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[[File:Luca Selmi.jpg|210px|left]]
[[File:Luca Selmi.jpg|210px|left]]


Ph.D in Electrical Engineering
Ph.D. in Electrical Engineering


Professor of Electronics
Professor of Electronics
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Mobile: (+39) 320 4365969
Mobile: (+39) 320 4365969


The [http://www.elettronica.unimore.it Electronics Laboratories]
[http://www.elettronica.unimore.it Micro- and Nanoelectronics Laboratories]


'''MY ORCID CODE'''
'''ORCID CODE'''


0000-0001-8688-4326
0000-0001-8688-4326


<br>
<br>


=== Research Interests and Activities ===
=== Research Interests, Contributions, and Activities ===
 
AREA ADVANCED AND EMERGING MICRO/NANOELECTRONIC DEVICES FOR DIGITAL SWITCHING AND ANALOG APPLICATIONS
 
* Modelling and simulation of nanoelectronic switches for energy-efficient ultra-low power electronics (finFET, FDSOI, nanosheet, CFET, TFET, Cold source)
* Advanced electronic devices for cryo-CMOS and quantum computing, with emphasis on noise/fluctuations
* Scaled transistors in alternative semiconductor channel materials (III-V,2D, WBG)
* Self-heating and performance degradation in modern nanoelectronic transistors and vertical integration technologies
* Characterization, modeling and simulation of carrier transport, impact ionization, hot carrier effects, hot carrier induced luminescence, degradation and reliability in advanced electron devices
 
AREA ADVANCED AND EMERGING MICRO/NANOELECTRONIC BIOSENSORS AND ENVIRONMENTAL SENSORS
 
* Modelling and simulation of nanoelectronic devices for ion-, particle- and bio-sensing
* High-frequency impedance spectroscopy for detection and fingerprinting of nanoscale bioanalytes
* High-frequency impedance spectroscopy for detection and continuous monitoring of environmental micro/nano-particle and plastics pollution
 
PAST ACTIVITIES


* Modeling and simulation of nanoelectronic ion- and bio-sensors
* High frequency impedance spectroscopy for reliable biosensing of nanoscale analytes
* Nanometer size MOSFETs in augmented silicon and III-V compound semiconductor channel materials
* Modeling and simulation of nanoelectronic switches for energy efficient ultra-low power electronics
* Carrier transport in Ultra thin body SOI devices
* Hot carrier effects characterization and modeling
* Flash EEPROM operation and reliability
* Flash EEPROM operation and reliability
* Hot carrier induced luminescence in Silicon devices
* Design of high-frequency circuits for telecom applications in bulk and FinFET technologies
* Impact ionization in Silicon Bipolar transistors
* Design of high frequency circuits for telecom applications in bulk and FinFET technologies


=== Topics for Bachelor, Master and PhD Thesis ===
=== Topics for Bachelor, Master, and Ph.D. Thesis ===


* [[Media:Proposta tesi INFET- 2019.pdf|Design and Optimization of vertical nanowire devices for neurophysiological studies and epilepsy treatment]]
* [[Media:Proposta_Noise.pdf|1/f noise in nanoscale transistors down to cryogenic temperatures for quantum applications]] (MSc, PhD)


* [[Media:Proposta_tesi_INFET-2_Iontronics2.pdf|Modeling Simulation and Design of Iontronic Devices for Ionic Neurostimulation]]
* [[Media:Proposta_Self-heating_in_FinFETs_and_FDSOI_transistors.pdf|Nanosecond timescale self-heating effects in advanced FinFET and FDSOI nanoscale MOSFETs]] (MSc, PhD)


* [http://www.ict.unimore.it/ict_docs/phd_topics/34Ciclo/Schede_dott_ICT_2018-SELMI.pdf Simulation and Characterization of massively parallel nanobiosensor arrays]
* [[Media:Proposta_ATTOSWITCH.pdf|Attojoule MOSFET switches in 2D-3D materials for ultra-low power electronics]] (MSc, PhD)


* [[Media:Proposta_Nanoscale_devices2.pdf|Advanced electron devices for energy efficient electronics]]
* [[Media:LDMOSfinFETs.pdf|Advanced LDMOS transistors in finF£T technologies]] (MSc, PhD)


* [New scientific software tools for educational purposes]
* [Design of degradable components for massive deployment of environmentally sustainable RFID technology] (BSc, MSc)


