Faculty Profile

Ifana Mahbub

Title
Assistant Professor
Department
Electrical Engineering
College
College of Engineering

    

    

      


                          

            
Curriculum Vitae

            

              Click Here to View Faculty CV
            

          

        
                          

            
Education

            



  

  


  
PhD, University of Tennesse, Knoxville, 2017. 
Major: Electrical Engineering
Degree Specialization: Low-power CMOS Integrated Circuit Design
Dissertation Title: Design and Implementation of a Low‐Power Wireless Respiration Monitoring Sensor
BS, Bangladesh University of Engineering and Technology, 2012. 
Major: Electrical and Electronic Engineering
Degree Specialization: Electronics
Dissertation Title: PC based radioactivity measurement and Data Acquisition system using LabVIEW





          

        
                

          
Current Scheduled Teaching*


          
No current or future courses scheduled.


          
*
  Texas Education Code 51.974 (HB 2504) requires each institution of
  higher education to make available to the public, a syllabus for
  undergraduate lecture courses offered for credit by the institution.
  

        

      

    

  


    

    

      


        


          


            
Previous Scheduled Teaching*


            
                    

                    EENG 5890.006, Directed Study, Summer 10W 2022 
                    

                    EENG 6950.010, Doctoral Dissertation, Summer 2022 
                    

                    EENG 5950.003, Master's Thesis, Summer 10W 2022 
                    

                    EENG 5530.001, Analog Integrated Circuit Design, Spring 2022 Syllabus SPOT
                    

                    EENG 5530.600, Analog Integrated Circuit Design, Spring 2022 Syllabus SPOT
                    

                    EENG 5890.003, Directed Study, Spring 2022 
                    

                    EENG 6950.011, Doctoral Dissertation, Spring 2022 
                    

                    EENG 3411.001, Engineering Electromagnetics Lab, Spring 2022 Syllabus SPOT
                    

                    EENG 6940.800, Individual Research, Spring 3W1 2022 
                    

                    EENG 5950.008, Master's Thesis, Spring 2022 
                    

                    EENG 4010.010, Topics in Electrical Engineering, Spring 2022 Syllabus SPOT
                    

                    EENG 5890.013, Directed Study, Fall 2021 
                    

                    EENG 6950.010, Doctoral Dissertation, Fall 2021 
                    

                    EENG 3411.001, Engineering Electromagnetics Lab, Fall 2021 Syllabus SPOT
                    

                    EENG 6940.003, Individual Research, Fall 2021 
                    

                    EENG 5950.013, Master's Thesis, Fall 2021 
                    

                    EENG 5410.001, Microwave Engineering, Fall 2021 Syllabus SPOT
                    

                    EENG 5410.600, Microwave Engineering, Fall 2021 Syllabus SPOT
                    

                    EENG 4010.003, Topics in Electrical Engineering, Fall 2021 Syllabus SPOT
                    

                    EENG 6950.010, Doctoral Dissertation, Summer 2021 
                    

                    EENG 5950.003, Master's Thesis, Summer 10W 2021 
                    

                    EENG 5530.001, Analog Integrated Circuit Design, Spring 2021 Syllabus SPOT
                    

                    EENG 5530.600, Analog Integrated Circuit Design, Spring 2021 Syllabus SPOT
                    

                    EENG 5890.003, Directed Study, Spring 2021 
                    

                    EENG 6950.011, Doctoral Dissertation, Spring 2021 
                    

                    EENG 3411.001, Engineering Electromagnetics Lab, Spring 2021 Syllabus SPOT
                    

                    EENG 3411.002, Engineering Electromagnetics Lab, Spring 2021  SPOT
                    

                    EENG 6940.016, Individual Research, Spring 2021 
                    

                    EENG 5950.008, Master's Thesis, Spring 2021 
                    

                    EENG 5900.005, Special Problems, Spring 2021 
                    

                    EENG 4010.010, Topics in Electrical Engineering, Spring 2021 Syllabus SPOT
                    

                    EENG 5890.010, Directed Study, Fall 2020 
                    

                    EENG 6950.010, Doctoral Dissertation, Fall 2020 
                    

