Shahriar Jamasb
Asssociate  Professor
Shahriar Jamasb received the B.S. and M.S. degrees in electrical engineering, and the Ph.D. degree in biomedical engineering from the University of California, Davis. His graduate study in electrical engineering concerned analog and digital integrated circuit design for implementation of a decision feedback equalizer, and his Ph.D. dissertation research focused on modeling and correction of drift in pH-sensitive ISFETs. He has over thirteen years of experience as a Device engineer, Manager of the device modeling group, Technical Manager, and Electronic design principal engineer at Samsung Semiconductor Inc., San Jose, CA, Cirrus Logic Inc., Fremont, CA, Commquest, an IBM company, Encinitas, CA, and Conexant Systems Inc., Newport Beach, CA respectively. After receiving his Ph.D. degree Dr. Jamasb also served as a lecturer at the University of California, Irvine, and the University of California, San Diego. In 2010, he joined the faculty of Hamedan University of Technology, Hamedan, Iran, where he is currently an Associate Professor in biomedical engineering. His principal research interests include integrated sensors for biomedical applications, solid-state device physics, instability phenomena, and applications of artificial intelligence in medicine.



https://scholar.google.com/citations?user=NvmirCYAAAAJ&hl=en&oi=ao
https://www.researchgate.net/profile/Shahriar-Jamasb
Telephone: +98 (81) 3841226
Email: jamasb@hut.ac.ir
CV
Website: https://en.hut.ac.ir/jamasb
research interest
  • Integrated Sensors for Biomedical Applications
    Solid-state Device Physics
    Instability Phenomena
    Applications of Artificial Intelligence in Medicine
Publications
 
  • Research Communications:
    A physical model for drift in pH ISFETs
    S Jamasb, S Collins, RL Smith
    Sensors and Actuators B: Chemical 49 (1-2), 146-155, 1998.

    A physical model for threshold voltage instability in Si3N4-gate H+-sensitive FET's (pH-ISFET's)
    S Jamasb, SD Collins, RL Smith
    IEEE Transactions on Electron Devices 45 (6), 1239-1245, 1998.

    An analytical technique for counteracting drift in ion-selective field effect transistors (ISFETs)
    S Jamasb
    IEEE Sensors Journal 4 (6), 795-801, 2004. 
     

    Counteracting threshold-voltage drift in ion-selective field effect transistors (ISFETs)
    using threshold-setting ion implantation
    A Elyasi, M Fouladian, S Jamasb
    IEEE Journal of the Electron Devices Society 6, 747-754, 2018.

    Continuous monitoring of pH and blood gases using ion-sensitive and gas-sensitive field effect transistors operating in the amperometric mode in presence of drift
    S Jamasb
    Biosensors 44 9 (1) ,2019.,.

    Current-mode signal enhancement in the ion-selective field effect transistor (ISFET) in the presence of
    drift and hysteresis
    S Jamasb
    IEEE Sensors Journal 21 (4), 4705-4712, 2020.

    Classification and comparison of maximum power point tracking techniques
    for photovoltaic systems: A review
    AR Reisi, MH Moradi, S Jamasb
    Renewable and sustainable energy reviews 19, 433-443, 2013.

    An energy management system (EMS) strategy for combined heat and power (CHP) systems based on hybrid optimization method employing fuzzy programming
    MH Moradi, M Hajinazari, S Jamasb, M Paripour
    Energy 49, 86-101, 2013.

    Modeling of effective electrical conductivity and percolation behavior in conductive-polymer nanocomposites reinforced with spherical carbon black
    M Mazaheri, J Payandehpeyman, S Jamasb
    Applied Composite Materials 29, 695-710, 2022.

    Physics-Based Modeling and Experimental Study of Conductivity and Percolation Threshold
    in Carbon Black Polymer Nanocomposites
    J Payandehpeyman, M Mazaheri, AS Zeraati, S Jamasb, U Sundararaj
    Applied Composite Materials, 1-21, 2023.

    Electrical transport in the superconducting and normal states in Y2Ba5Cu7Ox high-temperature superconductor
    M Mazaheri, S Jamasb
    Solid State Communications 234, 21–25, 2016.

    Extension of the neuronal membrane model to account for suppression of the action potential
    by a constant magnetic field
    S Jamasb
    Biophysics 62, 428-433, 2017.

    Kinetics of the hydration reaction at the electrolyte–insulator interface
    S Jamasb
    Surface Engineering and Applied Electrochemistry 53, 59-63, 2017.

    Level shifting circuit for hybrid superconductor-to-semiconductor interface
    F Aghighi, S Jamasb, M Mazaheri
    Physica C: Superconductivity and its Applications 552, 57-60, 2018.

