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SiS-Lab
  • Home
  • Our Team
  • Dr. Nouha
  • Publications
  • Research
  • Openings
  • Media Highlights
  • More
    • Home
    • Our Team
    • Dr. Nouha
    • Publications
    • Research
    • Openings
    • Media Highlights

Highlights

Journals

  • Nature Microsystem and Nanoengineering 2025: Vapor-induced porosity in graphene/PDMS: a scalable route to high-performance pressure sensors

  • Nature Microsystem and Nanoengineering 2025: Smart resonant micro-sensor and micro-actuator: high-performance, wide range bi-axial magnetic sensitive/ insensitive micro-device for multifunctional sensing applications.

  • Mechanical Systems and Signal Processing  2025: Micro-mechanical mode-localized tunable wide-range band-pass filter.

  • IEEE Sensor Journal 2024: An Ultra-Sensitive Low-to-Medium Vacuum Pressure Sensor Using a Resonant Microstructure

  • Scientific Reports 2022: Selective multiple analyte detection using multi-mode excitation of a MEMS resonator



Conferences

  • IEEEMEMS 2024: Ultra-Sensitive Resonant Low-Medium Vacuum Pressure Micro-Sensor

  • POWERMEMS2023: Enhancement of Greenhouse Gas Sensing Performance Using a Heated Micro-Resonator with Lorentz-Forces

Patents

  • US-Patent 2025:  RAPID FABRICATION OF POROUS POLYMER NANOCOMPOSITES FOR MULTI-SENSING APPLICATIONS.

  • US-Patent 2023: Resonant frequency-based magnetic sensor at veering zone and method

  • US-Patent 2023: Wide range highly sensitive pressure sensor based on heated micromachined arch beam


  • N. T. Beigh and N. Alcheikh, "Vapor-Induced Porosity in Graphene/PDMS: A Scalable Route to High-Performance Pressure Sensors," Published  in Nature Microsystems &Nanoengineering, 2025.[Link]


  • H. Amara, N. T. Beigh and N. Alcheikh, "Smart resonant micro-sensor and micro-actuator: high-performance, wide range bi-axial magnetic sensitive/ insensitive micro-device for multifunctional sensing applications," Published in Nature Microsystems &Nanoengineering, 2025. [Link]


  • M. Hemid and N. Alcheikh, "Micro-mechanical mode-localized tunable wide-range band-pass filter ," Published in Mechanical Systems and Signal Processing , 2025. [Link]


  • H. Amara, N. T. Beigh and N. Alcheikh, "High-Performance Mems Magnetic Sensor Based on a Smart Tunable Resonator," 2025 IEEE 38th International Conference on Micro Electro Mechanical Systems (MEMS), Kaohsiung, Taiwan, 2025, pp. 1051-1054, doi: 10.1109/MEMS61431.2025.10917807. [Link]

2024

  • N. Alcheikh, S. B. Mbarek and M. I. Younis, "An Ultra-Sensitive Low-to-Medium Vacuum Pressure Sensor Using a Resonant Microstructure," in IEEE Sensors Journal (2024). [Link] 

  • N. Alcheikh, A.T. Shalabi, H. M. Ouakad, "A novel approach for improving the performance of gas sensors using a thermal-conductivity-based micro-resonator and Lorentz-forces," in Sensors and Actuators A: Physical (2024). [Link]

  • N Alcheikh, SB Mbarek, MI Younis, "Ultra-Sensitive Resonant Low-Medium Vacuum Pressure Micro-Sensor " in IEEE MEMS (2024). [Link]

2023

  • AT Shalabi, SB Mbarek, HM Ouakad, N Alcheikh, "Enhancement of Greenhouse Gas Sensing Performance Using a Heated Micro-Resonator with Lorentz-Forces," in 2023 IEEE 22nd International Conference on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (PowerMEMS) (2023). [Link] 

  • S Apuu, Y Algoos, F Khan, N Elatab, N Alcheikh, "Low Power Miniaturized Device for Gripping Applications," in 2023 IEEE 22nd International Conference on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (PowerMEMS) (2023). [Link] 

  • R Alahmdi, U Yaqoob, MI Younis, N Alcheikh, "High Performance MEMS Magnetometer for Industrial Applications," in 2023 IEEE 22nd International Conference on Micro and Nanotechnology for Power Generation and Energy Conversion Applications (PowerMEMS) (2023). [Link] 

  • W Zhao, RT Rocha, N Alcheikh, MI Younis, Dynamic response amplification of resonant microelectromechanical structures utilizing multi-mode excitation," in Mechanical Systems and Signal Processing (2023). [Link] 

Designed and Managed by Dr. Nadeem Beigh
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