Category Archives: IPCF-BA

Delre Annalisa

Panniello Annamaria

Denora Nunzio

DENORA NUNZIO CV carta intestata 2018

Triggiani Leonardo

Triggiani CV_Dec2017_ITA

Fanizza Elisabetta

Curriculum e Competenze

Fanizza CV

 

Pubblicazioni CNR
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Depalo Nicoletta

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Ingrosso Chiara

Esperienze Lavorative

Scientific project management and participation:
• March 2014-March 2016: Scientific Responsible for the CNR-IPCF Unit of the National Research Project PRIN 2013 “Diagnostic nanostructured devices for monitoring of biomarkers in cancer” prot. 20128ZZS2H. Coordinator: Dr.ssa Ilaria Palchetti. Research activity: synthesis and characterization of nanocomposite materials based on colloidal semiconducting NCs and i) metal nanoparticles, ii) carbon nanotubes and iii) graphene and of hybrids made of graphene or carbon nanotubes functionalized with biomolecules for (photo)electrochemical detection of cancer biomarkers.
• Dicember 2012-today participation to 7 FP Collaborative European Project NMP 2012.2.2.2-6 LIMPID (n. 310177) Nanocomposite Materials for Photocatalytic Degradation of Pollutants Coordinator Dr. M.L. Curri (CNR Italy) Research activity: synthesis and characterization of nanocomposite materials based on II-VI semiconducting NCs and ionic liquids, polymeric ionic liquids for preparing a new generation of hybrid materials to integrate in photovoltaic devices, capacitors and lithium batteries.
• October 2009-September 2013: participation to FP7 EU ORION Ordered Organic-Inorganic Hybrids Using Ionic Liquids For Emerging Applications EU FP7 NMP-2008-Large-2 NMP-2008-2.4-1 Inorganic-Organic Hybrid Materials. Coordinator Dr. David Mecerreyes (CIDETEC Spain), Scientific Responsible for IPCF-CNR: Dr. Marinella Striccoli. Research activity: design, synthesis and characterization and surface functionalization of II-VI semiconducting colloidal NCs and semiconducting oxide NCs and their incoporation in ionic liquids for fabricating novel hybrid materials for photoconversion.
• 2009 – 2010: participation to NANOPLATFORM Interfacing single nanoparticles embedded in ultra thin polymers layers Bilateral Programme Italy-Spain in the frame of a coperative agrement between CNR-IPCF e CSIC (Spain). Scientific Responsible for IPCF-CNR: Dott.ssa M. L. Curri. Reaserach Activity: design, synthesis, characterization and incorporation of single colloidal NC oxides and Au nanoparticles in polymer films for their interfacing and creation of electric contacts.
• February 2005 – April 2008: participation to FP6 EU STREP NOVOPOLY Novel functional polymer materials for MEMS and NEMS applications (contr. n. STRP 013619) 6 FP EU Coordinator Prof. Francesc Perez-Murano (CNM CSIC Spain). Scientific Responsible for IPCF-CNR: Dott.ssa M. L. Curri. Reaserach Activity: design, synthesis, characterization and surface functionalization of semiconducting oxide NCs and II-VI semiconducting NCs for the modification of functional polymers for the fabrication of microstructured devices.

Co-rapporteur of:
• Bachelor Thesis in Scienza e Tecnologia dei Materiali, title: “Funzionalizzazione di nanoparticelle di TiO2 per incorporazione in polimeri per applicazioni di interesse ambientale”.
• Bachelor Thesis in Scienze Chimiche, title: Materiali ibridi a base di nanocristalli colloidali di PbS e grafene per applicazioni optoelettroniche.
• Bachelor Thesis in Scienza e Tecnologia dei Materiali, title: Assembly di nanoparticelle colloidali con copolimeri a blocchi: fabbricazione e caratterizzazione.
• Bachelor Thesis in Scienza e Tecnologia dei Materiali, title: Funzionalizzazione Chimica superficiale di nanocristalli colloidali per applicazioni optoelettroniche.
• Thesis Tesi di Laurea Specialistica in Scienza e Tecnologia dei Materiali, (a.a. 2007-2008), title: Nanocompositi ibridi basati su nanocristalli colloidali e polimeri organici per ink-jet printing.

Co-tutor of:
• PhD Thesis in Chimica dei Materiali Innovativi, title: Materiale nanostrutturati per la conversione dell’energia (a.a. 20092012) XXIV Ciclo
• Tesi di Laurea quinquennale in Chimica, (a.a. 2005-2006), thesis title: Caratterizzazione di un sistema ibrido semiconduttore nanocristallino/ftalocianina.