* [Readout circuits for impedance spectroscopy sensors]
* [http://www.ict.unimore.it/ict_docs/phd_topics/34Ciclo/Schede_dott_ICT_2018-SELMI.pdf High-frequency impedance spectroscopy with nanobiosensor arrays] (MSc, PhD)


* [Approximate computing methods and circuits]
* [[Media:Master_thesis_with_internship_at_S.A.L.pdf|Virus detection with nanobiosensor arrays and ML/AI algorithms (including stage at Silicon Austria Labs - https://silicon-austria-labs.com/)]] (MSc)


* [In-memory and In-sensor computing]
* [[Media:Proposta tesi INFET- 2019.pdf|Design and Optimization of vertical nanowire devices for neurophysiological studies and epilepsy treatment]] (MSc, Ph.D. - in collaboration with the EU H2020 IN-FET project)
 
* [[Media:Proposta_tesi_INFET-2_Iontronics2.pdf|Modelling Simulation and Design of Iontronic Devices for Ionic Neurostimulation]] (MSc, PhD - in collaboration with the EU H2020 IN-FET project)
 
* [[Media:Proposta_Nanoscale_devices2.pdf|Advanced electron devices for energy-efficient electronics]] (MSc, PhD)
 
* [DNA memory for ultimately low-power and massive storage] (BSc, MSc)
 
* [Anaysis of interdigitated capacitor sensors for particle detection] (BSc, MSc)
 
* [New scientific software tools for educational purposes] (BSc, MSc)
 
* [Readout circuits for impedance spectroscopy sensors] (BSc, MSc)
 
* [Solid state batteries for future electronics] (BSc, MSc)
 
* [Approximate computing methods and circuits] (BSc, MSc)
 
* [Energy metrics for new computing paradigms] (BSc, MSc)
 
* [Sustainable, compostable, edible electronics] (BSc, MSc)
 
* [In-memory and In-sensor computing] (BSc)


=== Research Projects ===
=== Research Projects ===


I am currently participating to the following research projects (last updated April 2020):
I am currently scientifically involved in the following research projects (last updated June 2024):


* European H2020 project IN-FET - Ionic Neuromodulation For Epilepsy Treatment (2020-2023), italian participation coordinated by the UniMORE unit of the IUNET consortium.
* European HEUROPE project ATTOSWITCH - Dirac Cold-Source Transistor Technologies for Attojoule Switching (2024-2027) [https://www.attoswitch.eu www.attoswitch.eu], Coordinated by IUNET and UniMORE.
* European H2020 project BEFERROSYNAPTIC - BEOL Technology Platform Based on Ferroelectric Synaptic Devices for Advanced Neuromorphic Processors (2020-2022), italian participation coordinated by the Udine unit of the IUNET consortium.
* European ECSEL project GAN4AP - GaN for Advanced Power Applications (2021-2024) [https://cordis.europa.eu/project/id/101007310/it project website], participation via the IUNET consortium.
* European Flag-ERA HESN project CONVERGENCE - Frictionless Energy Efficient Convergent Wearables For Healthcare And Lifestyle Applications (2017-2020), italian participation coordinated by the Udine unit of the IUNET consortium.
* National PNRR Ecosystems for innovation project ECOSISTER [https://www.ecosister.it www.ecosister.it], Spoke 6, Ecological transition based on HPC & data technology. Large scale, multiphysics electrothermal simulations of advanced electronics components for performance and reliability estimation
* European ECSEL project ARROWHEAD TOOLS - Arrowhead Tools for Engineering of Digitalisation Solutions (2019-2021), participation via the IUNET consortium.
* National PNRR HEAL-ITALIA project (partenariati estesi) [https://www.healitalia.eu/ www.healitalia.eu], Spoke 6, Devices. Investigation of high frequency impedance spectroscopy nanobiosensors for precision medicine
* Italian MIUR PON project ADAS+ - Sviluppo di Tecnologie e Sistemi Avanzati per la Sicurezza dell'Auto Mediante Piattaforme ADAS (2018-2020) italian participation coordinated by the Modena unit of the IUNET Consortium.
* Italian MIUR project PRIN 2017 - Empowering GaN-on-SiC and GaN-on-Si technologies for the next challenging millimeter-wave applications (GANAPP)  (2020-2023) coordinated by the Padova unit.
* Italian MIUR project PRIN 2015 - Rivelatori di raggi X in semiconduttori ad alto numero atomico per sorgenti di nuova generazione e imaging medicale (2016-2019) coordinated by the Udine unit.


