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Cemalettin Basaran (born April 20, 1960) is an American engineer who is currently a Professor in the Department of Civil, Structural and Environmental Engineering at the University at Buffalo, State University of New York.

Education
Basaran developed the Unified Mechanics Theory, which is ab-initio level unification of Newton’s universal laws of motion and laws of thermodynamics. He is also co-inventor of the, Electrostatic Doping Based All Graphene Nano Ribbon Tunnel Field Effect Transistor, US Patent number 10,593,7782. His research is in the field of theoretical and applied mechanics, concentrating on failure mechanics of electronic packaging materials, 2-Dimensional nano materials and particle filled composite materials under electrical, thermal and mechanical loads.

Honors and awards
Basaran in 2011 received the American Society of Mechanics Engineers (ASME) Electronic & Photonic Packaging Division (EPPD) Excellence in Mechanics Award. In 2008 he was elected to be a ASME Fellow. He is the recipient of the US Navy Office of Naval Research Young Investigator Award, 1997 and Riefler Award, from the University at Buffalo, School of Engineering and Applied Sciences in 1997

Selected papers

 * Basaran, Cemal, Introduction to Unified Mechanics Theory with Applications, 2020
 * Basaran, C., and Yan. C.Y."A Thermodynamic Framework for Damage Mechanics of Solder Joints,” Trans. of ASME, Journal of Electronic Packaging, Vol. 120, 379-384, 1998
 * Ye, H., Basaran, C. and Hopkins, D., Thermomigration in Pb-Sn Solder Joints Under Joule Heating During Electric Current Stressing, Applied Physics Letters, Vol. 82, No 8, February 2003
 * Basaran, C. and Nie, S. ”An Irreversible Thermodynamic Theory for Damage Mechanics of Solids,” International Journal of Damage Mechanics, vol. 13, No 3, pp 205-224, July 2004
 * Sellers, M., Schultz, A., Basaran, C. and Kofke, D., “Sn Grain Boundary Structure and Self-Diffusivity via Molecular Dynamics Simulation” Physical Review B, 81, 134111, 2010
 * Ragab, T., Basaran, C. “A Quantum Mechanical Formulation of Electron Transport Induced Wind Forces in Metallic Single Walled Carbon Nanotubes:” Carbon 48, 2010, 47-53
 * Gunel, E.M. and Basaran, C. “Damage Characterization in Non-Isothermal Stretching of Acrylics: Part I Theory” Mechanics of Materials, Volume 43, Issue 12, December 2011, Pages 979–991
 * Lee, Y. and Basaran, C.,”A Multi-scale Modeling Approach for Bridging Molecular Dynamics with Finite Element Analysis,” Journal of Computational Physics, 253 November 2013, 64-85
 * Yao, W. and Basaran, C. “Computational Damage Mechanics of Electromigration and Thermomigration” Journal of Applied Physics, 114, 103708, 2013
 * Chu, Y., Gautreau, P., Ragab, T. and Basaran, C., “Temperature Dependence of Joule Heating in Zigzag Graphene Nanoribbon,” Carbon, 89, (2015) 169-175
 * Zhang W., Ragab, T., Zhang, J., Basaran, C. “Impact of Electrostatic Doping Level on the Dissipative Transport in Graphene Nanoribbons Tunnel Field-Effect Transistors” Carbon,  153 (2019) 120-126