Awards and honors
• May 2013, Inside Front Cover Page of Chem Comm 2013, 49, 6941;
• November 2011: Inside Front Cover Page of Nanoscale 2011, 3, 4632;
• November 2010 she has been mentioned in Chem. Eur. J. 2010, 16, 13888 among the young chemist researchers for the assignment of the Award “The European Young Chemist Award 2010”;
• March 2008: winner of a Puglia Region Fellowship for a research period abroad;
• September 2007: Cover Page of Adv. Funct. Mater. 2007, 17, 1999

Invited Talks:
“Graphene decorated with colloidal nanoparticles: new opportunities for functional hybrid materials” Energy Materials and Nanotechnology, June 21-24, 2016, Prague, Czech Republic
“Photoactive hybrid material based on pyrene functionalized colloidal nanocrystals and CVD monolayer graphene”, Nanotechnology and Materials Science Conference, April 13-15, 2015 Dubai, UAE.

Attività di formazione

• 23 July 2004, Degree in Chemistry 110/110 cum laude with the thesis on ” Preparazione e Caratterizzazione di strutture ibride semiconduttore nanocristallino/ftalocianina”
• 28 March 2008 PhD in Chemistry with a thesis on “Hybrid organic/inorganic materials based on colloidal nanocrystals towards sensing applications” (2004-2007)
Career:
• Since November 2011: she is Permanent Scientist at National Research Council (CNR), Institute for Physical and Chemical Processes (IPCF), U.O.S of Bari, c/o Chemistry Department, Via Orabona 4, I-70126, Bari, Italy
• November 2011 – March 2010: Scientist (temporary position) (DPR 171/91) at CNR Institute of Microelectronic and Microsystems (CNR-IMM) U.O.S of Lecce. Research Activity: methods for preparation and characterization of nanostructured oxides for sensors and sensor arrays for the detection of volatile compounds.
• May 2008 – March 2010: Post-doctoral Research Fellowship at the Department of Chemistry of University of Bari, (co-funded by CNR-IPCF, Bari). Research activity: design, synthesis and characterization of colloidal nanocrystals (NCs) (semiconducting oxides and II-VI semiconductors); preparation and characterization of hybrid materials based on colloidal NCs and functional polymers, ionic liquids or phthalocyanines for sensing and optoelectronic applications.
• February – April 2008: Post-doctoral Research Fellowship, at CNR-IPCF U.O.S of Bari. Research activity: design, synthesis and characterization of semiconducting colloidal NCs and their immobilization on substrates for photocatalytic processes.
• December 2004 –February 2005: Research Fellowship for graduated students. Research activity: design, synthesis and characterization of semiconducting colloidal NCs and their incorporation in polymers for the preparation of thin films for vapor and gas sensing.

Visiting research appointments
• December 10-19, 2009: Visiting scientist at Microelectronics Institute-Centro Nacional de Microelectrónica del Consejo Superior de Investigaciones
Científicas (IMB-CNM-CSIC), Barcelona, Spain in the group of Prof. Francesc Perez-Murano. Research activity: design, synthesis, characterization and incorporation of single colloidal oxide semiconducting NCs and Au nanoparticles in polymer films for their interfacing and creation of electric contacts.
• January 29 – July 16, 2009: Visiting Postdoctoral Fellow Researcher at Department of Micro- and Nanotechnology, Technical University of Denmark (NanoDTU), in the group of Prof.ssa Anja Boisen. Research activity: design, synthesis, characterization and incorporation of colloidal Au nanoparticles in SU8 polymer, for the fabrication of actuators; design, synthesis and characterization of colloidal oxide semiconducting NCs and their immobilization on arrays of microcantilever sensors on SU8 to integrate in electronic noses for vapour and liquid sensing;
• June 16 – July 24, 2008: Visiting scientist at Laboratoire de Microsystèmes, Institute de Microeléctronique et Microsystèmes 1 (LMIS1), École Polytechnique Fédérale de Lausanne (EPFL), Lausanne, Switzerland, in the group of Prof. Juergen Brugger. Research Activity: design, synthesis and characterization of IIVI semiconducting colloidal NCs and incorporation in semiconducting polymers for the fabrication of optoelectronic microcomponents by ink-jet printing;
• May 20 – June 1th 2007: Visiting scientist at Laboratoire de Microsystèmes, Institute de Microeléctronique et Microsystèmes 1 (LMIS1), École Polytechnique Fédérale de Lausanne (EPFL), Switzerland in the group of Prof. Juergen Brugger. Research Activity: design, synthesis, characterization and incorporation of II-VI semiconducting colloidal NCs in polymers for the fabrication of microcomponents by ink-jet printing and UV-lithography for sensing and optoelectronic applications.

