E
Ehsan Toyserkani
Researcher at University of Waterloo
Publications - 216
Citations - 5910
Ehsan Toyserkani is an academic researcher from University of Waterloo. The author has contributed to research in topics: Laser & Microstructure. The author has an hindex of 36, co-authored 177 publications receiving 4035 citations.
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Three-dimensional finite element modeling of laser cladding by powder injection: Effects of powder feedrate and travel speed on the process
TL;DR: In this article, a three-dimensional transient finite element model of the laser cladding by powder injection process is proposed to predict clad geometry as a function of time and process parameters including beam velocity, laser power, powder jet geometry, laser pulse shaping, and material properties.
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Binder-jet powder-bed additive manufacturing (3D printing) of thick graphene-based electrodes
TL;DR: In this paper, a powder-bed additive manufacturing (AM) technique was introduced for the fabrication of crack-free, mm-thick graphene-based electrodes, with high surface area that can be printed in complex shapes.
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Micro-scale aerosol-jet printing of graphene interconnects
Elahe Jabari,Ehsan Toyserkani +1 more
TL;DR: In this article, the deployment and characterization of a micro-scale aerosol-jet additive manufacturing technology to print graphene interconnects is addressed, where a highly concentrated graphene ink with viscosity of 21cP and 3.1mg/ml flakes with the lateral size below 200nm was developed and adopted for this process to make a reliable and repeatable graphene deposition on the treated Si/SiO2 wafers.
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Extrusion and Microfluidic-Based Bioprinting to Fabricate Biomimetic Tissues and Organs
Elham Davoodi,Elham Davoodi,Einollah Sarikhani,H. Montazerian,Samad Ahadian,Marco Costantini,Marco Costantini,Wojciech Swieszkowski,Stephanie M. Willerth,Konrad Walus,Mohammad Mofidfar,Ehsan Toyserkani,Ali Khademhosseini,Nureddin Ashammakhi +13 more
TL;DR: Microfluiding bioprinting technology enables highly controlled fabrication of 3D constructs in high resolutions and it has been shown to be useful for building tubular structures and vascularized constructs, which may promote the survival and integration of implanted engineered tissues.
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Additive manufacturing of silicone structures: A review and prospective
Farzad Liravi,Ehsan Toyserkani +1 more
TL;DR: In this paper, the development of silicone tailored for additive manufacturing is reviewed by examining three areas of curing mechanisms, rheological properties, and mechanical performance, with a focus on their use for biomedical applications.