Over the years I held technical and coordination roles and responsibilities in the following research projects (last updated December 2019):
Over the years I held technical and coordination roles and responsibilities in the following research projects (last updated June 2024):


* Research contract with Infineon Technologies Villach on High Speed Serial Interfaces (HSSI)
* European H2020 project IN-FET - Ionic Neuromodulation For Epilepsy Treatment (2020-2023) [https://www.in-fet.eu www.in-fet.eu], Italian participation coordinated by the UniMORE unit of the IUNET consortium.
* European FP7 Strep project E2SWITCH - Energy Efficient Tunnel FET Switches and Circuits www.e2switch.org/ (2013-2017).
* European H2020 project BEFERROSYNAPTIC - BEOL Technology Platform Based on Ferroelectric Synaptic Devices for Advanced Neuromorphic Processors (2020-2022) [https://www.beferrosynaptic.eu www.beferrosynaptic.eu], Italian participation coordinated by the Udine unit of the IUNET consortium.
* European ECSEL project ARROWHEAD TOOLS - Arrowhead Tools for Engineering of Digitalisation Solutions (2019-2021) [https://www.arrowhead.eu/arrowheadtools www.arrowhead.eu], participation via the IUNET consortium.
* Italian MIUR PON project ADAS+ - Sviluppo di Tecnologie e Sistemi Avanzati per la Sicurezza dell'Auto Mediante Piattaforme ADAS (2018-2020) italian participation coordinated by the Modena unit of the IUNET Consortium.
* European Flag-ERA HESN project CONVERGENCE - Frictionless Energy Efficient Convergent Wearables For Healthcare And Lifestyle Applications [https://www.convergence-era.org www.convergence-era.org] (2017-2021), coordinator of the Italian cluster.
* European FP7 Strep project E2SWITCH - Energy Efficient Tunnel FET Switches and Circuits [https://www.e2switch.org www.e2switch.org] (2013-2017).
* European FP7 Strep project III-V-MOS - Technology CAD for III-V Semiconductor-based MOSFETs www.iii-v-mos-project.eu (2013-2017) coordinated by the Udine unit of the IUNET consortium.
* European FP7 Strep project III-V-MOS - Technology CAD for III-V Semiconductor-based MOSFETs www.iii-v-mos-project.eu (2013-2017) coordinated by the Udine unit of the IUNET consortium.
* European Working Group ULIS - Ultimate Integration on Silicon (5FP, 1999-2000)
* European Working Group ULIS - Ultimate Integration on Silicon (5FP, 1999-2000)
* European Strep Project NESTOR - New Double Gate Transistors (5FP, 2002-2004)
* European Strep Project NESTOR - New Double Gate Transistors (5FP, 2002-2004)
* European Coordination action EUROSOI - Silicon on Insulator Technology Devices and Circuits www.eurosoi.org (6FP, 2004-2006)
* European Coordination action EUROSOI - Silicon on Insulator Technology Devices and Circuits www.eurosoi.org (6FP, 2004-2006)
* European Network of Excellence SINANO - Silicon Based Nanoelectronics www.sinano.eu (6FP, 2004-2007, IST-506844). Watch the presentation movie.
* European Network of Excellence SINANO - Silicon Based Nanoelectronics [https://www.sinano.eu www.sinano.eu] (6FP, 2004-2007, IST-506844).  
* European Integrated Project PULL-NANO - PULLing the limits of NANO-CMOS electronics (6FP, 2006-2008)
* European Integrated Project PULL-NANO - PULLing the limits of NANO-CMOS electronics (6FP, 2006-2008)
* European Network of Excellence NANOSIL - SIlicon-based NAnostructures and naNOdevices www.nanosil-noe.eu (7FP, 2008-2011).
* European Network of Excellence NANOSIL - SIlicon-based NAnostructures and naNOdevices www.nanosil-noe.eu (7FP, 2008-2011).
* European Coordination Action GUARDIAN ANGELS - Guardian Angels for a Smarter Planet www.ga-project.eu (2011-2012).
* European Coordination Action GUARDIAN ANGELS - Guardian Angels for a Smarter Planet www.ga-project.eu (2011-2012).
* European ENIAC-JTI project MODERN - Modeling and Design of Reliable process-variation-aware Nanoelectronic devices, circuits and systems www.eniac-modern.org (2009-2012).
* European ENIAC-JTI project MODERN - Modelling, and Design of Reliable process-variation-aware Nanoelectronic devices, circuits, and systems www.eniac-modern.org (2009-2012).
* European Network of Excellent NANOFUNCTION - Beyond CMOS Nanodevices for Adding Functionalities to CMOS www.nanofunction.eu (7FP, 2010-2013).
* European Network of Excellent NANOFUNCTION - Beyond CMOS Nanodevices for Adding Functionalities to CMOS www.nanofunction.eu (7FP, 2010-2013).
* European Strep project STEEPER - Steep Subthreshold Slope Switches for Energy Efficient Electronics www.steeper-project.eu (7FP, 2010-2013).
* European Strep project STEEPER - Steep Subthreshold Slope Switches for Energy Efficient Electronics www.steeper-project.eu (7FP, 2010-2013).
* European Strep Project GRAND - Graphene-based Nanoelectronic Devices www.grand-project.eu (7FP, 2008-2010).
* European Strep Project GRAND - Graphene-based Nanoelectronic Devices www.grand-project.eu (7FP, 2008-2010).
* European Integrated Project GOSSAMER - Gigascale Oriented Solid State flAsh Memory for EuRope www.fp7-gossamer.eu (7FP, 2008-2010).
* European Integrated Project GOSSAMER - Gigascale Oriented Solid State flAsh Memory for Europe www.fp7-gossamer.eu (7FP, 2008-2010).
* European FP7 Strep project GRADE - Graphene-based Devices and Circuits for RF Applications www.grade-project.eu (2012-2016).
* European FP7 Strep project GRADE - Graphene-based Devices and Circuits for RF Applications www.grade-project.eu (2012-2016).