                    EENG 3411.001, Engineering Electromagnetics Lab, Fall 2020 Syllabus SPOT
                    

                    EENG 6940.003, Individual Research, Fall 2020 
                    

                    EENG 5950.013, Master's Thesis, Fall 2020 
                    

                    EENG 5410.001, Microwave Engineering, Fall 2020 Syllabus SPOT
                    

                    EENG 5410.600, Microwave Engineering, Fall 2020 Syllabus SPOT
                    

                    EENG 4010.003, Topics in Electrical Engineering, Fall 2020 Syllabus SPOT
                    

                    EENG 5890.004, Directed Study, Summer 10W 2020 
                    

                    EENG 6950.003, Doctoral Dissertation, Summer 2020 
                    

                    EENG 5530.001, Analog Integrated Circuit Design, Spring 2020 Syllabus
                    

                    EENG 5530.600, Analog Integrated Circuit Design, Spring 2020 Syllabus
                    

                    EENG 5890.003, Directed Study, Spring 2020 
                    

                    EENG 6950.011, Doctoral Dissertation, Spring 2020 
                    

                    EENG 3411.001, Engineering Electromagnetics Lab, Spring 2020 Syllabus
                    

                    EENG 5932.001, Internship, Spring 2020 
                    

                    EENG 5950.008, Master's Thesis, Spring 2020 
                    

                    EENG 4010.010, Topics in Electrical Engineering, Spring 2020 Syllabus
                    

                    EENG 5890.013, Directed Study, Fall 2019 
                    

                    EENG 6950.010, Doctoral Dissertation, Fall 2019 
                    

                    EENG 3411.001, Engineering Electromagnetics Lab, Fall 2019 Syllabus SPOT
                    

                    EENG 5950.013, Master's Thesis, Fall 2019 
                    

                    EENG 5410.001, Microwave Engineering, Fall 2019 Syllabus SPOT
                    

                    EENG 5410.600, Microwave Engineering, Fall 2019 Syllabus SPOT
                    

                    EENG 4900.003, Special Problems in Electrical Engineering, Fall 2019 
                    

                    EENG 4010.003, Topics in Electrical Engineering, Fall 2019 Syllabus SPOT
                    

                    EENG 4900.009, Special Problems in Electrical Engineering, Summer 10W 2019 
                    

                    EENG 5890.003, Directed Study, Spring 2019 
                    

                    EENG 6950.011, Doctoral Dissertation, Spring 2019 
                    

                    EENG 3411.001, Engineering Electromagnetics Lab, Spring 2019 Syllabus SPOT
                    

                    EENG 5950.008, Master's Thesis, Spring 2019 
                    

                    EENG 6900.010, Special Problems, Spring 2019 
                    

                    EENG 5890.013, Directed Study, Fall 2018 
                    

                    EENG 3410.001, Engineering Electromagnetics, Fall 2018 Syllabus SPOT
                    

                    EENG 3411.001, Engineering Electromagnetics Lab, Fall 2018 Syllabus
                    

                    EENG 5950.013, Master's Thesis, Fall 2018 
                    

                    EENG 5900.013, Special Problems, Fall 2018 
                    

                    EENG 4900.008, Special Problems in Electrical Engineering, Summer 5W2 2018 
                    

                    EENG 5530.001, Analog Integrated Circuit Design, Spring 2018  SPOT
                    

                    EENG 5890.003, Directed Study, Spring 2018 
                    

                    EENG 6950.011, Doctoral Dissertation, Spring 2018 
                    

                    EENG 4980.001, Experimental Course, Spring 2018 Syllabus
                    

                    EENG 5950.008, Master's Thesis, Spring 2018 
                    

                    EENG 4010.007, Topics in Electrical Engineering, Spring 2018 Syllabus SPOT
                    

                    EENG 3410.001, Engineering Electromagnetics, Fall 2017 Syllabus SPOT
                    

                    EENG 4980.001, Experimental Course, Fall 2017 Syllabus

          


          
*
  Texas Education Code 51.974 (HB 2504) requires each institution of
  higher education to make available to the public, a syllabus for
  undergraduate lecture courses offered for credit by the institution.
  

        

      

    

  

  
  	

	

	  

		

		   
Published Publications



  

