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Graduate Biomedical Engineer Jobs in Texas (NOW HIRING)

Abbott

2026 Summer Engineering Co-Op

Plano, TX · On-site

$16.45 - $32.85/hr

Biomedical Engineering * Opportunities may exist in other areas of the business as well, such as ... Candidates must be currently enrolled at an accredited undergraduate or graduate engineering ...

Abbott

2026 Summer Engineering Co-Op

Plano, TX · On-site

$16.45 - $32.85/hr

Biomedical Engineering * Opportunities may exist in other areas of the business as well, such as ... Candidates must be currently enrolled at an accredited undergraduate or graduate engineering ...

Omni Inclusive

AI/ML Expert

Plano, TX

Graduate or Doctorate degree in information technology, Neuroscience, Business Informatics, Biomedical Engineering, Computer Science, Artificial Intelligence, or a related field. Specialization in ...

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All JobsGraduate Biomedical Engineer JobsGraduate Biomedical Engineer Jobs in Texas

Graduate Biomedical Engineer information

See Texas salary details

$38.2K

$88.3K

$130.4K

How much do graduate biomedical engineer jobs pay per year?

As of Jun 13, 2026, the average yearly pay for graduate biomedical engineer in Texas is $88,327.00, according to ZipRecruiter salary data. Most workers in this role earn between $69,400.00 and $108,100.00 per year, depending on experience, location, and employer.

What engineers make $500,000?

Highly experienced engineers in specialized fields such as petroleum engineering, aerospace engineering, or software engineering with senior or executive roles can earn $500,000 or more annually. These positions often require advanced skills, extensive experience, and sometimes leadership responsibilities or working in high-paying industries like oil and gas, aerospace, or technology firms.

What is the difference between Graduate Biomedical Engineer vs Biomedical Technician?

AspectGraduate Biomedical EngineerBiomedical Technician
Required CredentialsBachelor's degree in biomedical engineering or related field; some roles may require internshipsAssociate's or bachelor's degree in biomedical technology or related field; certification often preferred
Work EnvironmentDesign, development, and testing of medical devices; research settings; labsMaintenance, repair, and calibration of medical equipment in hospitals or clinics
Employer & Industry UsageHospitals, medical device companies, research institutionsHospitals, clinics, biomedical service companies

Graduate Biomedical Engineers focus on designing and developing medical devices and systems, often working in research or development environments. Biomedical Technicians primarily maintain and repair medical equipment in clinical settings. Both roles require technical knowledge, but differ in responsibilities and work settings.

What can I do after a biomedical engineering degree?

A graduate biomedical engineer can pursue careers in medical device design, clinical engineering, research and development, regulatory affairs, or quality assurance. They may work in hospitals, biotech companies, or research institutions, often requiring knowledge of CAD software, biomedical principles, and sometimes certifications like Certified Biomedical Auditor (CBA).

What can I do as a biomedical engineering grad?

As a biomedical engineering graduate, you can work in designing and developing medical devices, equipment, and software, or in research and development roles in healthcare settings. Skills in CAD, programming, and understanding of biology and engineering principles are valuable, and certifications like the Certified Biomedical Equipment Technician (CBET) can enhance job prospects.

What Is a Graduate Biomedical Engineering Degree?

A graduate biomedical engineering degree is usually a master's degree that focuses on the research and design of medical devices and equipment, as well as programming the software necessary for such devices to work. Biomedical engineers help develop artificial organs, prosthetic body parts, and various other devices as needed. Many also repair and troubleshoot such devices. Depending on the type of work you do as a graduate biomedical engineer, you may work closely with doctors and other direct healthcare providers to help them implant and configure medical devices in particularly complex cases. Some people continue on to get a doctorate in this field. Doctors of biomedical engineering often focus more on cutting-edge research and highly experimental devices.

What are some typical projects or tasks a Graduate Biomedical Engineer might work on during their first year in the role?

As a Graduate Biomedical Engineer, you can expect to be involved in a variety of hands-on projects such as assisting with the design and testing of medical devices, supporting equipment maintenance in clinical settings, or participating in research and development initiatives. You may also help analyze data from clinical trials, collaborate with healthcare professionals to understand user needs, and ensure compliance with industry regulations. This early-career experience provides valuable exposure to multidisciplinary teamwork and the practical application of engineering principles in healthcare environments.

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

To thrive as a Graduate Biomedical Engineer, you need a solid background in biomedical engineering principles, mathematics, and life sciences, typically gained through a relevant engineering degree. Familiarity with CAD software, programming languages (such as MATLAB or Python), and laboratory instrumentation is essential, along with any internships or work placements. Strong problem-solving skills, teamwork, and effective communication set outstanding candidates apart in this multidisciplinary field. These skills and qualities are critical for developing innovative medical technologies and ensuring successful collaboration between engineers, clinicians, and other stakeholders.

