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Dongyang Li - Directory@UAlberta.ca

Dongyang Li

Professor, Faculty of Engineering - Chemical and Materials Engineering Dept

Contact

Professor, Faculty of Engineering - Chemical and Materials Engineering Dept
Email
dongyang@ualberta.ca
Phone
(780) 492-6750
Address
12-356 Donadeo Innovation Centre For Engineering
9211 116 St
Edmonton AB
T6G 2H5

Overview

Area of Study / Keywords

Material Design Wear and Corrosion Computational Materials Science Surface Science and Engineering


About

Dr. D.Y. Li is a Professor at Dept. of Chemical & Materials Eng., University of Alberta. His interests of research include surfaces and interfaces, wear and corrosion-wear synergy, material design, and computational materials science. Dr. Li obtained a B.Sc. in Solid Mechanics from University of Science and Technology China, a M.Sc. in Condensed Matter Physics from Sun Yat-sen University, a PhD in Materials Physics from University of Science and Technology Beijing, and a PhD in Metallurgical Engineering from McGill University. Before joining U. of Alberta in 1998, he worked as a postdoctoral fellow at the Pennsylvania State University (1995–97). He is an Adjunct Professor of Biomedical Engineering at U. of Alberta, and also holds adjunct professorship at several foreign universities. Dr. Li is the recipient of Metal Physics Award (MetSoc-CIM 2024), Research Excellence Award (CIM, 2024), 2020 Distinguished Materials Scientist Award, and other honors & awards. He is on the editorial board for eighteen technical journals. Dr. Li has in excess of 490 scientific publications, including ~450 refereed journal publications. He is an invited contributor for authoritative handbooks/encyclopaedias (Elsevier, Springer, and ASM International) in wear and tribology.



Research

The research areas of Dr. Li cover a wide range of topics, including material design, surfaces & interfaces, wear and corrosion, and computational materials science. His research team is devoted to investigation of the electronic origin of material properties and development of novel methodologies for material design and modification, using both experimental and computational/theoretical approaches. The alternative models and principles are applied to high-performance industrial materials for various applications, e.g., materials having high resistances to wear, corrosion, and corrosive wear, and functional materials as well.   

Keywords: Materials Physics; Surfaces & interfaces, Wear, Corrosion, Tribo-materials, Nanostructured materials, Computational materials science, Functional and Bio-materials

Courses

MAT E 336 - Phase Transformations II

Thermodynamics of mass transfer and microstructure evolution in liquid-solid and vapour-solid transformations. Applications in solidification processes , casting, welding, vapour deposition and sputtering methods. Prerequisite: MAT E 335.


MAT E 495 - Nanomaterials and Biomedical Applications

Survey of nanostructured materials, including processing techniques, properties (mechanical, physical and chemical), characterization, and characterization tools. Introduction to biomedical applications of nanomaterials for diagnosis, therapy and medical implants. Credit may not be obtained in this course if previous credit has been obtained in MAT E 458. Prerequisite: CH E 243 or equivalent, or consent of instructor


MAT E 694 - Advanced Topics in Materials Engineering

An advanced treatment of materials engineering topics of current interest to staff and students.


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