Texas salary details

$26.4K

$90.7K

$132.8K

How much do microfluidics engineer jobs pay per year?

As of Jun 16, 2026, the average yearly pay for microfluidics engineer in Texas is $90,675.00, according to ZipRecruiter salary data. Most workers in this role earn between $59,361.00 and $113,446.00 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 engineers make $500,000?

Senior engineers in specialized fields such as software engineering, petroleum engineering, and certain aerospace roles can earn $500,000 or more annually, often through a combination of base salary, bonuses, and stock options. High-level positions typically require extensive experience, advanced skills, and sometimes certifications or advanced degrees.

Is there a high demand for biomedical engineers?

Biomedical engineers, including those working in microfluidics, are in growing demand due to advances in healthcare technology and medical device development. The field offers strong job prospects, especially for those with skills in device design, biocompatible materials, and regulatory knowledge, with employment expected to grow faster than average over the next decade.

What do microfluidics engineers do?

Microfluidics engineers design and develop devices that manipulate small volumes of fluids within microscale channels for applications such as medical diagnostics, drug delivery, and biological research. They work with microfabrication techniques, fluid dynamics, and often use tools like CAD software and cleanroom environments to create and test lab-on-a-chip systems.

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.

What engineers make $300,000 a year?

Senior engineers in specialized fields such as petroleum, aerospace, or software engineering can earn $300,000 or more annually, especially with extensive experience, advanced skills, and leadership roles. High-level positions often require advanced degrees, certifications, and a strong track record of project management or technical expertise.
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Microfluidics Engineer jobs near you
Infographic showing various Microfluidics Engineer job openings in Texas as of June 2026, with employment types broken down into 100% Full Time. Highlights an 100% In-person job distribution, with an average salary of $90,675 per year, or $43.6 per hour.
Research Associate

Research Associate

University of Texas at Dallas

Richardson, TX

Full-time

Medical, Dental, Vision, Retirement, PTO

Posted 22 days ago

University Of Texas At Dallas rating

5.6

Company rating: 5.6 out of 10

Based on 9 frontline employees who took The Breakroom Quiz

507th of 537 rated colleges and universities

Job description

Posting Details
Posting Number S04801P Position Title Research Associate Functional Title Research Associate Department Bioengineering Salary Range Up to $57,000 DOQ Pay Basis Monthly Position Status Regular full-time Location Richardson Position End Date (if temporary) Posting Open Date 10/13/2023 Posting Close Date Open Until Filled Yes Desired Start Date Job Summary
A postdoctoral position in microfluidics, integrated sensing electrodes, and immunoengineering is immediately available in the laboratory of Caroline N. Jones in the Department of Bioengineering at the University of Texas at Dallas. The Jones Laboratory of Immunoengineering and Therapeutics focuses on the engineering innovative lab-on-a-chip platforms to model and study immune cell-pathogen interactions with single cell precision.
The researcher will initially focus on two funded research projects:
  1. NIH-funded project aimed at developing and validating novel platforms to detect and better understand sepsis. This project involve collaboration with UT Southwestern Medical Center and communication with critical care physicians and surgeons. This project involves isolating primary human immune cells from septic patients and measuring changes in function. The goal of the Jones research laboratory is early detection and ultimately to decipher the basic mechanisms that lead to inflammation and to translate these findings into the development of targeted anti-inflammatory therapeutics.
  2. Work on collaborative project to create automated microfluidics with integrated sensing circuit arrays. This work is in collaboration with Dr. Leo Bleris and Dr. Yiorgos Makris.
Applicants must hold a Ph.D. in biomedical engineering, electrical engineering, or related fields.
Minimum Education and Experience

Ph.D in a related field.

Preferred Education and Experience
Expertise in microfabrication, microfluidics and electrode-based sensing are preferred.
Your skills and abilities (Required):
  • You are open to feedback, and act on it.
  • You are enthusiastic about learning new microfabrication techniques that can be applied to solve real-world problems.
  • You are highly motivated to pursue and establish a career in research.
  • You are self-motivated and driven.
  • You are able and willing to work independently.
  • You are a fast learner and critical thinker.
  • You are results-driven/outcome oriented.
  • You are organized.
  • You maintain high standards in research.
  • You are an excellent communicator.
  • You are ready to hear about and overcome any patterns that interfere with your productivity and growth as a person and scientist.