Member of the Scientific Committee: of “The First International Meeting on Advanced Dielectric Materials and Applications (IMADMA 2016)” Kenitra – Rabat, Morocco, May 4- 6, 2016

Attività di Ricerca

Synthesis of colloidal nanoparticles NPs and nanocrystals (NCs), namely Au NPs, TiO2 NCs spherical and elongated in shape, CdS NCs, CdSe NCs, CdSe@ZnS NCs-core shell, PbS NCs, ZnO NCs, Fe2O3 NCs, TiO2/Fe2O3 NCs, also in quantum confinement regime, with control on size shape and crystalline phase.

Synthesis of hybrid materials based on graphene and colloidal NPs/NCs, namely G/Au NPS, G/TiO2 NCs, G/PbS NCs for sensors, optoelectronic devices and (photo)catalytic systems.

Characterization of colloidal NPs/NCs with UV-vis-NIR absorption, luminescence and FTIR spectroscopy, structural (transmission microscope, X-ray powder diffraction) and morphological (AFM, SEM) techniques;

Functionalization of NC/NP surface by organic surface chemistry exchange procedures for the modification of their surface chemistry for incorporation in polymers, immobilization on surfaces, functionalization of carbon based nanostructured materials (carbon nanotubes and graphene) and conjugation to biomolecules;

Non covalent functionalizion of large area monolayer graphene films, grown by chemical Vapor Deposition (CVD) with colloidal NCs for integration in photodectors, optical imaging and information communication systems.

Preparation and characterization of hybrid materials based on carbon nanotubes and graphene with biomolecules for sensing applications.

Preparation and characterization of super-hydrophobic and photocatalytic coatings based on organic-inorganic photostructurable polymer formulations and surface functionalized colloidal TiO2 NCs.

Preparation and characterization of assemblies of organic-coated NPs organized by chemical interactions on selected domains of di-block copolymers.

Preparation and characterization of nanocomposites based on colloidal luminescent NCs (CdSe also coated by a shell of NC ZnS) and semiconducting oxide NCs (TiO2) for their homogeneous incorporation in ionic liquids or polymeric ionic liquids for photovoltaic applications.

Preparation of NC based nanocomposites based on colloidal NCs and structurable polymers for fabricating microcomponents by means of either conventional and emerging lithography techniques, such as UV-photolithography, ink-jet printing and nanoimprint lithography for fabricating AFM probes, actuators, luminescent permanent microcomponents for light sensing and emitting applications.

Immobilization of colloidal oxide NCs on microcantilever sensors made of a photostrurable polymer to integrate in electronic noses for detecting organic vapour compounds.

Preparation and characterization of both layer-by-layer and bulk hybrid heterojunctions based on thin films of semiconducting conjugated polymers and semiconducting oxide colloidal NCs and their photoelectrochemical characterization for energy conversion applications.

Photoelectrochemical investigation of layer-by-layer hybrid heterojunctions based on colloidal semiconducting oxide NCs and metal phtalocyanine sensitizers.

AFM characterization of nanostructured films fabricated by plasma processes, proteins and DNA filaments.

Competenze

Expert in:
– chemical colloidal synthesis of nanocrystals (NCs) and nanoparticles (NPs) and of hybrid materials based on NCs/NPs and carbon based compounds (CNTs and graphene)
– characterization pf nanostructures by UV-vis-NIR absorption, luminescence and FTIR spectroscopy, structural (transmission microscope, X-ray powder diffraction) and morphological (AFM, SEM) techniques.
– functionalization of NC/NP surface by organic surface chemistry exchange procedures for the modification of their surface chemistry for incorporation in polymers, immobilization on functional surfaces, functionalization of carbon based nanostructured materials (carbon nanotubes and graphene) and conjugation to biomolecules.
-preparation and characterization of both layer-by-layer and bulk hybrid heterojunctions based on thin films of semiconducting conjugated polymers and semiconducting oxide colloidal NCs and their photoelectrochemical characterization for energy conversion applications.

Pubblicazioni
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Tommasi Raffaele

 

ESPERIENZA PROFESSIONALE

dicembre 2004–oggi Professore associato di fisica applicata (SSD FIS07)

Università degli Studi di Bari Aldo Moro, Piazza Umberto I – 70121 Bari (I) Insegnamento in corsi universitari Studio delle proprietà ottiche di materiali organici, inorganici e ibridi utilizzando tecniche spettroscopiche lineari, nonlineari e ultraveloci. Implementazione di un sistema per la Terahertz Time-Domain Spectroscopy (THz-TDS)

febbraio 2001 Visiting Scientist

Università di Aarhus, Nordre Ringgade 1, 8000 Aarhus (Danimarca) Stage finalizzato allo sviluppo di un sistema per la Terahertz Time-Domain Spectroscopy (THzTDS)

dicembre 1995–dicembre 2004 Ricercatore Universitario (SSD B01B)

