Cemal Basaran
Affiliations: | Civil, Structural and Environmental Engineering | State University of New York, Buffalo, Buffalo, NY, United States |
Area:
Electronics and Electrical Engineering, Materials Science Engineering, Packaging EngineeringWebsite:
https://engineering.buffalo.edu/civil-structural-environmental/people/faculty_directory/cemal-basaran.htmlGoogle:
"Cemal Basaran"Bio:
https://www.proquest.com/openview/f5eb73180b67eeea508ad82825028e13/1
Parents
Sign in to add mentorChandrakant S. Desai | grad student | 1994 | University of Arizona | |
(Finite element thermomechanical analysis of electronic packaging problems using disturbed state constitutive models) |
Children
Sign in to add traineeYujun Wen | grad student | 2004 | SUNY Buffalo |
Hua Ye | grad student | 2004 | SUNY Buffalo |
Shihua Nie | grad student | 2005 | SUNY Buffalo |
Minghui Lin | grad student | 2006 | SUNY Buffalo |
Mohd F. Abdul Hamid | grad student | 2008 | SUNY Buffalo |
Shidong Li | grad student | 2009 | SUNY Buffalo |
Eray M. Gunel | grad student | 2010 | SUNY Buffalo |
Tarek Ragab | grad student | 2010 | SUNY Buffalo |
Michael S. Sellers | grad student | 2010 | SUNY Buffalo |
Bicheng Chen | grad student | 2011 | SUNY Buffalo |
Yongchang Lee | grad student | 2013 | SUNY Buffalo |
Pierre R. Gautreau | grad student | 2014 | SUNY Buffalo |
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Publications
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Zhang J, Ragab T, Zhang W, et al. (2020) High current density electron wind forces in metallic graphene nanoribbons. Nanotechnology |
Zhang W, Ragab T, Zhang J, et al. (2019) Influence of Defects on Dissipative Transport in Graphene Nanoribbons Tunnel Field-Effect Transistor. Nanotechnology |
Zhang J, Osloub E, Siddiqui F, et al. (2019) Anisotropy of Graphene Nanoflake Diamond Interface Frictional Properties. Materials (Basel, Switzerland). 12 |
Zhang W, Ragab T, Basaran C. (2019) Electrostatic Doping-Based All GNR Tunnel FET: An Energy-Efficient Design for Power Electronics Ieee Transactions On Electron Devices. 66: 1971-1978 |
Zhang W, Ragab T, Zhang J, et al. (2019) Impact of electrostatic doping level on the dissipative transport in graphene nanoribbons tunnel field-effect transistors Carbon. 153: 120-126 |
Zhang J, Ragab T, Basaran C. (2018) Comparison of fracture behavior of defective armchair and zigzag graphene nanoribbons International Journal of Damage Mechanics. 28: 325-345 |
Zhang J, Zhang W, Ragab T, et al. (2018) Mechanical and electronic properties of graphene nanomesh heterojunctions Computational Materials Science. 153: 64-72 |
Lan T, Ragab T, Basaran C. (2018) Electron-phonon scattering and Joule heating in copper at extreme cold temperatures Computational Materials Science. 149: 397-408 |
Ragab T, Basaran C. (2018) Shear Strength of Square Graphene Nanoribbons beyond Wrinkling Journal of Electronic Materials. 47: 3891-3896 |
Zhang W, Ragab T, Basaran C. (2017) Unraveling mechanics of armchair and zigzag graphene nanoribbons International Journal of Damage Mechanics. 26: 447-462 |