Can a biomedical engineer make 200k?

While most biomedical engineers earn less than $200,000 annually, those in senior roles, management, or with extensive experience and specialized skills can reach or exceed this salary level, especially in high-cost-of-living areas or with additional certifications. Achieving a $200,000 salary typically requires advanced positions, leadership responsibilities, or working in the private sector or industry with lucrative compensation packages.

What does a Graduate Biomedical Engineer do?

A Graduate Biomedical Engineer applies engineering principles to the medical field, working on the design, development, and maintenance of medical devices and equipment. They often assist in research, testing, and implementing new technologies to improve healthcare outcomes. Their responsibilities may include collaborating with clinicians, troubleshooting technical issues, and ensuring that medical devices comply with safety and regulatory standards. Early in their careers, they may also receive on-the-job training and mentorship to build expertise.
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Graduate Biomedical Engineer jobs near you
Post Doctoral Research Associate

Post Doctoral Research Associate

The University of Texas at Arlington

Arlington, TX

Full-time

Medical, Retirement, PTO

Posted 23 days ago

University Of Texas At Arlington rating

7.3

Company rating: 7.3 out of 10

Based on 28 frontline employees who took The Breakroom Quiz

286th of 536 rated colleges and universities

Job description

Position Information
Posting Number F00750P Position Title Post Doctoral Research Associate Department Bioengineering Location Arlington Job Family Faculty Position Status Full-time Rank Post-Doc Work Hours Standard Open to External and Internal FLSA Exempt Duration Funding expected to continue Pay Basis Monthly Benefits Eligible Yes Job Summary
The Department of Bioengineering in the College of Engineering at The University of Texas at Arlington invites applications for a Postdoctoral Research Associate position in the area of biomedical engineering (imaging, bioinstrumentation or nanotechnology).
The successful candidate will join a research lab focused on developing advanced imaging technologies that overcome fundamental depth-resolution limitations in biological tissues. The research integrates hybrid ultrasound-optical imaging, contrast agent design, and computational reconstruction, with applications in deep-tissue imaging, tumor microenvironment characterization, and functional sensing.
This position offers a highly interdisciplinary environment at the interface of biophotonics, ultrasound, nanomaterials, and imaging physics, with opportunities to lead independent research directions and contribute to high-impact publications and future grant proposals.
Benefits at UTA
We are proud to offer a comprehensive benefits package to all our employees at the University.
To help you understand the full value of these benefits, we have created a tool that calculates the total worth of your compensation package. This tool takes into account all of the benefits that you are eligible for, including health insurance, retirement plans, and paid time off. To access this tool and learn more about the total value of your benefits, please click on the following link:
https://resources.uta.edu/hr/services/records/compensation-tools.php
CBC Requirement
It is the policy of The University of Texas at Arlington to conduct a criminal background check on any applicant who is under final consideration for employment with the University.