Line 92: Line 124:
* Italian MIUR project FIRB 2006 - RBIP06YSJJ - Tecnologie innovative per lo sviluppo di memorie non volatili ad alta densità
* Italian MIUR project FIRB 2006 - RBIP06YSJJ - Tecnologie innovative per lo sviluppo di memorie non volatili ad alta densità
* Italian MIUR project FIRB Futuro in Ricerca - RBFR10XQZ8 - Novel device and circuit concepts for energy-efficient electronics
* Italian MIUR project FIRB Futuro in Ricerca - RBFR10XQZ8 - Novel device and circuit concepts for energy-efficient electronics
* Italian MIUR project PRIN 2000 - Permeable gate CMOS circuits: are they feasible ?
* Italian MIUR project PRIN 2000 - Permeable gate CMOS circuits: are they feasible?
* Italian MIUR project PRIN 2002 - Sub 0.1 micron Bulk and SOI CMOS Technologies for High Performance and Low Power Applications
* Italian MIUR project PRIN 2002 - Sub 0.1 micron Bulk and SOI CMOS Technologies for High Performance and Low Power Applications
* Italian MIUR project PRIN 2004 - Innovative Architectures and Models for nanoMOSFETs
* Italian MIUR project PRIN 2004 - Innovative Architectures and Models for nanoMOSFETs
* Italian MIUR project PRIN 2006 - Conventional (bulk) versus emerging nanoscale CMOS technologies: a comparative evaluation from the device to the system level
* Italian MIUR project PRIN 2006 - Conventional (bulk) versus emerging nanoscale CMOS technologies: a comparative evaluation from the device to the system level
* Italian MIUR project PRIN 2008 - Modeling and simulation of graphene nanoribbon FETs for high-performance and low-power logic applications (GRANFET)
* Italian MIUR project PRIN 2008 - Modelling and simulation of graphene nanoribbon FETs for high-performance and low-power logic applications (GRANFET)
* Italian MIUR project PRIN 2015 - Rivelatori di raggi X in semiconduttori ad alto numero atomico per sorgenti di nuova generazione e imaging medicale (2016-2019) coordinated by the Udine unit.
* Italian MIUR project PRIN 2017 - Empowering GaN-on-SiC and GaN-on-Si technologies for the next challenging millimeter-wave applications (GANAPP) (2020-2023) coordinated by the Padova unit.


* Research contract with Taiwan Semiconductor Manufacturing Company - TSMC
* Research projects in collaboration with semiconductor companies such as Philips, NXP, Infineon, ST Microelectronics, TSMC
* Research contract with Philips research Eindohoven
* Research contract with Philips research Leuven
* Research contract with NXP Leuven
* Research contract with Infineon Technologies Munich
* Research contract with Infineon Technologies Villach


=== Italian University Nano-Electronics Team (IU.net Consortium) ===
=== Italian University Nano-Electronics Team (IU.net Consortium) ===


IU.net is a consortium of eleven research groups located in eleven Italian Universities and devoted to advanced research in the field of nano-electronics.  
IU.net is a consortium of fourteen research groups located at Italian Universities and devoted to advanced research in micro- and nano-electronics.  


