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Aminul Haque

Ph.D Student - Integration of Carbon Nanostructures
Min H. Kao Department of Electrical Engineering & Computer Science


    Biography

    Mohammad Aminul Haque is a PhD student working under the supervision of Nicole McFarlane. His research interests include semiconductor device fabrication process and analog/mixed-signal integrated circuit design. He is currently working on design and characterization of floating gate circuits for noise optimization in photon detection circuits. He is also working at the Center for Nanophase Materials Sciences in Oak Ridge National Laboratory towards developing carbonized electrodes on CMOS platform for biosensing.


    • Semiconductor device fabrication
    • Analog/Mixed-Signal integrated circuit design
    • Monolithic sensor design
    • Biomedical circuits and systems
    • Photon detection circuits
    • PhD student, Electrical Engineering and Computer Science, The University of Tennessee, Knoxville, August, 2017-Present
    • MS in Electrical Engineering University of Arkansas, June, 2015- July, 2017
    • BS in Applied Physics, Electronics & Communication Engineering 2009-2014 (Currently Department of Electrical & Electronic Engineering), University of Dhaka, 2009-2014
    • Chancellor's Citation Award for Extraordinary Professional Promise, 2018 and 2019.
    • CHAMPION at Circuit Contest in the senior category organized by Electronics and Communication Club, University of Dhaka in 2012.
    • M. A. Haque, N. V. Lavrik, D. Hensley and N. McFarlane," Carbonized Polymer Nanostructues for Biosensing," in Advanced Semiconductor Manufacturing Conference, Saratoga Springs, NY, USA, 2019. (accepted)
    • M. A. Haque, N. V. Lavrik, D. Hensley and N. McFarlane, "Carbonized Electrodes for Electrochemical Sensing," in Electronic Components and Technology Conference, Las Vegas, NV, USA, 2019. (accepted)
    • M. S. A. Shawkat, M. H. U. Habib, M. S. Hasan, M. A. Haque, and N. McFarlane, "Perimeter Gated Single Photon Avalanche Diodes in Sub-Micron and Deep-Submicron CMOS Processes," International Journal of High Speed Electronics and Systems, 2018.
    • A. Hedayatipour, M. A. Haque, and N. McFarlane, "Quasi-Digital Output Low Power CMOS Temperature Sensor," in 2018 IEEE 61st International Midwest Symposium on Circuits and Systems (MWSCAS), 2018.
    • M. A. Haque, R. Imamura, G. A. Brown, V. R. Krishnamurthi, I. I. Niyonshuti, T. Marcelle, L. E. Mathurin, J. Chen and Y. Wang “An Experiment-Based Model Quantifying Antimicrobial Activity of Silver Nanoparticles on: Escherichia coli,” Royal Society of Chemistry Advances, 2017.
    • P. Khadka, M. Haque, V. R. Krishnamurthi, I. Niyonshuti, J. Chen, and Y. Wang, "Quantitative Investigations Reveal New Antimicrobial Mechanism of Silver Nanoparticles and Ions," Biophysical Journal, 2018.
    • T. Nandy, M. A. Haque, A. Dutta, and H. Mahmood, “Performance Analysis of Cntfet and Mosfet Focusing Channel Length, Carrier Mobility and Ballistic Conduction in High Speed Switching,” International Journal of Advances in Materials Science and Engineering, 2014.
    • T. Nandy, A. Dutta, M. A. Haque, and Z. H. Mahmood, "High-Frequency Compatibility of Doped Multilayer Graphene Nanoribbon in VLSI Interconnect with Respect to Skin Depth Effect and Layer Width Variation," in 2014 International Conference on Informatics, Electronics & Vision (ICIEV), 2014.