  
Published Intellectual Contributions


  
Book Chapter
Mahbub, I., Pullano, S. A., Shamsir, S., Islam, S. K. (2018). Low-Power Wearable and Wireless Sensors for Advanced Healthcare Monitoring. IoT and Low-Power Wireless Circuits, Architectures, and Techniques. 45-54.  London: Taylor & Francis. https://www.taylorfrancis.com/books/e/9781351251655/chapters/10.1201%2F9781351251662-12
Mahbub, I., Quaiyum, F., Hasan, M. S., Islam, S. K. (2015). Electronic Sensor Interfaces With Wireless Telemetry. Advances in Bioengineering. InTech. http://dx.doi.org/10.5772/59754
Conference Proceeding
Kakaraparty, K., Tasneem, N., Mahbub, I.  (2021). A Low-Power Front-End with Compressive Sensing Circuit for Neural Signal Acquisition Designed in 180 nm CMOS Process. 2020 IEEE 14th Dallas Circuits and Systems Conference. 
Biswas, D. K., Martinez, J., Kaul, I., Kaul, A., Mahbub, I.  (2021). A Miniaturized Highly Efficient Headstage Based Wireless Power Transfer (WPT) System for Optogenetic Stimulation of Freely Moving Animals. 2020 IEEE 14th Dallas Circuits and Systems Conference. 
Adhikari, P. R., Tasneem, N., Biswas, D. K., Reid, R., Mahbub, I.  (2021). High surface area reverse electrowetting on dielectric energy harvesting with power conditioning circuitry for self-powered sensors in wearable and implantable electronics. 2021 SPIE Defense + Commercial Sensing. 
Gunti, A., Biswas, D. K., Adhikari, P. R., Reid, R., Mahbub, I.  (2021). Highly Efficient Rectifier and DC-DC Converter Designed in 180 nm CMOS Process for Ultra-Low Frequency Energy Harvesting Applications. 2020 IEEE 14th Dallas Circuits and Systems Conference. 
Kota, D., Tasneem, N., Mahbub, I.  (2021). Low Power Implementation of ECG R-wave Peak Detector in 180 nm CMOS Process. 2020 IEEE 14th Dallas Circuits and Systems Conference. 
Tasneem, N., Biswas, D. K., Adhikari, P. R., Reid, R., Mahbub, I.  (2021). Self-powered Motion Tracking Sensor Integrated with Low-power CMOS Circuitry. 2021 IEEE International Symposium on Circuits and Systems (ISCAS) conference. 
Kakaraparty, K., Munoz-Coreas, E., Mahbub, I.  (2021). The Future of mm-wave Wireless Communication Systems for Unmanned Aircraft Vehicles in the Era of Artificial Intelligence and Quantum Computing. 2021 IEEE MetroCon. 8. IEEE. https://ieeexplore.ieee.org/document/9666048
Kota, D., Mahbub, I.  A Low-Power ECG Readout Circuit Integrated with Machine Learning Based ECG Heartbeat Classifier. 2021 IEEE 64th IEEE International Midwest Symposium on Circuits and Systems (MWSCAS) Conference. 
Patwary, A., Mahbub, I.  (2021). Design, Simulation and Comparison of two 15 mm X 15 mm UWB Antennas with Modified Ground Patch for High Data-rate Wireless Electrophysiological Recording Application. 2021 IEEE Texas Symposium on Wireless and Microwave Circuits and Systems, IEEEE. 
Biswas, D. K., Mahbub, I.  (2021). A Low-Power Duty-Cycled Impulse-Radio Ultrawideband (IR-UWB) Transmitter with Bandwidth and Frequency Reconfigurability Scheme Designed in 180 nm CMOS Process. IEEE. 
Tasneem, N., Kota, D., Mahbub, I., Mehta, G., Namuduri, K., Ceders, A.  (2020). A Dry Electrode-Based ECG Sensor with Motion Artifacts Cancellation and Signal Analysis for Heart Irregularity Detection. 2020 IEEE Sensors Conference. 
Tasneem, N., Mahbub, I.  (2020). A Low-power Reconfigurable Readout Circuit with Large DC Offset Reduction for Neural Signal Recording Applications. 63rd IEEE International Midwest Symposium on Circuits and Systems (MWSCAS). 
Tasneem, N., Mahbub, I.  (2020). Dry Electrode Based Low-power ECG Acquisition System with Adaptive Motion Artifacts Cancellation. 63rd IEEE International Midwest Symposium on Circuits and Systems (MWSCAS). 
Xiao, T., Tabashum, T., Olness, G. S., Mahbub, I., Berman, D., Tasneem, N., Albert, M. V. (2020). Mobile Diarization Dashboard Application and Remote Vocalization Sensor Prototype for Evaluating Communication Rehabilitation Effectiveness. 2020 American Congress of Rehabilitation Medicine Conference. 
Adhikari, P. R., Tasneem, N., Biswas, D. K., Reid, R., Mahbub, I.  (2020). Reverse Electrowetting-on-Dielectric Energy Harvesting Integrated with Charge Amplifier and Rectifier for Self-powered Motion Sensors. International Mechanical Engineering Congress and Exposition (IMECE2020). 
Tasneem, N. T., Biswas, D. K., Adhikari, P. R., Reid, R., Mahbub, I.  (2020). Design of a Reverse-electrowetting Transducer Based Wireless Self-powered Motion Sensor. 2020 IEEE International Symposium on Circuits and Systems (ISCAS) conference. 