More information can be found on the [http://www.iunet.info IUNET Consortium webpage]
More information can be found on the [http://www.iunet.info IUNET Consortium webpage]


=== UE documents on nano-electronics, visions of the future and scientific research ===
=== UE documents on nano-electronics, visions of the future, scientific research, and governance ===


* [https://www.nereid-h2020.eu/roadmap Nanoelectronics for Europe Roadmap 2019]
* [https://aeneas-office.org/wp-content/uploads/2021/01/2021_ECS-SRIA-final_1501.pdf Draft Strategic Research Agenda for Electronic Components and Systems 2021]
* [https://www.smart-systems-integration.org/system/files/document/5268--0480%20ECS-SRA%202019%20update%20-%20def%20%28ARTEMIS%29%281%29_1.pdf Electronic Components and Systems Strategic Research Agenda 2019]
* [https://www.nereid-h2020.eu/roadmap Nanoelectronics for Europe Roadmap, NEREID 2019]
* [https://ec.europa.eu/info/sites/info/files/srip-report-full_2018_en.pdf Science, Research and Innovation Performance in the EU 2018]
* [https://ec.europa.eu/info/sites/info/files/srip-report-full_2018_en.pdf Science, Research and Innovation Performance in the EU 2018]
* [https://ec.europa.eu/energy/sites/default/files/documents/batteries_europe_strategic_research_agenda_december_2020__1.pdf Batteries for Europe 2020]
* [https://www.flipsnack.com/Photonics21/photonics-strategic-research-and-innovation-agenda/full-view.html Photonics 2021]
* [https://op.europa.eu/en/search-results?p_p_id=eu_europa_publications_portlet_search_executor_SearchExecutorPortlet_INSTANCE_q8EzsBteHybf&p_p_lifecycle=1&p_p_state=normal&queryText=Late+lessons+from+early+warnings+%3A+science%2C+precaution%2C+innovation.&facet.collection=EUPub&startRow=1&resultsPerPage=10&SEARCH_TYPE=SIMPLE Late lessons from early warnings, European Environment Agency Report vol.1 and 2]


=== Publications ===
=== Publications ===
Line 122: Line 156:
=== Current teaching duties ===
=== Current teaching duties ===


* [https://offertaformativa.unimore.it/corso/insegnamento?cds_cod=20-268&aa_ord_id=2015&pds_cod=PDS0-2015&aa_off_id=2018&lang=eng&ad_cod=ENGIEM-001&aa_corso=1&fac_id=10005&coorte=2018&anno_corrente=2018&durata=2 Micro and NanoElectronics (Master degree in Electronics Engineering, English taugh)]
* [http://offertaformativa.unimore.it/corso/insegnamento?cds_cod=20-268&aa_ord_id=2020&pds_cod=20-268-1&aa_off_id=2020&lang=eng&ad_cod=ENGIEM-023&aa_corso=1&fac_id=10005&coorte=2020&anno_corrente=2020&durata=2 Electron Devices and Components (Master degree in Electronics Engineering, English taught, 7 CFU out of 9 total)]
 
* [http://offertaformativa.unimore.it/corso/insegnamento?cds_cod=20-268&aa_ord_id=2020&pds_cod=20-268-2&aa_off_id=2021&lang=eng&ad_cod=ENGIEM-034&aa_corso=2&fac_id=10005&coorte=2020&anno_corrente=2020&durata=2 NanoElectronics and Bioelectronics (Master degree in Electronics Engineering, English taught, 2 CFU out of 6 total)]
 
* [https://offertaformativa.unimore.it/corso/insegnamento?cds_cod=20-212&aa_ord_id=2015&pds_cod=PDS0-2015&aa_off_id=2019&lang=ita&ad_cod=INF-24&aa_corso=2&fac_id=10005&coorte=2018&anno_corrente=2018&durata=3 Elettronica per i Sistemi Digitali (Laurea triennale in Ingegneria Informatica, 4 ECTS out of 9 total)]
 
* [https://www.corsi.univr.it/?ent=cs&id=1001 Elettronica Analogica e Digitale con Laboratorio (Laurea Triennale Interateneo in Ingegneria dei Sistemi Medicali per la Persona presso Università di Verona, 6 ECTS out of 12 total)]
 