    Rectification of graphene self-switching diodes: First-principles study
    H Ghaziasadi, S Jamasb, P Nayebi, M Fouladian
    Physica E: Low-dimensional Systems and Nanostructures 99, 123-133, 2018.

    Fabrication, characterization, and analysis of the crystal structure, electrical and magnetic properties of the superconducting compound Y2Ba5Cu7Ox
    M Mazaheri, S Jamasb
    Mavad Novin (Novel Materials), 10 (37), 163-176, 2019.

    Effect of side gates doping on graphene self-switching nano-diode rectification
    H Ghaziasadi, S Jamasb, P Nayebi
    Materials Research Express 6 (7), 075012, 2019.


    A method for image edge detection based on interval-valued fuzzy sets
    R Baghbani, S Jamasb, MB Khodabakhshi
    Journal of Intelligent & Fuzzy Systems 37 (2), 2275-2288, 2019.

    Investigation of the mechanism of transport across the poly/monocrystalline silicon interface in polysilicon-emitter bipolar transistors based on variations in the interface treatment process
    S Jamasb
    Turkish Journal of Electrical Engineering and Computer Sciences 27 (5), 3923-3934, 2019.
    Comprehensive modeling of the depletion-mode metal-oxide-semiconductor (MOS) capacitor for circuit simulation
    S Jamasb, M Khodabakhshi
    Modeling in Engineering, vol. 18. No. 62, 43-56, 10.22075/JME.2020.19671.1847, 2020.

    Nanotechnology application in drug delivery to osteoarthritis (OA), rheumatoid arthritis (RA), and osteoporosis (OSP)
    M Rabiei, S Kashanian, SS Samavati, H Derakhshankhah, S Jamasb, SJP McInnes
    Journal of Drug Delivery Science and Technology 61 (2), 102011, 2020.

    Pulsed entanglement and quantum steering in a three-mode electro-optomechanical system
    M Mazaheri, S Jamasb
    Quantum Information Processing 19, 1-19, 2020.

    Nanomaterial and advanced technologies in transdermal drug delivery
    M Rabiei, S Kashanian, SS Samavati, S Jamasb, SJP McInnes
    Journal of drug targeting 28 (4), 356-367, 2020.

    Active targeting towards and inside the brain based on nanoparticles: a review
    M Rabiei, S Kashanian, SS Samavati, S Jamasb, SJP McInnes
    Current Pharmaceutical Biotechnology 21 (5), 374-383, 2020.

    Modeling the effect of  constant magnetic field on action potenial generation in neuron
    S Jamasb, A Elyasi
    Modeling in Engineering, vol. 19. No. 64, 87-93, 10.22075/JME.2020.19694.184, 2021.

    Characterization and Modeling of the Polysilicon Emitter Contact for Circuit Simulation
    S Jamasb
    Journal of Circuits, Systems and Computers 30 (14), 2150251, 2021.

    Characteristics of SARS-CoV2 that may be useful for nanoparticle pulmonary drug delivery
    M Rabiei, S Kashanian, SS Samavati, H Derakhshankhah, S Jamasb, SJP McInnes
    Journal of Dug Targeting 30 (3), 233-243, 2022.

    A Subcircuit-Based Model for the Accumulation-Mode MOS Capacitor
    S Jamasb, MB Khodabakhshi, R Baghbani
    Journal of Circuits, Systems and Computers 32 (03), 2350054, 2023.
Courses Taught
  • UNDERGRADUATE COURSES
  • Biosensors
  • Medical Physics
  •  Electronic Circuits
  •  Device Physics
  •  RF Integrated Circuits
  •  Power Electronics
  • Electromagnetics
  • Applied Mathematics
  • Anatomy, Physiology for Biomedical Engineering Students
  • Professional English for Electrical Engineering Students
  • Professional English for Biomedical Engineering Students
  • GRADUATE COURSES
  • Integrated Circuits Fabrication Technology
  • Semiconductor Devices
  • Neuromuscular Control Systems
  • Neurophysiology
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 Experience
  • ACADEMIC EXPERIENCE
    EDUCATION

                University of California, Davis, CA, USA

                Ph.D. in Biomedical Engineering, December 1998
    Dissertation Title: Characterization, Modeling, and Correction of Drift in Ion-Selective Field Effect Transistors (ISFET’s)
    Dissertation Supervisor: Professor Rosemary L. Smith
                University of California, Davis, CA, USA
                Master of Science in Engineering, June 1993

    Thesis Title: Analog and Digital Integrated Circuit Blocks for a Decision Feedback Equalizer

