Fully Funded PhD Position in Mechanical Engineering (Microfluidics, Acoustofluidics) at University of Rhode Island
The Microfluidics and Microsystems Laboratory led by Dr. Yang Lin at the University of Rhode Island (URI) is recruiting a fully funded PhD student for Fall 2026. The lab specializes in acoustofluidics and microfluidics, with research projects spanning environmental monitoring, microplastics detection, organ-on-a-chip technologies, and the development of advanced lab-on-chip platforms. This opportunity is ideal for students interested in the intersection of mechanical engineering, microscale device design, and biological applications.
The selected PhD student will engage in engineering-driven projects that develop microfluidic and acoustofluidic systems for applications such as particle manipulation, organoid culture, and integrated biological testing platforms. The group is particularly interested in candidates with prior laboratory experience in cell culture, organoids, or lab-on-chip devices, as these skills will support ongoing work in organ-mimicking microfluidic systems. Students with experience in acoustics, bubble and particle dynamics, or microscale fluid mechanics will be well positioned to contribute to the lab’s core acoustofluidic research. Projects are designed to combine rigorous engineering design with controlled biological experimentation in a microfluidic environment.
Key responsibilities include conducting experimental and theoretical research, designing and fabricating microfluidic devices, managing cell or organoid experiments within microscale systems, and performing detailed data analysis. The position also involves publishing research results in peer-reviewed journals, presenting work at conferences, collaborating with interdisciplinary teams, and contributing to laboratory operations and mentorship activities.
Applicants should have a strong desire to pursue a doctoral degree in multidisciplinary studies. A Master’s degree is preferred, but candidates with a Bachelor’s degree in Mechanical Engineering, Bioengineering, or a closely related field are also eligible. Strong candidates will have experience in microfluidic device fabrication, acoustofluidics, fluid mechanics, particle manipulation, cell culture, organoid handling, or lab-on-chip development. While biological experience is valued, applicants must demonstrate a clear engineering foundation and interest in device design, modeling, and experimental characterization. The ability to work independently, communicate effectively, and contribute to a collaborative research environment is essential.
The position offers full financial support through a Graduate Research Assistantship or Teaching Assistantship, including stipend and tuition coverage. Students will have access to advanced microfabrication facilities and professional development opportunities at URI. The lab provides a collaborative environment that integrates engineering design with emerging biological applications.
To apply, interested candidates should submit a cover letter describing research interests and motivation, a CV, academic transcripts, contact information for two references, and a sample of published or submitted research work (if available) to Dr. Lin at [email protected]. Early submissions are encouraged, and review of applications will begin immediately. For more information, visit the Microfluidics and Microsystems Laboratory and the URI College of Engineering.