Your Technical Skills:
  • You are trained in electrode fabrication, microfluidics, and micropatterning.
  • You have experience in biosensing (DNA or proteins).
  • You are able to independently write manuscripts for publication in engineering journals.
  • You can communicate microfabrication methods and results in clear and simple language.
  • You are able to think critically, develop and test microfabrication and biosensing methods and interpret results independently.
Essential Duties and Responsibilities
Essential duties will include: 1) Planning and executing experiments according to approved research protocols; 2) Establishing new protocols for electrode-based DNA sensing; 3) Quantitative data analysis including statistical evaluations, image processing, write reports, abstracts, manuscripts and assist with grant writing. 4) Training and mentoring graduate and undergraduate students in the laboratory. A successful record of authorship on peer-reviewed publications and conference presentations is recommended. Researchers with background in the development microfluidic devices, electrodes, biosensors, biomaterials and experience with translational research are particularly encouraged to apply. Competitive salary and benefits are on the NIH/NSF pay scale and commitment of two-years is required. The Department of Bioengineering at UT Dallas is committed to world class research, and researchers in The Jones Lab will have access to state microscopes and microfabrication equipment.
Additional Responsibilities and Opportunities:

  • You will have the opportunity to write first-author microfluidic and integrated biosensing electrode array papers.
  • You will have the opportunity to co-author microfluidic papers with PhD students, and train those students to develop reproducible research.
  • You will collaborate with Dr. Caroline Jones, Dr. Leo Bleris and Dr. Yiorgos Makris to prepare grant proposals for the NSF and NIH.
  • You will be part of our lab's writing group. The writing group is actively working on different applications and manuscripts, and meets on a weekly basis to give and receive feedback.
  • You will be part of our lab's journal club. The lab meets on a bi-weekly basis to discuss papers on microfabrication. The lab also uses these sessions to brainstorm ideas about how our tools can be used to answer ongoing questions in the field.
Physical Activities Working Conditions Additional Information
What we have to Offer:
UT Dallas is an Equal Opportunity Employer. We offer an employee-friendly work environment with a comprehensive benefit package including:
  • Competitive Salary
  • Tuition Benefits
  • Medical insurance - including 100% paid employee medical coverage for full-time employees
  • Dental Insurance
  • Vision Insurance
  • Long and short-term disability
  • Retirement Plan Options
  • Paid time off
  • Paid Holidays

About UT Dallas
The University of Texas at Dallas is committed to graduating well-rounded members of the global community whose education has prepared them for rewarding lives and productive careers in a constantly changing world. A charter member of SEA (STEMM Equity Achievement) Change, UT Dallas is a place where members of the community are welcomed, treated fairly, and encouraged to their pursuit of excellence.
A remote work schedule is not available for this position.
Special Instructions Summary
Qualified individuals should send a CV, statement of interests, and a list of three references (preferably as one single PDF-document) by email to Caroline N. Jones, Ph.D. at Caroline.Jones@UTDallas.edu with "UTD Postdoc Position" in the subject line.
Important Message
1) All employees serve as a representative of the University and are expected to display respect, civility, professional courtesy, consideration of others and discretion in all interactions with members of the UT Dallas community and the general public.
2) The University of Texas at Dallas is committed to providing an educational, living, and working environment that is welcoming, respectful, and inclusive of all members of the university community. UT Dallas does not discriminate on the basis of race, color, religion, sex (including pregnancy), sexual orientation, gender identity, gender expression, age, national origin, disability, genetic information, or veteran status in its services, programs, activities, employment, and education, including in admission and enrollment. EOE, including disability/veterans. The University is committed to providing access, equal opportunity, and reasonable accommodation for individuals with disabilities. To request reasonable accommodation in the employment application and interview process, contact the ADA Coordinator. For inquiries regarding nondiscrimination policies, contact the Title IX Coordinator.

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