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EHRS Sr. Lab Safety Specialist Gwenn Allen will discuss how to work safely in the lab while navigating the changing landscape of materials science and engineering research. Her talk will cover common laboratory hazards, routes of exposure, PPE requirements, and biological safety. She will also present an overview of the University’s recent transition to Workday […] |
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Fibrosis and remodeling of extracellular matrix are involved in many diseases, such as tumors, wound healing, and chronic inflammation. During fibrosis, tissues undergo changes in their viscoelastic properties, i.e., how they resist deformation like a solid and dissipate stress over time like a fluid. Our research determines the impact of viscoelasticity on inflammation in fibrotic […] |
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Dr. Mogas-Soldevila will give an overview on her DumoLab research at the Weitzman School of Design at Penn. Her works focuses on regenerative material practices bridging science, engineering, and the arts. DumoLab builds scholarship for materials design critique, and translates biomedical materials used in implants, drug delivery, and tissue scaffolding, into robust materials for use […]
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The native extracellular microenvironment dynamically remodels as cells synthesize, assemble, and remodel their surroundings during tissue development, injury, and repair. In my research group, we use engineered systems to both probe mechanisms of cell-extracellular matrix (ECM) interactions (e.g., mechanobiology) and to guide cell function towards therapeutic behaviors (e.g., tissue repair/regeneration). In this seminar, I will […] |
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Control of shape and movement is essential for cell physiology, from cell migration to control of tissue shape. The mechanical behaviors of living cells are controlled by materials constructed by protein-based assemblies within the cell interior. These soft materials both regulate how forces generated by individual mechanoenzymes are transmitted to cell and tissue scales as […] |
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Abstract The production of polymer products relies largely on age-old molding techniques. A major reason for this is that additive methods have not delivered meaningful alternatives to traditional processes—until now. In this talk, I will describe Continuous Liquid Interface Production (CLIP) technology, which embodies a convergence of advances in software, hardware, and materials to bring […] |
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