This position may have access to critical infrastructure as defined by Section 113.001(2) of the Texas Business and Commerce Code. If so, to be hired for and continue to be employed in this position you must maintain the security or integrity of the infrastructure as set forth in Texas Executive Order GA-48. By assuming this position, and if you have access to critical infrastructure, you authorize the University to conduct routine background checks.
Essential Duties and Responsibilities
  • Conduct independent and collaborative research in biomedical imaging and bioengineering
  • Design and perform experiments involving optical imaging, ultrasound systems, and/or contrast agents
  • Develop computational models and reconstruction algorithms for imaging systems
  • Analyze experimental data and prepare manuscripts for publication in peer-reviewed journals
  • Mentor graduate and undergraduate students
  • Contribute to proposal development and interdisciplinary research initiatives
  • Performs other duties as needed
Required Qualifications
  • Ph.D. in Biomedical Engineering, Electrical Engineering, Physics, Materials Science and Engineering, Chemical Engineering, Chemistry, Pharmacy, Biomaterials, Nanotechnology, or a closely related field, with expertise in imaging, instrumentation, or nanomaterials.
  • Strong background in at least one of the following areas:
    • Optical imaging / biophotonics
    • Ultrasound imaging or acoustics
    • Nanomaterials / contrast agents
    • Signal processing or computational imaging
  • Demonstrated research productivity (e.g., peer-reviewed publications)
  • Strong communication and teamwork skills
Preferred Qualifications
  • Experience with hybrid imaging systems (e.g., ultrasound-optical, photoacoustic, or related modalities)
  • Experience with stimuli-responsive nanomaterials (e.g., thermosensitive liposomes, polymer nanoparticles, microgels)
  • Programming experience in MATLAB, Python, or similar platforms
  • Hands-on experience with instrumentation, electronics, or system integration
    Ability or interest in leading independent research directions
Special Conditions for Eligibility Department Information
The Department of Bioengineering at The University of Texas at Arlington is an interdisciplinary and rapidly growing program with strong research activity supported by funding from the National Institutes of Health (NIH), the National Science Foundation (NSF), and other agencies. Current research areas include Biomedical imaging, Bioinstrumentation, Tissue engineering, Nanotechnology. The department maintains active collaborations with UT Southwestern Medical Center, one of the leading academic medical centers in the United States, providing a rich environment for translational and clinically relevant research.
UTA's College of Engineering provides highly trained engineers for the workforce in North Texas and beyond. We have graduated two astronauts, many successful entrepreneurs and dozens of executives at Fortune 500 companies. Our faculty have distinguished themselves on a global stage. We are fulfilling our mission to educate talented engineers who will immediately make an impact on their communities. The College is the most comprehensive engineering program in North Texas, with 12 baccalaureate, 13 Master's and nine doctoral programs. The University is classified as a Research 1 University - Highest Research Activity by the Carnegie Foundation for the Advancement of Teaching, and the College of Engineering is the largest contributor to the University's research enterprise with overall engineering-related research expenditures at UTA totaling more than $64 million. Students from around the world work with award-winning faculty in state-of-the-art facilities, acquiring the knowledge and skills they'll need to create viable solutions to the most pressing problems of today and the future.
University Information
The University of Texas at Arlington (UTA) is located in the heart of the Dallas-Fort Worth-Arlington metroplex, a vibrant and diverse metropolitan area that is home to over 7 million people, one of the fastest-growing tech economies in the United States, and a wide array of arts, entertainment, and cultural activities. As a comprehensive teaching, research, and public service institution, UTA is dedicated to the advancement of knowledge through scholarship and creative work. With an enrollment of more than 42,000 students, UTA is the second largest in the University of Texas System. As a result of its combination of rigorous academics and innovative research, UTA is designated as a Carnegie R-1 "Very High Research Activity" institution and nationally recognized for its commitment to student success and service. It ranks No. 5 in Military Times' "Best for Vets: Colleges" and is the top university in North Texas for its graduates' salaries (The Wall Street Journal). UTA is designated as both a Hispanic-Serving Institution and an Asian American and Native American Pacific Islander-Serving Institution and is No. 6 for undergraduate ethnic diversity in the United States (U.S. News & World Report, 2023). With a global alumni network of approximately 280,000 - including leaders at many of the 24 Fortune 500 companies headquartered in North Texas - UTA contributes an estimated $29 billion annually to the Texas economy.
UTA is expanding its regional footprint by building a regional campus, called UTA West, in Parker County on the far west side of Fort Worth. It is scheduled to open in fall 2028. This initiative aligns with the university's strategic growth and commitment to serving the broader community. Furthermore, UTA has launched the RISE 100 initiative, aiming to recruit 100 new tenure-system faculty to strengthen its research enterprise and leadership in key academic areas. Learn more at https://www.uta.edu/administration/president/strategic-plan/rise100.
This is an exciting time to join UTA and contribute to its bold vision for the future.
Working Title Post Doc EEO Statement
It is the policy of The University of Texas at Arlington (UTA or The University) to provide an educational and working environment that provides equal opportunity to all members of the University community. In accordance with federal and state law, the University prohibits unlawful discrimination, including harassment, on the basis of race, color, national origin, religion, age, sex, sexual orientation, pregnancy, disability, genetic information, and/or veteran status. The University also prohibits discrimination on the basis of gender identity, and gender expression. Retaliation against persons who oppose a discriminatory practice, file a charge of discrimination, or testify for, assist in, or participate in an investigative proceeding relating to discrimination is prohibited. Constitutionally-protected expression will not be considered discrimination or harassment under this policy. It is the responsibility of all departments, employees, and students to ensure the University's compliance with this policy.
ADA Accommodations
The University of Texas at Arlington is committed to providing reasonable accommodation to individuals with disabilities. If you require reasonable accommodation in completing this application, interviewing or otherwise participating in the employee selection process, please direct your inquiries to 817-272-5554 or email ADADocs@uta.edu.
Posting Detail Information
Number of Vacancies 1 Desired Start Date 06/01/2026 Open Date 04/30/2026 Review Start Date Open Until Filled Yes Special Instructions to Applicants
To apply, applicants should go to https://uta.peopleadmin.com/postings/33880 and submit the following materials:
Required Documents:
  • Curriculum Vitae
  • Cover Letter
  • Contact information for 2-3 references
Review of applications will begin immediately and will continue until the position is filled. Applicants are encouraged to apply early for the best consideration.
Questions may be addressed to Dr. Baohong Yuan at baohong@uta.edu.
For more information about UTA, please visit: http://www.uta.edu/uta.

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