M-TMA-ID
Smart Radio Frequency IDentification (RFID) Technology exploiting Two-Dimensional Material-based Time-Modulated Arrays


About project Results Objectives Team Home

¤ General data:

  • Project duration: 2.05.2018- 31.07.2020
  • Budget project: 249.500 RON
  • Domain project: Engineering science;
    (Micro and nano) systems engineering;
    Communication technology, high-frequency technology

¤ About project

Aim of the present Postdoc project is to propose a „smart” Radio Frequency IDentification (RFID) system, operating in the X band (i.e. in the 8 - 12 GHz frequency range), thus extending the classical microwave range of RFID systems, by exploiting the last (and often unknown) 2D materials, especially the so-called 2D chalcogenides.
[more details]
  

¤ News

ISI papers

  1. M. Aldrigo, D. Masotti, M. Dragoman, “Smart Two-Dimensional Material-based Time Modulated Array for RFID Applications,” IET Microwaves, Antennas & Propagation, vol. 11, no. 15, pp. 2267-2272, 2017 corresponding author (ISI Journal), DOI: 10.1049/iet-map.2017.0309
  2. M. Yasir, M. Aldrigo, M. Dragoman, A. Dinescu, M. Bozzi, S. Iordanescu, D. Vasilache, “Integration of antenna array and self-switching graphene diode for detection at 28 GHz,” IEEE Electron Device Lett., vol. 40, no. 4, pp. 628-631, Apr. 2019 – corresponding author (ISI Journal), DOI: 10.1109/LED.2019.2899028 (with acknowledgment to the project)
  3. M. Dragoman, M. Aldrigo, J. Connolly, I. M. Povey, S. Iordanescu, A. Dinescu, D. Vasilache, M. Modreanu, “MoS2 radio: detecting radio-waves with a two-dimensional (2D) transition metal dichalcogenide semiconductor,” Nanotechnology 31 (2020) 06LT01, Nov. 2019 (ISI Journal), DOI: 10.1088/1361-6528/ab5123 (with acknowledgment to the project)

Conferences / Papers published in Proceedings

  1. M. Aldrigo, M. Dragoman, D. Masotti, “Metal-Insulator Transition in Monolayer MoS2 for Tunable and Reconfigurable Devices”, Proc. of 41st International Semiconductor Conference (CAS), pp. 101-104, 10-12 October 2018 – “Best Paper Award CAS 2018”, DOI: 10.1109/SMICND.2018.8539834 (with acknowledgment to the project)
  2. M. Aldrigo, M. Dragoman, S. Iordanescu, D. Vasilache, A. Dinescu, M. Shanawani, D. Masotti, “Graphene diodes for 5G energy harvesting:  design, simulations and experiments,” Proc. of 49th European Microwave Week Conference, pp. 37-40, 29 September-4 October 2019 (with acknowledgment to the project)
  3. M. Aldrigo, M. Dragoman, S. Iordanescu, A. Dinescu, D. Vasilache, I. Povey, M. Modreanu, “Microwave detection with MoS2-based self-switching diodes,” accepted for oral presentation at the 42nd International Semiconductor Conference (CAS), 9-11 October 2019 (with acknowledgment to the project)
  4. M. Aldrigo, M. Dragoman, S. Iordanescu, F. Nastase, D. Vasilache, and A. Ziaei, “Gain tunability of graphene patch antennas for the ISM band at 24 GHz,” iWAT2020 (2020 International Workshop on Antenna Technology), 25-28 February 2020, Bucharest, Romania, DOI: 10.1109/iWAT48004.2020.1570609136 Invitated for an extended version to be published in “Sensors”, ISSN/eISSN: 1424-8220 (with acknowledgment to the project)

¤ Team project

¤ Objectives:

The present Postdoc project aims at achieving the following objectives.

  • Choice of the best 2D material(s) for antennas and switches: the initial choice will be monolayer MoS2, thanks to its MIT behaviour at low voltages (around 2.2 V) and to its sensitivity to temperature. This peculiar behaviour of MoS2 will allow creating a TMA whose radiation characteristics can be tuned by an applied voltage/a temperature gradient.
  • Electrical characterisation of MoS2 and other 2D materials: the material(s) will be transferred on a bulk substrate (namely, high resistivity silicon - HRSi - and silicon dioxide - SiO2).
  • Design of a TMA based-component, i.e. 2D material-based antenna and switch, which create at the same time a „rectenna” (since the switch is essentially a diode).
  • Fabrication of the TMA based-component and its experimental characterisation in DC and at microwaves.
  • Fabrication and experimental characterisation of a 2D material-based TMA with up to 8 elements.
  • Integration of the fabricated tag with an ad-hoc or off-the-shelf sensor (e.g. temperature or pressure). This will represent the final demonstrator of the project.
    [more details]

¤ Results

  • Exploitation of the last (and often unknown) 2D materials, especially the so-called 2D chalcogenides, for integration with the „smart” RFID tag. In detail, 2D materials will be used for both the linear (antennas) and nonlinear (switches) components involved in the project. To the proponent’s knowledge, no solution has been proposed so far to integrate 2D materials in RFID/WSNs systems.
  • Design of a „smart” RFID (semi-) passive tag, operating in the X-band (i.e. in the 8 - 12 GHz frequency range), thus extending the classical microwave range of RFID systems. The tag project will be based upon the so-called Time-Modulated Arrays (TMAs).
    [more details]
  

¤ Project coordinated by:

National Institute for Reseatch and Development in Microtechnologies- IMT Bucharest
http://www.imt.ro/
 

¤ Project financed by:

General Information   Contact
Project financed by PNIII, P1, Programme Human Resources, Postdoctoral research project, PN-III-P1-1.1-PD-2016-0535
Contract No. 58/2.05.2018		  

National Institute for Research and Development in Microtechnologies- IMT Bucharest
Project manager: Dr. Martino Aldrigo
E-mail: [email protected]
Phone:  +40-21-269.07.70/ int 267; +40-21-269.07.74;
Fax: +40-21-269.07.72; +40-21-269.07.76;
Website: www.imt.ro
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