Patrick T. Mather holds his doctorate in materials engineering from the University of California, Santa Barbara. He came to Bucknell from Syracuse University, where he led the creation of and served as the founding director of the Syracuse Biomaterials Institute, an interdisciplinary center with more than 20 faculty spanning three institutions and eight departments, including Syracuse's L.C. Smith College of Engineering & Computer Science and its College of Arts & Sciences. He was also the Milton & Ann Stevenson Professor of Biomedical & Chemical Engineering and previously held the position of faculty chair of Syracuse's engineering college.
Prior to Syracuse, Mather was a tenured faculty member at both the University of Connecticut and Case Western Reserve University. He's written more than 145 peer-reviewed papers, is an inventor on more than 35 patents, and is a Fellow of both the American Institute for Medical and Biological Engineering and the Society of Plastics Engineering. He has directed over 100 undergraduate thesis projects.
- B.S. Engineering Science, Penn State University 1989
- M.S. Engineering Mechanics, Penn State University 1990
- Ph.D. Materials Engineering, U.C. Santa Barbara 1994
- Fluid Transport
- Heat and Mass Transfer
- Polymer Physics
- Complex Fluids
- Polymeric Biomaterials
- Shape Memory and Self-Healing Polymers
- Electrospinning of Polymeric Composites
- Biodegradable Medical Devices
Citations = 10,265; h-index = 51; i-10 index = 133 (Google Scholar Citation Profile)
Julia A. Tumbic, A. Romo-Uribe, Mark Boden, and Patrick T. Mather, “Hot-Compacted Interwoven Webs of Biodegradable Polymers,” Polymer 101 127-138 (2016).
J.M. Robertson, R.X. Rodriguez, L.R. Holmes, P.T. Mather, E.D. Wetzel, “Thermally Driven Microfluidic Pumping via Reversible Shape Memory Polymers,” Smart Materials and Structures, 25, 85043-85055 (2016).
Ling-Fang Tseng, Jing Wang, Richard M. Baker, Guirong Wang, Patrick T. Mather, and James H. Henderson, “Osteogenic Capacity of Human Adipose-Derived Stem Cells is Preserved Following Triggering of Shape Memory Scaffolds” Tissue Engineering Part A, 22, 1026-1035 (2016).
McMullin, Erin; Rebar, Hannah; Mather, Patrick, "Biodegradable Thermoplastic Elastomers Incorporating POSS: Synthesis, Microstructure, and Mechanical Properties," Macromolecules 49 3769–3779 (2016).
H. Birjandi Nejad, K.L. Garrison, and P.T. Mather, “Comparative Analysis of Shape Memory-Based Self-Healing Coatings,” J. Polym. Sci. B: Polym. Physics 54 1415-1426 (2016). DOI: 10.1002/polb.24061
Melodie I. Lawton, Kelly Tillman, Halimatu Mohammed, Wenbin Kuang, Devon Shipp, and Patrick T. Mather, “Anhydride-Based Reconfigurable Shape Memory Elastomers,” ACS Macro Letters 54 38-52 (2016).
Amir H. Torbati and Patrick T. Mather, “A Hydrogel-Forming Liquid Crystalline Elastomer Exhibiting Soft Shape Memory,” J. Polym. Sci. B: Polym. Phys. 54 38-52 (2016).
J.M. Robertson, A.H. Torbati, E.D. Rodriguez, Y. Mao, R.M. Baker, H. Qi, P.T. Mather*, “Mechanically programmed Shape Change in Laminated Elastomeric Composites,” Soft Matter 11 5754-5764 (2015).
Ling-Fang Tseng, Patrick T. Mather, James H. Henderson,* “Shape-memory actuated changes in scaffold fiber alignment direct stem cell morphology,” Acta Biomateriala 9, 8790-8801 (2013).