=== Past teaching duties at the University of Udine and University of Bologna ===


* [https://offertaformativa.unimore.it/corso/insegnamento?cds_cod=20-212&aa_ord_id=2015&pds_cod=PDS0-2015&aa_off_id=2019&lang=ita&ad_cod=INF-24&aa_corso=2&fac_id=10005&coorte=2018&anno_corrente=2018&durata=3 Elettronica Digitale (Laurea triennale in Ingegneria Informatica)]
* [https://offertaformativa.unimore.it/corso/insegnamento?cds_cod=20-268&aa_ord_id=2015&pds_cod=PDS0-2015&aa_off_id=2018&lang=eng&ad_cod=ENGIEM-001&aa_corso=1&fac_id=10005&coorte=2018&anno_corrente=2018&durata=2 Micro and NanoElectronics (Master degree in Electronics Engineering, English taught (until 2018-2019))]


=== Past teaching duties at University of Udine and University of Bologna ===
* [https://offertaformativa.unimore.it/corso/insegnamento?cds_cod=20-212&aa_ord_id=2015&pds_cod=PDS0-2015&aa_off_id=2019&lang=ita&ad_cod=INF-24&aa_corso=2&fac_id=10005&coorte=2018&anno_corrente=2018&durata=3 Elettronica Digitale (fino al 2023-2024)]


* [http://www.dpia.uniud.it/selmi/e2/welcome.html Digital Electronics (until 2002 - 2003)]
* [http://www.dpia.uniud.it/selmi/e2/welcome.html Digital Electronics (until 2002 - 2003)]
Line 147: Line 189:
* [[Media:Eco-Eluanax.pdf|Perché ho il diritto di scegliere la mia morte (U.Eco, Repubblica)]]
* [[Media:Eco-Eluanax.pdf|Perché ho il diritto di scegliere la mia morte (U.Eco, Repubblica)]]
* [[Media:PresidentObamaEducationspeech2009.pdf|Discorso sull'educazione (B.Obama, Wakefield High School, Arlington, Virginia, September 8, 2009)]]
* [[Media:PresidentObamaEducationspeech2009.pdf|Discorso sull'educazione (B.Obama, Wakefield High School, Arlington, Virginia, September 8, 2009)]]
* [[Media:StudiareLaFilosofia.pdf|Sullo studio. Estratto da "La dignità dell'uomo" (Pico della Mirandola, Einaudi)]]
* [[Media:Schwarzenegger.pdf|Da immigrante in questo paese (A.Schwarzenegger, On-line, January 10, 2021)]]
* [[Media:Calamandreix.pdf|A difesa della scuola nazionale (P.Calamandrei, III Congresso ADSN, Roma, 11 febbraio 1950)]]
* [[Media:Calamandreix.pdf|A difesa della scuola nazionale (P.Calamandrei, III Congresso ADSN, Roma, 11 febbraio 1950)]]
* [[Media:Apologo.pdf|Apologo sull’onestà nel paese dei corrotti (I.Calvino, La Repubblica, 15 marzo 1980)]]
* [[Media:Apologo.pdf|Apologo sull’onestà nel paese dei corrotti (I.Calvino, La Repubblica, 15 marzo 1980)]]
* [[Media:Rondolino.pdf|L'Italia non esiste (F.Rondolino, Mondadori)]]
* [[Media:Rondolino.pdf|L'Italia non esiste (F.Rondolino, Mondadori)]]
* [[Media:Serracchiani.pdf|Non ditemi ... (D.Serracchiani, 2016)]]
* [[Media:Infocrazia.pdf|Infocrazia (Byung-Chul Han, Einaudi)]]
* [[Media:Labatout-La_pietra_della_follia.pdf|La pietra della follia (Labatut, Adelphi)]]
* [[Media:LateLessons.pdf|Introduction to "Late lessons from early warnings" (J.McGlade, 2013)]]
* [[Media:PascaleMercier.pdf|Solidao (P.Mercier, Mondadori)]]
* [[Media:PascaleMercier.pdf|Solidao (P.Mercier, Mondadori)]]
* [[Media:Qoèlet (11, 1-4,6).pdf|Qoèlet (11, 1-4, 6)]]
* [[Media:Perdite.pdf|La nera schiena del tempo (Javier Marías, Einaudi)]]

Latest revision as of 09:35, 12 September 2024

Template:Luca Selmi

Welcome to my Home Page

Luca Selmi.jpg

Ph.D. in Electrical Engineering

Professor of Electronics

IEEE Fellow (2015)