Horn, J., Vasireddy, P., Hossain, R., Mahbub, I., Kaul, A.  (2020). Simulation and Fabrication of Inkjet-Printed mm-Sized Capacitors for Wearable Temperature Sensing Applications. 
Pullano, S., Greco, M., Fiorillo, A. S., Tasneem, N. T., Mahbub, I., Shamsir, S., Islam, S. K. (2020). Design and Fabrication of an EGFET Based Chemical Sensor Using Transistor Association Technique. 
Horn, J., Vasireddy, P., Mahbub, I., Hossain, R., Kaul, A. B. (2020). Simulation and fabrication of inkjet-printed mm-sized capacitors for wearable temperature sensing applications. Proceedings of the 2020 IEEE Texas Symposium on Wireless and Microwave Circuits and Systems: Making Waves in Texas, WMCS 2020. https://api.elsevier.com/content/abstract/scopus_id/85092058286
Biswas, D. K., Martinez, J. H., Daniels, J., Bendapudi, A., Mahbub, I.  (2020). A Novel 3-D Printed Headstage and Homecage based WPT System for Long-term Behavior Study of Freely Moving Animals. IEEE. https://radiowirelessweek.org/
Tasneem, N. T., Mahbub, I.  (2019). Design of A 52.5 dB Neural Amplifier with Noise-Power Trade-off. IEEE. https://www.mwscas2019.org/
Wang, H., Shamsir, S., Mahbub, I., Islam, S. K., Legassey, A., Gudlavelleti, R. H., Papadimitrakopoulos, F., Jain, F.  (2019). Highly Linear Amperometric Glucose Detection System Realized in Deep Submicron CMOS Technology. IEEE. https://memea2019.ieee-ims.org/
Biswas, D. K., Rangel, B., Mahbub, I.  (2019). Design of a Multi-layered On-chip Wireless Power Transfer (WPT) System Design for Brain Neuromodulation Applications. 2020 IEEE Texas Symposium on Wireless and Microwave Circuits and Systems (WMCS). 
Agbor, I., Mahbub, I., Namuduri, K.  (2019). Impact of Extreme Temperature on Performance of Wearable Electro-Textile Antennas. IEEE. https://texassymposium.org/
Biswas, D. K., Tasneem, N. T., Mahbub, I.  (2019). Optimization of Miniaturized Wireless Power Transfer System to Maximize Efficiency for Implantable Biomedical Devices. IEEE. https://texassymposium.org/
Tasneem, N. T., Biswas, D. K., Mahbub, I.  Closed-loop Adaptive Transcutaneous Wireless Power Transfer System for Implantable Sensors. 2019 IEEE Radio & Wireless Week (RWW). 
Tasneem, N. T., Mahbub, I.  A Low-power Low-noise Reconfigurable Bandwidth BiCMOS  Neural Amplifier. 2018 IEEE 13th Dallas Circuits and Systems Conference (DCAS). 
Hasan, M., Mahbub, I., Islam, S. K., Rose, G.  A MOS-JFET macromodel of SOI four-gate transistor (G4FET) to aid innovative circuit design. 13th IEEE Dallas Circuits and Systems Conference 2018. 
Sinclair, M., Biswas, D. K., Le, T., Hyde, j., Mahbub, I., Chang, L., Hao, Y.  Design of a Flexible Receiver Module for Implantable Wireless Power Transfer (WPT) Applications. U.S. National Committee (USNC) National Radio Science Meeting (NRSM). 
Suri, R. S., Tasneem, N. T., Mahbub, I.  Low-Power Highly Efficient Voltage-Boosting Rectifier for Wide-band Inductively-Coupled Power Telemetry. U.S. National Committee (USNC) National Radio Science Meeting (NRSM). 
Pullano, S. A., Bianco, M. G., Ursini, F., Bruno, C., Fiorillo, A. S., Mahbub, I., Tasneem, N. T. (2018). Development of a Low-cost Nailfold Capillaroscopy Platform to Enhance Early Detection of Secondary Raynaud’s Phenomenon. 2018 IEEE International Symposium on Medical Measurements and Applications (MeMeA). 
Biswas, D. K., Tasneem, N. T., Hyde, J., Sinclair, M., Mahbub, I.  (2018). Miniaturized Wireless Power Transfer Module Design for Brain Optoelectronic Implant. 1-4. 2018 IEEE MTT-S International Microwave Biomedical Conference. 
Agbor, I., Biswas, D. K., Mahbub, I.  (2018). A Comprehensive Analysis of Various Electro-Textile Materials for Wearable Antenna Applications. 1-4. 2018 Texas Symposium on Wireless and Microwave Circuits and Systems (WMCS). https://ieeexplore.ieee.org/document/8400628/
Tasneem, N. T., Suri, R. S., Mahbub, I.  (2018). A low-power CMOS voltage boosting rectifier for wireless power transfer applications. 1-4. 2018 Texas Symposium on Wireless and Microwave Circuits and Systems (WMCS). https://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=8400648
Biswas, D. K., Sinclair, M., Hyde, J., Mahbub, I.  (2018). An NFC (near-field communication) based wireless power transfer system design with miniaturized receiver coil for optogenetic implants. 1-5. 2018 Texas Symposium on Wireless and Microwave Circuits and Systems (WMCS). https://ieeexplore.ieee.org/document/8400620/
