Materials Science and Engineering
The Materials Science and Engineering Bachelor of Engineering program at Pennsylvania University is a four-year, full-time undergraduate program designed to provide students with a comprehensive understanding of the properties, behavior, and applications of materials in engineering and technology. The curriculum integrates materials chemistry, mechanical and electrical properties, nanotechnology, thermodynamics, and research methodology, enabling students to design, analyze, and optimize materials for industrial, technological, and scientific applications. Students engage in laboratory experiments, computational modeling, and research projects, developing analytical, technical, and problem-solving skills necessary to innovate and engineer advanced materials.
Throughout the program, students participate in seminars, collaborative projects, and hands-on laboratory work guided by faculty experts in materials science, engineering, and applied physics. The program emphasizes critical thinking, experimental design, and interdisciplinary collaboration, preparing graduates to address challenges in materials development, manufacturing, and product design. Students leave the program with research competence, engineering skills, analytical proficiency, and technical knowledge, fully prepared for careers or advanced study in materials science, mechanical engineering, nanotechnology, or related fields.
Key information
Key Facts
- Program Title: Materials Science and Engineering
- Degree Type: Bachelor of Engineering
- Duration: 4 years
- Mode of Study: Full-time, On Campus
- Application Deadline: 05 January 2026
- Location: University of Pennsylvania, United States
- Field of Study: Materials Science
- Language of Instruction: English
Program Structure
Year 1 – Foundations in Materials Science and Engineering
- Introduction to Materials Science and Engineering
- General Chemistry and Physics
- Mathematics for Engineers
- Laboratory Techniques and Research Methods
Year 2 – Intermediate Study in Materials Properties
- Thermodynamics and Kinetics of Materials
- Mechanical Properties and Structural Analysis
- Electrical and Magnetic Materials
- Electives: Nanomaterials, Polymer Science, or Computational Materials
Year 3 – Advanced Materials Analysis and Applications
- Materials Characterization and Testing
- Materials for Energy and Electronics
- Applied Research Projects in Engineering Materials
- Electives: Biomaterials, Corrosion Science, or Surface Engineering
Year 4 – Capstone and Professional Integration
- Senior Thesis or Independent Engineering Project
- Seminar in Contemporary Materials Science Challenges
- Professional Portfolio Development
- Internship or Applied Project in Industry or Research
Career Opportunities
Graduates of the Materials Science and Engineering program are prepared for careers in materials research and development, manufacturing and industrial engineering, nanotechnology, energy and electronics industries, and academic or governmental research institutions. Alumni may work as materials engineers, process engineers, product developers, or pursue graduate studies in materials science, mechanical engineering, nanotechnology, or related disciplines. The program equips graduates to analyze material properties, design innovative solutions, and optimize performance for practical applications. With strong analytical, technical, and research skills, graduates are highly competitive in professional and academic environments focused on technological innovation and materials development.
Why Choose This Program
This program is distinguished by its integration of materials analysis, engineering design, applied research, and interdisciplinary collaboration within a four-year curriculum. Students benefit from mentorship, laboratory access, and experiential projects that connect theoretical knowledge with practical engineering applications. The curriculum emphasizes critical thinking, problem-solving, and experimental design, preparing graduates to innovate in materials development, contribute to industrial and technological advancements, and solve complex engineering challenges. For students passionate about understanding material behavior, engineering new solutions, and applying scientific knowledge to real-world technology, this program offers a rigorous, immersive, and career-focused pathway to professional and academic success.
Contact Information
For further information, please contact the admissions office at:
Phone: +1 215 898 5000
Email: admissions@upenn.edu
Address: University of Pennsylvania, Philadelphia, PA 19104, United States
