Genetically engineered molecules and semiconductors for electronics. Computational techniques for materials development. Developing biomaterials for tissue engineering. Faculty collaboration for a final project, thesis or internship for our master’s programĪ focus on nanotechnology drives many of our current research efforts and we are a core partner in several collaborative research centers.Įxamples of our current research include:. Research and teaching assistantships, stipends and fellowships for our doctoral program. Doctoral dissertation research opportunities for leading edge, interdisciplinary work. Educational and research training involving synthesis, processing, characterization and fabrication of all classes of materials using state-of-the-art research equipment and facilities. Our students perform cuttingedge, interdisciplinary research on biomaterials for tissue engineering, ceramics and polymers for energy applications, composites and metals for aerospace, genetically engineered molecules, and semiconductors for electronics. We offer an outstanding Master of Science (M.S.) and Doctor of Philosophy (Ph.D.) program. MODERN WORDMARK LOGO PROFESSIONAL
Active student professional organizations. A degree option in Nanoscience and Molecular Engineering. We offer an ABET-accreditated Bachelor of Science (BS MSE) program that graduates the highest number of students per faculty member among peer departments nationwide. See and hear for yourself, as students and faculty share their views of the UW MSE department, focusing on efforts in energy, health and manufacturing. Advances in materials have preceded almost every major technological leap since the beginning of civilization. 
Our department is at the heart of the materials revolution.
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