Mahbub, I., Oh, T., Shamsir, S., Islam, S. K., Pullano, S. A., Fiorillo, A. S. (2018). Design of a Pyroelectric Charge Amplifier and a Piezoelectric Energy Harvestor for a Novel Non-Invasive Wearable and Self-Powered Respiratory Monitoring System. 2017 IEEE Region 10 Humanitarian Technology Conference (R10-HTC). https://ieeexplore.ieee.org/abstract/document/8288917/
Shamsir, S., Hesari, S. H., Islam, S. K., Mahbub, I., Pullano, S. A., Fiorillo, A. S. Instrumentation of a Pyroelectric Transducer Based Respiration Monitoring System with Wireless Telemetry. 1-4. 2018 International Instrumentation and Measurement Technology Conference. 
Mahbub, I., Shamsir, S., Islam, S. K., Pullano, S. A., Fiorillo, A. S. (2017). A low noise front-end amplifier for pyroelectric transducer based respiration monitoring system. 875-878. 2017 IEEE 60th International Midwest Symposium on Circuits and Systems (MWSCAS). https://ieeexplore.ieee.org/document/8053063/
Shamsir, S., Mahbub, I., Islam, S. K., Rahman, A.  (2017). Applications of sensing technology for smart cities. 1150 - 1153. 2017 IEEE International Midwest Symposium on Circuits and Systems (MWSCAS). https://ieeexplore.ieee.org/document/8053132/
Islam, S. K., Mahbub, I., Shamsir, S.  (2017). Carbon nanomaterial based sensors for astrobiology exploration. 1501-1504. 2017 IEEE International Midwest Symposium on Circuits and Systems (MWSCAS). https://ieeexplore.ieee.org/document/8053219/
Mahbub, I., Islam, S. K., Shamsir, S., Pullano, S. A., Fiorillo, A. S., Gaylord, M. S., Lorch, V.  (2017). A low power wearable respiration monitoring sensor using pyroelectric transducer. 1-2.  NJ: IEEE. https://ieeexplore.ieee.org/abstract/document/7878302/
Mahbub, I., Islam, S. K. (2017). A low-power impulse radio ultra-wideband (IRUWB) transmitter for biomedical sensor applications. 1-2.  NJ: IEEE. https://ieeexplore.ieee.org/abstract/document/7878307/
Pullano, S. A., Fiorillo, A. S., Mahbub, I., Islam, S. K., Gaylord, M. S., Lorch, V.  (2017). Non-invasive integrated wireless breathing monitoring system based on a pyroelectric transducer. 1-3.  NJ: IEEE. https://ieeexplore.ieee.org/abstract/document/7808773/
Mahbub, I., Islam, S. K. (2016). A low power pulse position modulation based ultra-wideband transmitter for implantable sensors. 2016 IEEE International Symposium on Medical Measurements and Applications (MeMeA). IEEE. http://dx.doi.org/10.1109/memea.2016.7533755
Mahbub, I., Wang, H., Islam, S. K., Pullano, S. A., Fiorillo, A. S. (2016). A low power wireless breathing monitoring system using piezoelectric transducer. 2016 IEEE International Symposium on Medical Measurements and Applications (MeMeA). IEEE. http://dx.doi.org/10.1109/memea.2016.7533756
Mahbub, I., Islam, S. K., Fathy, A.  (2016). Impulse radio ultra-wideband (IR-UWB) transmitter for low power low data rate biomedical sensor applications. 2016 IEEE Topical Conference on Biomedical Wireless Technologies, Networks, and Sensing Systems (BioWireleSS). IEEE. http://dx.doi.org/10.1109/biowireless.2016.7445570
Mahbub, I., Hasan, S., Pullano, S. A., Quaiyum, F., Stephens, C. P., Islam, S. K., Fiorillo, A. S., Gaylord, M. S., Lorch, V.  (2015). A low power wireless apnea detection system based on pyroelectric sensor. 1-3.  NJ: IEEE. https://ieeexplore.ieee.org/abstract/document/7152130/
Randall, T. C., Mahbub, I., Islam, S. K. (2015). Reconfigurable analog-to-digital converter for implantable bioimpedance monitoring. 2015 IEEE Topical Conference on Biomedical Wireless Technologies, Networks, and Sensing Systems (BioWireleSS). IEEE. http://dx.doi.org/10.1109/biowireless.2015.7152117
Randall, T., Mahbub, I., Islam, S. K. (2013). A low power auto-reconfigurable pipelined ADC for implantable biomedical applications. 2013 IEEE SENSORS. IEEE. http://dx.doi.org/10.1109/icsens.2013.6688455
Biswas, S., Mahbub, I., Islam, M. S. (2013). Conduction band-valence band coupling effects on the band structure of In<inf>0.28</inf>Ga<inf>0.72</inf>N/GaN Quantum Well. 2013 Spanish Conference on Electron Devices. IEEE. http://dx.doi.org/10.1109/cde.2013.6481380
Biswas, S., Mahbub, I., Islam, M. S., Biswas, S.  (2013). Peak emission wavelength tuning for Light Emitting Diodes and lasers for InGaN &#x2014; deltaIn<inf>y</inf>Ga<inf>1&#x2212;y</inf>N Quantum Well by varying the composition of the delta well. 2013 Spanish Conference on Electron Devices. IEEE. http://dx.doi.org/10.1109/cde.2013.6481379
