IESL-FORTH
Published on IESL-FORTH (https://www.iesl.forth.gr)


Office Phone: (+30) 2810 39 4103
Lab Phone: (+30) 2810 39 4142
Fax: (+30) 2810 39 4106
Email: aek@physics.uoc.gr
Full CV: Download [1]
Publications PDF: Download [2]
Dr. Konstantinidis George
Research Director
  • About
  • Research Projects
  • Research Groups

Education

  • 1988, Ph.D in Solid state electornics, University of Salford, Department of Electronic & Electrical Engineering, U.K.
  • 1985, M.Sc in Solid state electronics, University of Salford, Department of Electronic & Electrical Engineering, U.K.
  • 1982, B.Sc in Applied physics, University of Salford, Department of Pure & Applied Physics, U.K.

Career

  • 12/2016 - today, Research director, Microelectornics Research Group, FORTH - IESL, Greece
  • 04/2004 - 12/2016, Senior application scientist, Microelectornics Research Group, FORTH - IESL, Greece
  • 07/1998 - 04/2004, Principal application scientist, Microelectornics Research Group, FORTH - IESL, Greece
  • 07/1995 - 07/1998, Associated application scientist, Microelectornics Research Group, FORTH - IESL, Greece
  • 05/1990 - 07/1995, Postdoctoral fellow, Microelectornics Research Group, FORTH - IESL, Greece
  • 12/1989 - 05/1990, Software developer, Eltrans international transport S.A,
  • 03/1989 - 11/1989 Software developer, National defense research centre, Greece
  • 02/1988 - 05/1988, Postdoctoral fellow, Microelectornics Research Group, FORTH - IESL, Greece

Interests

  • High frequency & high power devices: FETs, HEMTs, PHEMTs, MO(I)SFETs (III-arsenides & III-nitrides)
  • High power devices: MESFETS, JFETs, IMPATT & ZENER diodes (SiC)
  • High frequency & high power MMICs (III-arsenides & III-nitrides)
  • THz diodes (III-arsenides)
  • III-nitrides Nanowire and FINFET transistors
  • Magnonics
  • 2D materials based transistors, CNT based devices
  • GaN based Qubits
  • III-nitrides based UV detectors
  • III-arsenides & III-nitrides photovoltaics
  • III-nitrides SAW & FBAR based sensors
  • III-nitrides CHEMFET based chemical sensors
  • III-nitrides LAMB based biosensors
  • Arrays of polymeric microneedles based EEG sensors
  • Piezoelelectric sensors for gait monitoring
  • RF MEMS Piezoelectric (III-nitrides) cantilevers
  • Thermoelectric materials and devices
  • Left handed & photonic structures
  • Reconfigurable front end transmission/reception modules
  • 3D system in chip (SiP) solutions for high power miniaturized modules

Awards/Prizes/Distinctions

  • 2018, Elected as Vice President of the Greek Micro and Nano Society
  • 2016, Re-elected to the Scientific Council of IESL (1st in preference)
  • 2013, Elected to the Scientific Council of IESL
  • 2007, Re-elected Vice President of the Greek Micro and Nano Society
  • 2005, Key member of the research team of FORTH (project FP6 “DALHM”) that won one of the EU Descartes prizes
  • 2004, Elected as Vice President of the Greek Micro and Nano Society
  • 2003, Elected to the Board of Directors of the European Microwave Association (EuMA) for 3 years
  • 2003, Prize "Tudor Tanasescu" of the Romanian Academy of Sciences for my work in the membrane supported active & passive devices
  • 2002, MRG Leader in the project FP4 INCO-COPERNICUS project "MEMSWAVE" (co- ordinated by IMT Bucharest), that was among the 10 finalists for the EU Descartes prize.
  • Quantum Technologies [3]
  • High frequency electronics & smart systems [4]
  • Carbon and 2D electronics [5]
  • Semiconductor heterostructures & Nanostructures [6]
A system for monitoring sleep and healthy living with low energy radio technology [7]
Intelligent Reliability 4.0 [8]
Pilot line production of transceiver modules of the next generation of smart RF power applications [9]
Heterogeneous 3D integration using breakthrough nanotechnologies for new generation microwave power transceivers [10]
[11]
Integrated Qubits towards Future High-Temperature Silicon Quantum Computing Hardware Technologies [12]
Spin Wave Computing for Ultimately-Scaled Hybrid Low-Power Electronics [13]
Experimental and theoretical studies of physical properties of low dimensional quantum nanoelectronic systems [14]
Carbon Based Smart Systems For wireless applications [15]

Links
[1] https://www.iesl.forth.gr/sites/default/files/cv-en/George%20Konstantinidis%20FULL%20CV%202018%20DECEMBER%20without%20publications.pdf
[2] https://www.iesl.forth.gr/sites/default/files/publications/George%20Konstantinidis%20DECEMBER%202018%20PUBLICATIONS.pdf
[3] https://www.iesl.forth.gr/en/research/MRG_quantum
[4] https://www.iesl.forth.gr/en/research/MRG_RF_systems
[5] https://www.iesl.forth.gr/en/research/MRG_flatland
[6] https://www.iesl.forth.gr/en/research/MRG_material
[7] https://www.iesl.forth.gr/en/project/healthsonar
[8] https://www.iesl.forth.gr/en/project/irel40
[9] https://www.iesl.forth.gr/en/project/smartec
[10] https://www.iesl.forth.gr/en/project/radar
[11] https://www.iesl.forth.gr/en/people/konstantinidis-george
[12] https://www.iesl.forth.gr/en/project/iqubits
[13] https://www.iesl.forth.gr/en/project/chiron
[14] https://www.iesl.forth.gr/en/project/einstein
[15] https://www.iesl.forth.gr/en/project/nanorf