The bioengineering field integrates skills across the physical and life sciences, mathematical and computational sciences, and medicine. Research and engineering design provide undergraduate students with opportunities to apply classroom knowledge to real-world experiences, and to identify interests they would like to pursue after graduation.
Many students attend local and national conferences, symposium events, and design competitions to present their research and design projects. They also author or co-author a manuscript(s), and earn awards at local and national conferences.
Students who participate and excel in independent research or engineering design are recognized through engineering programs and competitions through the George R. Brown School of Engineering, the Oshman Engineering Design Kitchen, Rice 360Â° Institute for Global Health, and the Rice Alliance for Technology and Entrepreneurship (Rice Alliance). These events include:
Highly competitive national awards bioengineering students have received within the last decade for undergraduate research include 17 National Science Foundation Graduate Research Fellowships, 11 Goldwater Scholarships, 4 Hertz Fellowships, 6 Whitaker International Fellowships, 3 Marshall Scholarships, 3 Fulbright Scholarships, 1 Beckman Scholarship, 1 Morris K. Udall Scholarship, and 1 Truman Scholarship.
Student teams have also received top engineering design grants and awards at global health and national competitions to advance their prototype, or help them forge a path that leads to deployment of a manufactured product. This has included 9 Saving Lives at Birth: A Grand Challenge for Development and three VentureWell grants.
Over 70 percent of Rice bioengineering undergraduates participate in research either in faculty member laboratories,
in research centers and institutes at Rice, or in the
Texas Medical Center.
To be successful, students should begin to proactively identify their interest areas and search for faculty mentors as early as their freshman year. Research opportunities in bioengineering involve cutting-edge projects in our focus areas, including biomaterials and drug delivery, biomedical imaging and diagnostics, cellular and biomolecular engineering, computational and theoretical bioengineering, systems and synthetic biology, and tissue engineering and biomechanics.
The Center for Civic Leadership (CCL) offers multiple curricular and experiential learning opportunities that enhance bioengineering research and engineering design, such as the Discover Research Fair, and the Rice Undergraduate Research Symposium (RURS), which sponsors the Century Scholars Program for freshmen and the Undergraduate Scholars Program for upperclassmen.
Bioengineering faculty and students also benefit from Rice's many research centers, institutes, and groups, including the:
These courses are offered for undergraduate students who want to get involved in research. Through this course students perform an independent investigation of a specific topic or problem in modern bioengineering research. Under the direction of a selected faculty member, students gain hands-on research experience in a bioengineering laboratory. Students are often mentored by graduate students or postdoctoral fellows in the lab.
Rice's Oshman Engineering Design Kitchen (OEDK) has many project-based courses that teach engineeringÂ design. Some of these courses are capstone design projects for seniors, underclassmen design courses and other courses taught in the OEDK. The minor in Global Health Technologies (GLHT) and a new Engineering Design minor complement existing B.S. and B.A. degree programs in the George R. Brown School of Engineering and are open to students earning a major in any department in the school of engineering.
Bioengineering design courses follow a systematic process in which students learn and work with faculty members at the OEDK, researchers, professionals in industry, or clinicians and health care professionals in the Texas Medical Center, who serve as project sponsors as students complete a prototype; conduct tests and safety evaluations; and follow FDA requirements and logistics, engineering ethics, intellectual property rights, business planning and marketing, and/or publication.