Journal Article
Tasneem, N. T., Biswas, D. K., Reza, S., Mahbub, I., Becker, A. M. (2023). Multichannel Electrophysiological Recording with Unsupervised Spike Detection and Spike Sorting in a Duty-cycled Wireless Optogenetic Headstage.. Journal: Electronics. 410 Avenue C 360G
Adhikari, P., Patwary, A., Kakaraparthy, K., Gunti, A., Reid, R., Mahbub, I.  Advancing Reverse Electrowetting-on-Dielectric from Planar to Rough Surface Electrodes for High Power Density Energy Harvesting. Energy Technology, Wiley. 
Adhikari, P., Reid, R., Mahbub, I.  High Power Density and Bias-Free Reverse Electrowetting Energy Harvesting Using Surface Area Enhanced Porous Electrodes.  Argyle: Journal of Power Sources, Elsevier. 
Kota, D., Tasneem, N., Kakaraparty, K., Mahbub, I., Mehta, G., Namuduri, K.  (2021). A Low-power Dry Electrode-based ECG Signal Acquisition with De-noising and Feature Extraction. Journal of Signal Processing Systems, Springer. 
Adhikari, P., Tasneem, N., Reid, R., Mahbub, I.  (2021). Electrode and Electrolyte Configurations for Low Frequency Motion Energy Harvesting Based on Reverse Electrowetting. Scientific Reports. Nature. https://www.nature.com/articles/s41598-021-84414-3
Mahbub, I., Mahbub, I.  (2021). A 2.53 NEF 8-bit 10 kS/s 0.5 μm CMOS Neural Recording Read-out  Circuit with High Linearity for Neuromodulation Implants.  Denton: MDPI Electronics. 
Chowdhury, T., D'Souza, N. A., Ho, Y. H., Dahotre, N. B., Mahbub, I.  (2020). Embedded Corrosion Sensing with ZnO-PVDF Sensor Textiles. Sensors. 20(11), . 
Biswas, D. K., Sinclair, M., Le, T., Pullano, S. A., Fiorillo, A. S., Mahbub, I.  (2020). Modeling and Characterization of Scaling Factor of Flexible Spiral Coils for Wirelessly Powered Wearable Sensors. Sensors. 20(8), . 
Tasneem, N. T., Biswas, D. K., Mahbub, I.  (2020). A CMOS Closed-loop Miniaturized Wireless Power Transfer System for Brain Implant Applications. Analog Integrated Circuits and Signal Processing. Springer. 
Tasneem, N. T., Pullano, S. A., Critello, C. D., Mahbub, I., Fiorillo, A. S. (2020). A Low-Power On-chip ECG Monitoring System Based on MWCNT/PDMS Dry Electrodes. IEEE Sensors. IEEE. 
Biswas, D. K., Sinclair, M., Le, T., Daniels, J., Pullano, S. A., Fiorillo, A. S., Mahbub, I.  (2020). Modeling and Characterization of Scaling Factor of Flexible Spiral Coils for Wirelessly Powered Wearable Sensors. Sensors. MDPI. 
Biswas, D. K., Mahbub, I.  (2020). A 0.09 mm2 On-Chip Wireless Power Transfer (WPT) System Designed in 0.5 μm CMOS process for Brain Neuromodulation Applications. IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology.  NJ: IEEE. https://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=4156126
Reid, R., Mahbub, I.  (2020). Wearable Self-Powered Biosensors. 19, 55-62. Elsevier Journal. 
Pullano, S. A., Tasneem, N., Mahbub, I., Shamsir, S., Greco, M., Islam, S. K., Fiorillo, A. S. (2019). Deep Submicron EGFET Based on Transistor Association Technique for Chemical Sensing. Sensors. 19(5), . 
Mahbub, I., Shamsir, S., Pullano, S. A., Fiorillo, A. S., Islam, S. K. (2019). Design of a charge amplifier for a low-power respiration-monitoring system. Other. 13(4), 499-503. 
Mahbub, I., Shamsir, S., Pullano, S. A., Islam, S. K. (2019). Low-power low-data-rate IR-UWB transmitter for paediatric apnoea monitoring system. Other. 13(4), 494-498. 
Mahbub, I., Shamsir, S., Pullano, S. A., Islam, S. K. (2019). Design of a Charge Amplifier for a Low-Power Respiration Monitoring System. The Institution of Engineering and Technology. England & Wales. 
Mahbub, I., Shamsir, S., Pullano, S. A., Islam, S. K. (2019). Low-Power Low-data-rate IR-UWB Transmitter for Pediatric Apnea Monitoring System. The Institution of Engineering and Technology.  England:. 
Biswas, D., Tasneem, N. T., Mahbub, I.  (2019). Effects of Coaxial-lateral and Coaxial-angular Displacements on Link Efficiency of a Wirelessly Powered Optogenetic Implant: Design, Modeling, and Experimental Validation. IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology.  New Jaersey: IEEE. 
Pullano, S. A., Tasneem, N. T., Mahbub, I., Shamsir, S., Greco, M., Islam, S. K., Fiorillo, A. S. (2019). Deep Sub-micron EGFET Based on Transistor Association Technique for  Chemical Sensing. MDPI. https://www.mdpi.com/journal/sensors