Email: luca.selmi@unimore.it

Phones

Office: (+39) 059 2056165

Mobile: (+39) 320 4365969

Micro- and Nanoelectronics Laboratories

ORCID CODE

0000-0001-8688-4326



Research Interests, Contributions, and Activities

AREA ADVANCED AND EMERGING MICRO/NANOELECTRONIC DEVICES FOR DIGITAL SWITCHING AND ANALOG APPLICATIONS

  • Modelling and simulation of nanoelectronic switches for energy-efficient ultra-low power electronics (finFET, FDSOI, nanosheet, CFET, TFET, Cold source)
  • Advanced electronic devices for cryo-CMOS and quantum computing, with emphasis on noise/fluctuations
  • Scaled transistors in alternative semiconductor channel materials (III-V,2D, WBG)
  • Self-heating and performance degradation in modern nanoelectronic transistors and vertical integration technologies
  • Characterization, modeling and simulation of carrier transport, impact ionization, hot carrier effects, hot carrier induced luminescence, degradation and reliability in advanced electron devices

AREA ADVANCED AND EMERGING MICRO/NANOELECTRONIC BIOSENSORS AND ENVIRONMENTAL SENSORS

  • Modelling and simulation of nanoelectronic devices for ion-, particle- and bio-sensing
  • High-frequency impedance spectroscopy for detection and fingerprinting of nanoscale bioanalytes
  • High-frequency impedance spectroscopy for detection and continuous monitoring of environmental micro/nano-particle and plastics pollution

PAST ACTIVITIES

  • Flash EEPROM operation and reliability
  • Design of high-frequency circuits for telecom applications in bulk and FinFET technologies

Topics for Bachelor, Master, and Ph.D. Thesis

  • [Design of degradable components for massive deployment of environmentally sustainable RFID technology] (BSc, MSc)
  • [DNA memory for ultimately low-power and massive storage] (BSc, MSc)
  • [Anaysis of interdigitated capacitor sensors for particle detection] (BSc, MSc)
  • [New scientific software tools for educational purposes] (BSc, MSc)
  • [Readout circuits for impedance spectroscopy sensors] (BSc, MSc)
  • [Solid state batteries for future electronics] (BSc, MSc)
  • [Approximate computing methods and circuits] (BSc, MSc)
  • [Energy metrics for new computing paradigms] (BSc, MSc)
  • [Sustainable, compostable, edible electronics] (BSc, MSc)
  • [In-memory and In-sensor computing] (BSc)

Research Projects

I am currently scientifically involved in the following research projects (last updated June 2024):

  • European HEUROPE project ATTOSWITCH - Dirac Cold-Source Transistor Technologies for Attojoule Switching (2024-2027) www.attoswitch.eu, Coordinated by IUNET and UniMORE.
  • European ECSEL project GAN4AP - GaN for Advanced Power Applications (2021-2024) project website, participation via the IUNET consortium.
  • National PNRR Ecosystems for innovation project ECOSISTER www.ecosister.it, Spoke 6, Ecological transition based on HPC & data technology. Large scale, multiphysics electrothermal simulations of advanced electronics components for performance and reliability estimation
  • National PNRR HEAL-ITALIA project (partenariati estesi) www.healitalia.eu, Spoke 6, Devices. Investigation of high frequency impedance spectroscopy nanobiosensors for precision medicine

Over the years I held technical and coordination roles and responsibilities in the following research projects (last updated June 2024):

