Bioengineering
The Bachelor of Science in Bioengineering at University of Stanford provides an interdisciplinary education combining biology, engineering, and technology to solve complex problems in medicine, healthcare, and biotechnology. In the first year, students gain foundational knowledge in biology, chemistry, physics, and introductory engineering principles. These courses foster analytical thinking, problem-solving skills, research proficiency, and technical expertise, enabling students to approach biological systems with engineering tools. Through lectures, laboratory experiments, and project-based learning, learners gain hands-on experience in cellular biology, materials science, and engineering design.
As students advance, the curriculum emphasizes bioinstrumentation, biomaterials, computational biology, systems biology, and applied biomedical research. Independent research projects, seminars, and advanced coursework refine students’ technical competence, research methodology, critical thinking, and applied problem-solving skills. The honors curriculum encourages students to design innovative biomedical devices, develop computational models for biological processes, and conduct translational research. By graduation, students are prepared for careers in biotechnology, biomedical engineering, medical device development, healthcare innovation, or advanced graduate study in bioengineering or related fields.
Key information
Key Facts
- Program Title: Bioengineering
- Degree Type: Bachelor of Science
- Duration: 4 years
- Mode of Study: Full-time, On Campus
- Application Deadline: 05 January 2026
- Location: Stanford University, United States
- Field of Study: Bio & Biomedical Engineering
- Language of Instruction: English
Program Structure
• Introduction to Bioengineering and Biological Systems
• General Chemistry and Physics
• Calculus and Linear Algebra
• Programming and Computational Methods
• Writing and Research in Science and Engineering
Year 2 – Core Bioengineering Studies
• Molecular and Cellular Biology
• Biomaterials and Tissue Engineering
• Statistics and Data Analysis
• Bioinstrumentation and Laboratory Techniques
• Seminar: Research Methods in Bioengineering
Year 3 – Advanced Applications
• Systems Biology and Computational Modeling
• Biomechanics and Biomedical Device Design
• Independent Research Projects
• Applied Laboratory and Engineering Projects
• Electives in Advanced Bioengineering Topics
Year 4 – Capstone and Honors Project
• Senior Thesis or Independent Research Project
• Advanced Seminar in Bioengineering
• Translational and Applied Research
• Design and Development of Biomedical Technologies
• Specialized Electives in Bioengineering and Biotechnology
Career Opportunities
Graduates of this program are prepared for careers in biotechnology, biomedical engineering, healthcare technology, medical device development, research, and translational science. The curriculum develops technical proficiency, research expertise, problem-solving abilities, and analytical reasoning, enabling students to pursue roles as biomedical engineers, research scientists, clinical technology specialists, or biotechnology innovators. Hands-on experience through independent research, laboratory projects, and design challenges ensures that graduates can tackle real-world problems at the intersection of biology and engineering. Additionally, the program provides strong preparation for graduate study or professional degrees in bioengineering, medicine, or related disciplines, equipping students to advance innovations in healthcare and biotechnology.
Why Choose This Program
This program is ideal for students who wish to integrate biology, engineering, and technology to address challenges in medicine and biotechnology. Its structure emphasizes critical thinking, technical expertise, research methodology, and applied problem-solving, providing students with both theoretical understanding and practical experience. Through seminars, independent research, laboratory experiments, and design projects, learners develop the ability to design biomedical devices, model biological systems, and contribute to healthcare innovation. Graduates leave with the knowledge, confidence, and professional readiness to pursue careers in bioengineering, medical technology, research, biotechnology, or advanced academic study, while also gaining the adaptability to address emerging challenges in biomedical sciences.
Contact Information
For further information, please contact the admissions office at:
Phone: +1 650 000 0000
Email: admissions@standord.edu
Address: University of Standord, 450 Serra Mall, Stanford, CA 94305, United States