Pullano, S., Critello, C. D., Mahbub, I., Tasneem, N. T., Shamsir, S., Islam, S. K., Greco, M., Fiorillo, A. S. (2018). EGFET based Sensors for Bioanalytical Applications: A Review. Sensors. University of North Texas. 18(11), . MDPI. https://www.mdpi.com/1424-8220/18/11/4042/htm
Mahbub, I., Pullano, S. A., Wang, H., Islam, S. K., Fiorillo, A. S., To, G., Mahfouz, M. R. (2017). A Low-Power Wireless Piezoelectric Sensor-Based Respiration Monitoring System Realized in CMOS Process. Other. 17(6), 1858-1864. 
Pullano, S. A., Mahbub, I., Islam, S. K., Fiorillo, A. S. (2017). PVDF Sensor Stimulated by Infrared Radiation for Temperature Monitoring in Microfluidic Devices. Sensors. 17(4), . 
Mahbub, I., Shamsir, S., Islam, S. K. (2017). A Low-Power Low-Data Rate Impulse Radio Ultra-Wideband (IR-UWB) Transmitter. International Journal of High Speed Electronics and Systems. Microelectronics and Optoelectronics. WORLD SCIENTIFIC. http://dx.doi.org/10.1142/9789813232341_0008
Pullano, S. A., Mahbub, I., Bianco, M. G., Shamsir, S., Islam, S. K., Gaylord, M. S., Lorch, V., Fiorillo, A. S. (2017). Medical Devices for Paediatric Apnea Monitoring and Therapy: Past and New Trends.. Other. 
Pullano, S., Mahbub, I., Islam, S., Fiorillo, A.  (2017). PVDF Sensor Stimulated by Infrared Radiation for Temperature Monitoring in Microfluidic Devices. Sensors. 17(4), 850. MDPI AG. http://dx.doi.org/10.3390/s17040850
Mahbub, I., Pullano, S. A., Wang, H., Islam, S. K., Fiorillo, A. S., To, G., Mahfouz, M. R. (2017). A Low-Power Wireless Piezoelectric Sensor-Based Respiration Monitoring System Realized in CMOS Process. IEEE Sensors. 17(6), 1858-1864. Institute of Electrical and Electronics Engineers (IEEE). http://dx.doi.org/10.1109/jsen.2017.2651073
Randall, T. C., Islam, S. K., Mahbub, I., McFarlane, N., Yu, Y.  (2016). A low-power, reconfigurable, pipelined ADC for implantable bioimpedance measurement system with vertically aligned carbon nanofibers (VACNF) electrodes. Analog Integrated Circuits and Signal Processing. 89(1), 139-149. 
Randall, T. C., Islam, S. K., Mahbub, I., McFarlane, N., Yu, Y.  (2016). A low-power, reconfigurable, pipelined ADC for implantable bioimpedance measurement system with vertically aligned carbon nanofibers (VACNF) electrodes. Analog Integrated Circuits and Signal Processing. 89(1), 139-149. Springer Nature. http://dx.doi.org/10.1007/s10470-016-0805-2
Roknsharifi, M., Islam, S. K., Zhu, K., Mahbub, I.  (2015). A low power, highly stabilized three electrode potentiostat for biomedical implantable systems. Analog Integrated Circuits and Signal Processing. 83(2), 217-229. Springer Nature. http://dx.doi.org/10.1007/s10470-015-0524-0
Zuo, L., Islam, S. K., Mahbub, I., Quaiyum, F.  (2015). A Low-Power 1-V Potentiostat for Glucose Sensors. IEEE Transactions on Circuits and Systems II: Express Briefs. 62(2), 204-208. Institute of Electrical and Electronics Engineers (IEEE). http://dx.doi.org/10.1109/tcsii.2014.2387691
Qu, W., Islam, S. K., Mahbub, I., Randall, T. C., To, G., Mahfouz, M. R. (2014). An energy-efficient reconfigurable analog-to-digital converter for orthopedic implants. Analog Integrated Circuits and Signal Processing. 78(1), 233-243. Springer Nature. http://dx.doi.org/10.1007/s10470-013-0217-5
Randall, T. C., Mahbub, I., Islam, A. B., Haider, M. R., Islam, S. K. (2014). Low-power sensor signal monitoring and impulse radio architecture for biomedical applications. Analog Integrated Circuits and Signal Processing. 78(1), 209-216. Springer Nature. http://dx.doi.org/10.1007/s10470-013-0152-5
Biswas, S., Islam, M. S., Mahbub, I., Adnan, F.  (2013). Numerical Investigation of the Effects of Conduction Band Nonparabolicity on the Conduction Sub-band Dispersion Relationships in a Al0.88In0.12N/Ga0.9. Other. 1(1), 1-5. Engineering and Technology Publishing. http://dx.doi.org/10.12720/lnpo.1.1.1-5
Zhu, K., Islam, S. K., Roknsharifi, M., Hasan, M. S., Mahbub, I.  (2013). A Divide-by-3 0.4&#x2013;1.4 GHz Injection-Locked Frequency Divider Based on Relaxation Oscillator. IEEE Microwave and Wireless Components Letters. 23(7), 368-370. Institute of Electrical and Electronics Engineers (IEEE). http://dx.doi.org/10.1109/lmwc.2013.2254705
Review
Reid, R., Mahbub, I.  (2020). Wearable self-powered biosensors. Other. 19, 55-62. 
Pullano, S. A., Critello, C. D., Mahbub, I., Tasneem, N., Shamsir, S., Islam, S. K., Greco, M., Fiorillo, A. S. (2018). EGFET-Based Sensors for Bioanalytical Applications: A Review. Sensors. 18(11), . 



