Dr. Bardea Amos
Dr. Bardea Amos
Faculty of Electrical and Electronics Engineering
Head of Electrical and Electronics Engineering Department

Education

  • -
    2014
    Weizmann Institute of Science
    Sciences Teaching Certification
  • -
    2000
    Hebrew University of Jerusalem
    Ph.D.
  • -
    1996
    Tel-Aviv University
    M.Sc.
  • -
    1991
    Bar-Ilan University
    B.Sc , B.A.

Research Fields

  • Responsive Organic Materials for Flexible Magnetoresistive and Piezoresistive Electronics
    • Our research group develops, characterizes, and integrates responsive organic, hybrid, and organomagnetic materials for flexible electronics, smart sensing platforms, and bio-integrated technologies. We focus on the coupling between magnetic, mechanical, structural, and electronic properties in soft and flexible material systems, with particular emphasis on magnetoresistive and piezoresistive phenomena as active transduction mechanisms. Our studies explore how magnetic fields, mechanical strain, pressure, bending, temperature, and nanoscale organization modulate charge transport, switching behavior, and device response in organic semiconductor and composite films. These efforts aim to establish scalable material platforms for next-generation flexible sensors, adaptive electronic devices, soft interfaces, microfluidic systems, and biomedical or bioelectronic applications. In parallel, we develop nano- and micro-patterning methodologies, including magnetolithography and polymeric photonic structuring, to control the spatial organization of functional materials across surfaces and confined geometries. Building on our long-standing expertise in electrochemical biosensing, DNA/RNA detection, impedance-based transduction, and biofunctional interfaces, our group seeks to bridge materials science, nanotechnology, organic electronics, and applied bioengineering toward practical responsive devices.

Selected Publications

For all Publications Google Scholar
  • A. Bardea, F. Patolsky, (2026), Multimodal Haptic Perception Through Synergistic Nanocomposite Sensor Arrays, Advanced Materials Technologies -published by Wiley-VCH GmbH. Link
  • A. Bardea, F. Patolsky, R. Kiruba, I. Lapsker, P. Ben Ishai, (2025), Flexible organic semiconductor switching enabled by the magnetoresistance effect, Materials Science in Semiconductor Processing. Link
  • A. Bardea, A. Cohen, A. Axelevitch, F. Patolsky, (2024), A flexible organomagnetic single-layer composite film with built-in multistimuli responsivity, ACS Applied Materials & Interfaces. Link
  • A. Bardea, A. Yoffe , (2017), Magneto-Lithography, a simple and inexpensive method for high throughput, surface patterning, IEEE Trans. on Nanotechnology.
  • A. Bardea, N. Burshtein, Y. Rudich, T. Salame, C. Ziv, O. Yarden, R. Naaman , (2011), Sensitive detection and identification of DNA and RNA using a patterned capillary tube, Analytical Chemistry.
  • A. Bardea, A. Baram, A. Kumar Tatikonda, R. Naaman , (2009), Magnetolithographic patterning of inner walls of a tube: A new dimension in microfluidics and sequential microreactors, J. of the American Chemical Society.
  • A. Bardea, R. Naaman , (2009), Magnetolithography: From bottom-up route to high throughput, Small.

Experiences

  • 2000-2007 Senior Engineer, Intel Corporation, Israel