    Dissertation Supervisor: Professor Paul J. Hurst
                University of California, Davis, CA, USA
                Bachelor of Science in Electrical Engineering, June 1988, CUM LAUDE
     
    CURRENT ACADEMIC POSITION
    Associate Professor:  Department of Biomedical Engineering, Hamedan University of Technology, Ministry of Science, Research and Technology,
    Hamedan, Iran, Fall 2010- Present
  • Focus of Research: Integrated Biomedical and Chemical Sensors, Solid-state Device Physics, Molecular Imaging, Applications of Artificial Intelligence in Medicine, Bioelectronic and Integrated Circuits
  • Teaching Responsibility: Undergraduate courses on biosensors, integrated circuits and devices, and survey courses in anatomy and physiology and Graduate courses in Integrated Circuit (IC) fabrication, semiconductor devices, neuromuscular control and neurophysiology
  • Title of undergraduate courses taught
  • Biosensors, Medical Physics, Electronic Circuits, Device Physics, RF Integrated Circuits, Power Electronics, Electromagnetics, Applied Mathematics, Anatomy, Physiology for Biomedical Engineering Students, Professional English for Biomedical and Electrical Engineering Students
  • Title of graduate courses taught
  • Integrated Circuits Fabrication Technology, Semiconductor Devices, Neuromuscular Control Systems, Neurophysiology
    TEACHING EXPERIENCE (United States)
    Instructor:  Department of Electrical Engineering, University of California,
                        Irvine, California, Fall 1999 and Fall 2000.
  • Senior-level required course, ECE 113D, Integrated Electronic
  • Circuit Design (hands-on, project-based course).
    Instructor:  Department of Electrical Engineering, University of California,
                        San Diego, California, Spring 2001.
  • Senior project course ECE 111, Advanced Digital Design Project
  • Instructor:  Department of Electrical Engineering, San Diego State University,
                        San Diego, California, Spring 2001, Spring 2002.
  • Senior-level elective course EE 503, Biomedical Instrumentation.         
  • Instructor:  University of California, San Diego, Extension, San Diego, California,
                  Winter 2000, Spring 2000, Summer 2000, Winter 2002.
  • ECE courses, High-speed Digital Design and Digital ASIC Design.
  • Instructor:  University of California, Irvine, Extension, Irvine, California
                        Fall 2000, Fall 2001, Summer 2003, Spring 2004  
  • Biomedical Instrumentation, High-speed Digital Design
  • INDUSTRIAL EXPERIENCE (United States)
          Electronic Design Principal Engineer: Conexant Systems, Newport Beach and San Diego,
                      California, March 1999-Decemer 2001.
  • Design of specialty I/O circuits for Giga-bit Rate Communication products
  • Design of Electrostatic Protection Circuitry
  •       Technical Manager: Commquest, an IBM Company, Encinitas, California, 1998-1999.
  • Research and development in I/O design methodology for low-power applications
  • Design of I/O circuits, and ESD protection circuitry for digital interfaces
  •      
            Device Engineering Manager: Cirrus Logic, Fremont, California, 1995-1998.
  • Management of a team of four engineers ( a senior and a junior device engineer as well as a senior and junior design engineer) performing device characterization and  SPICE model generation for CMOS integrated circuits fabricated in 0.25µm-0.6µm CMOS technologies
  • Design of CMOS analog and digital integrated circuit blocks for model-
  •       versus-silicon correlation (individual contribution).
         
    Senior Device Engineer: Cirrus Logic, Fremont, California, January 1991- January 1995
  • Device characterization and generation of SPICE models for MOS and bipolar transistors fabricated in 0.6µm-1.2µm CMOS technologies
  •       Device Engineer: Samsung Semiconductor, San Jose, California, April’89-December’90
  • Device characterization and generation of SPICE models for MOS and bipolar transistors fabricated in 0.80µm-1.0µm CMOS and BiCMOS technologies
  •       Device Support Engineer: Foxboro/ICT, San Jose, California, October 1988-April 1989
  • Responsible for characterization of integrated piezoresistive pressure transducers and process control monitoring. Performed process characterization and optimization using SUPREM TCAD software.
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Honors and Awards
Recipient of the Superior Researcher Award, Hamedan University of Technology
  • Recipient of the Superior Instructor Award, Hamedan University of Technology
  • Recipient of Chairman’s Team Award, Conexant Systems, 2001
  • Vivian Bryan Nelson Scholarship, UC Davis, 1987-1988
  • τβπ, national engineering honor society, since 1987
  • πµε, mathematics honor society, since 1987
  • Golden Key, national honor society, since 1987