	
		
		
	  

	

	

  
    
	

	

	  

		

		   
Awarded Grants



  
  
  	  
          
Contracts, Grants and Sponsored Research  

 	 
	 	 
  
Contract   
D'Souza, N. A. (Principal), Zhang, H. (Co-Principal), Mahbub, I. (Co-Principal), Namuduri, K. (Co-Principal), "Orb Health and Integrity Monitoring, in partnership Andrew Carter," Sponsored by Air Force (Agility Prime) through ResilienX, Federal, $53000 Funded. (January 2021June 2021).
Grant - Research   
Mahbub, I. (Principal), Becker, A. (Supporting), "CAREER: Next-generation of Wirelessly Powered Implantable Neuromodulation and Electrophysiological Recording System for Long-term Behavior Study of Freely-Moving Animals," Sponsored by NSF, University of North Texas, $500000 Funded. (February 1, 2020January 31, 2026).
Mahbub, I. (Principal), "Next generation of wireless power transfer network of Unmanned Aircraft System (UAS) using electromechanical beamforming," Sponsored by DARPA, Federal, $500000 Funded. (September 1, 2021August 31, 2024).
Reid, R. (Co-Principal), Mahbub, I. (Principal), "High Surface Area Reverse Electrowetting Mechanoelectrical Transduction," Sponsored by NSF, University of North Texas, $367994 Funded. (September 15, 2019August 31, 2022).
Choi, W. (Principal), Mahbub, I. (Co-Principal), "Self-powered Wireless Sensors and Interfaces for UAVs," Sponsored by University of North Texas, Federal, $211786 Funded. (July 20, 2021July 19, 2022).
Mahbub, I. (Principal), "REU Supplement request for the project titled “CAREER: Next-generation of Wirelessly Powered Implantable Neuromodulation and Electrophysiological Recording System for Long-term Behavior Study of Freely-Moving Animals”," Sponsored by NSF, Federal, $8000 Funded. (June 1, 2021May 31, 2022).
Mahbub, I. (Principal), "REU Supplement request for the project titled “High Surface Area Reverse Electrowetting Mechanoelectrical Transduction," Sponsored by NSF, Federal, $8000 Funded. (June 1, 2021May 31, 2022).
Kaul, A. (Principal), Mahbub, I. (Co-Principal), "Low-power, miniaturized RF components for wireless, communications and sensing systems to engage a broad cross-section of students for Navy-relevant STEM careers," Sponsored by Office of Naval Research (ONR), Federal, $749999 Funded. (June 1, 2019May 31, 2022).
Mahbub, I., "A Prototype Miniaturized Wirelessly Powered Neural Stimulation and Recording System for Brain Optogenetics," Sponsored by Office of Research and Economic Development, University of North Texas, $7900 Funded. (October 11, 2017December 31, 2018).
Sponsored Research   
Mahbub, I. (Principal), "Drive signal control for RF amplifier," Sponsored by Qorvo, Private, $3750 Funded. (September 1, 2021 – Present).
Mahbub, I. (Principal), "High Efficiency 2 GHz RF Power Amplifier," Sponsored by Qorvo, Inc., Private, $3750 Funded. (September 1, 2021May 31, 2022).
Mahbub, I. (Principal), "RFID Tracking Small Devices," Sponsored by Dualams, Inc., Private, $1000 Funded. (September 1, 2021May 31, 2022).
Mahbub, I. (Principal), "Radio Transceiver Subsystem Module Design for Audio Applications," Sponsored by Vasant Corporation, Other, $1500 Funded. (March 2020December 2020).
Mahbub, I. (Principal), "Low Cost Low Maintenance Mask Aligner For Fabrication of Multilayer Microfluidics Device," Sponsored by Plexon, Inc., Private, $3000 Funded. (September 1, 2019May 30, 2020).
Mahbub, I. (Principal), "Micro-electrode Imepdance Measurement System using AD5940 Evaluation Kit," Sponsored by Plexon, Inc., Private, $673.84 Funded. (September 1, 2019May 30, 2020).
Mahbub, I. (Principal), "Investigating the risks of Electromagnetic Interference (EMI) and Electro-static Discharge (ESD) on the microelectronics imposed by the spray painting guns," Sponsored by Peterbilt, Private, $15730 Funded. (February 15, 2018December 31, 2018).



	
		
		
	  

	

	

	
	

  
  
  

  	

		

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					Overall
Summative Rating		
					Challenge and
Engagement Index		
					Response Rate
					
				

			
			
				

					
					
out of 5		
					
out of 7		
					%
 of 
students responded		
					
					
				

			
		


		
    
			
  • Overall Summative Rating (median):
    
			This rating represents the combined responses of students to the four global summative items and is presented to provide an overall index of the class’s quality. Overall summative statements include the following (response options include a Likert scale ranging from 5 = Excellent, 3 = Good, and 1= Very poor):
				
      
					
    • The course as a whole was
      • 
					
    • The course content was
      • 
					
    • The instructor’s contribution to the course was
      • 
					
    • The instructor’s effectiveness in teaching the subject matter was
      • 
				
    
			
    • 
			
  • Challenge and Engagement Index:
    
			This rating combines student responses to several SPOT items relating to how academically challenging students found the course to be and how engaged they were. Challenge and Engagement Index items include the following (response options include a Likert scale ranging from 7 = Much higher, 4 = Average, and 1 = Much lower):
				
      
					
    • Do you expect your grade in this course to be
      • 
					
    • The intellectual challenge presented was
      • 
					
    • The amount of effort you put into this course was
      • 
					
    • The amount of effort to succeed in this course was
      • 
					
    • Your involvement in course (doing assignments, attending classes, etc.) was
      • 
				
    
			
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