  • European H2020 project IN-FET - Ionic Neuromodulation For Epilepsy Treatment (2020-2023) www.in-fet.eu, Italian participation coordinated by the UniMORE unit of the IUNET consortium.
  • European H2020 project BEFERROSYNAPTIC - BEOL Technology Platform Based on Ferroelectric Synaptic Devices for Advanced Neuromorphic Processors (2020-2022) www.beferrosynaptic.eu, Italian participation coordinated by the Udine unit of the IUNET consortium.
  • European ECSEL project ARROWHEAD TOOLS - Arrowhead Tools for Engineering of Digitalisation Solutions (2019-2021) www.arrowhead.eu, participation via the IUNET consortium.
  • Italian MIUR PON project ADAS+ - Sviluppo di Tecnologie e Sistemi Avanzati per la Sicurezza dell'Auto Mediante Piattaforme ADAS (2018-2020) italian participation coordinated by the Modena unit of the IUNET Consortium.
  • European Flag-ERA HESN project CONVERGENCE - Frictionless Energy Efficient Convergent Wearables For Healthcare And Lifestyle Applications www.convergence-era.org (2017-2021), coordinator of the Italian cluster.
  • European FP7 Strep project E2SWITCH - Energy Efficient Tunnel FET Switches and Circuits www.e2switch.org (2013-2017).
  • European FP7 Strep project III-V-MOS - Technology CAD for III-V Semiconductor-based MOSFETs www.iii-v-mos-project.eu (2013-2017) coordinated by the Udine unit of the IUNET consortium.
  • European Working Group ULIS - Ultimate Integration on Silicon (5FP, 1999-2000)
  • European Strep Project NESTOR - New Double Gate Transistors (5FP, 2002-2004)
  • European Coordination action EUROSOI - Silicon on Insulator Technology Devices and Circuits www.eurosoi.org (6FP, 2004-2006)
  • European Network of Excellence SINANO - Silicon Based Nanoelectronics www.sinano.eu (6FP, 2004-2007, IST-506844).
  • European Integrated Project PULL-NANO - PULLing the limits of NANO-CMOS electronics (6FP, 2006-2008)
  • European Network of Excellence NANOSIL - SIlicon-based NAnostructures and naNOdevices www.nanosil-noe.eu (7FP, 2008-2011).
  • European Coordination Action GUARDIAN ANGELS - Guardian Angels for a Smarter Planet www.ga-project.eu (2011-2012).
  • European ENIAC-JTI project MODERN - Modelling, and Design of Reliable process-variation-aware Nanoelectronic devices, circuits, and systems www.eniac-modern.org (2009-2012).
  • European Network of Excellent NANOFUNCTION - Beyond CMOS Nanodevices for Adding Functionalities to CMOS www.nanofunction.eu (7FP, 2010-2013).
  • European Strep project STEEPER - Steep Subthreshold Slope Switches for Energy Efficient Electronics www.steeper-project.eu (7FP, 2010-2013).
  • European Strep Project GRAND - Graphene-based Nanoelectronic Devices www.grand-project.eu (7FP, 2008-2010).
  • European Integrated Project GOSSAMER - Gigascale Oriented Solid State flAsh Memory for Europe www.fp7-gossamer.eu (7FP, 2008-2010).
  • European FP7 Strep project GRADE - Graphene-based Devices and Circuits for RF Applications www.grade-project.eu (2012-2016).
  • Italian MIUR project FIRB 2001 - RBNE012N3X - Sistemi miniaturizzati per l'elettronica e la fotonica
  • Italian MIUR project FIRB 2006 - RBIP06YSJJ - Tecnologie innovative per lo sviluppo di memorie non volatili ad alta densità
  • Italian MIUR project FIRB Futuro in Ricerca - RBFR10XQZ8 - Novel device and circuit concepts for energy-efficient electronics
  • Italian MIUR project PRIN 2000 - Permeable gate CMOS circuits: are they feasible?
  • Italian MIUR project PRIN 2002 - Sub 0.1 micron Bulk and SOI CMOS Technologies for High Performance and Low Power Applications
  • Italian MIUR project PRIN 2004 - Innovative Architectures and Models for nanoMOSFETs
  • Italian MIUR project PRIN 2006 - Conventional (bulk) versus emerging nanoscale CMOS technologies: a comparative evaluation from the device to the system level
  • Italian MIUR project PRIN 2008 - Modelling and simulation of graphene nanoribbon FETs for high-performance and low-power logic applications (GRANFET)
  • Italian MIUR project PRIN 2015 - Rivelatori di raggi X in semiconduttori ad alto numero atomico per sorgenti di nuova generazione e imaging medicale (2016-2019) coordinated by the Udine unit.
  • Italian MIUR project PRIN 2017 - Empowering GaN-on-SiC and GaN-on-Si technologies for the next challenging millimeter-wave applications (GANAPP) (2020-2023) coordinated by the Padova unit.
  • Research projects in collaboration with semiconductor companies such as Philips, NXP, Infineon, ST Microelectronics, TSMC

Italian University Nano-Electronics Team (IU.net Consortium)

IU.net is a consortium of fourteen research groups located at Italian Universities and devoted to advanced research in micro- and nano-electronics.

More information can be found on the IUNET Consortium webpage

UE documents on nano-electronics, visions of the future, scientific research, and governance

Publications

Publications (link to the IRIS database)

Current teaching duties

Past teaching duties at the University of Udine and University of Bologna

Miscellanea