Università degli Studi di Bari Aldo Moro, Piazza Umberto I, 70121 Bari (Italy) Insegnamento in corsi universitari, di laboratorio ed esercitazioni Studio delle proprietà ottiche di materiali organici e inorganici a bassa dimensionalità utlizzando tecniche spettroscopiche lineari e nonlineari

novembre 1994–agosto 1995 Ricercatore CNRS

Centre Nationale de la Recherche Scientifique (CNRS), Ecole Polytechnique, Route de Saclay, 91128 Palaiseau Cedex (FR) Studio dei processi d’interazione ultrarapidi elettrone-fonone nei semiconduttori

agosto1994–ottobre 1994 Borsista INFM

Università degli Studi di Bari Aldo Moro, Piazza Umberto I, 70121 Bari (Italy) Implementazione di un sistema spettroscopico di Z-scan ad uno- e due-colori

giugno 1993– luglio 1994 CNRS Stagiaire / Attaché de Recherche

Laboratoire d’Optique Quantique du Centre Nationale de la Recherche Scientifique (CNRS), Ecole Polytechnique, Route de Saclay, 91128 Palaiseau Cedex (FR) Implementazione di un sistema per la generazione non lineare di impulsi laser aifs sincronizzati e indipendentemente accordabili in frequenza

novembre 1992– maggio 1993 Borsista INFM

Università degli Studi di Bari Aldo Moro, Piazza Umberto I, 70121 Bari (Italy) Studio dei processi di assorbimento a multi-fotoni in sistemi di volume ed a ridotta dimensionalità

 

ISTRUZIONE E FORMAZIONE

1990–1992 Dottorato di Ricerca in Fisica (V ciclo)

Titolo della tesi: Processi di assorbimento a multifotoni in materiali di volume ed a dimensionalità ridotta Giudizio: ottimo; esame nazionale sostenuto nel settembre 2003, data ufficiale di conseguimento del titolo: 20/10/2005

1984–1989 Laurea in Fisica

Università degli Studi di Bari Titolo della tesi: Processi di assorbimento a due fotoni nei semiconduttori a buca quantica di GaAs/AlxGa1−xAs Votazione: 110/110 e lode

1978–1984 Maturità tecnica industriale con specializzazione in informatica

ITIS M. Panetti – Bari

 

ATTIVITÀ DI RICERCA

Campi di ricerca

– processi d’assorbimento a multifotoni in solidi cristallini di volume

– processi d’assorbimento a multifotoni in eterostrutture artificiali di semiconduttori a ridotta dimensionalità (2D, 1D, 0D)

– dinamica di rilassamento di portatori liberi in semiconduttori 3D

– dinamica di rilassamento di eccitazioni elementari in semiconduttori 2D

– processi ottici nonlineari e loro dinamica temporale in materiali sia organici sia inorganici

– prototipo di ossimetro laser a fibre ottiche: realizzazione, valutazione della sicurezza e misure preliminari

– determinazione dell’ossigenazione dei tessuti biologici con metodi ottici non invasivi

– progettazione e realizzazione di un sistema per la generazione e la rivelazione di impulsi ultrabrevi (sub-picosecondo) nella regione spettrale del lontano infrarosso (100 GHz 3 THz) per applicazioni mediche ed ambientali

– progettazione e realizzazione di un sistema per lo Z-scan ad uno e a due colori per la misura di non linearità ottiche al terz’ordine

 

Tecniche sperimentali

– stimulated Raman scattering

– femtosecond broadband transient absorption (fs pump and probe)

– time-resolved upconversion luminescence (TR-PL)

– time-correlated single photon counting (TCSPC)

– terahertz time-domain spectroscopy (THz-TDS)

– one- and two-color Z-scan

– one- and two-photon absorption photoluminescence excitation (OPA-PLE, TPA-PLE)

– assorbimento UV-Vis-NIR

 

Materiali

– sistemi ibridi organico/inorganico

– materiali nanocompositi

– melanina, eumelanina

– molecole per fluoroangiografia

– polimeri e copolimeri

– liquidi ionici – solidi cristallini di volume, multi-quantum wells, quantum wires, quantum dots

 

COMPETENZE DIDATTICHE

– Insegnamenti in corsi universitari, esperienze di laboratorio ed esercitazioni dal 1996

• Fisica Medica, CdL in Medicina e Chirurgia

• Fisica Medica, numerosi CdL nelle Professioni Sanitarie

• Spettroscopia, CdL Fisica Specialistica

• Spettroscopia, CdL Scienza dei Materiali Specialistica

– Supervisione di numerose tesi di laurea triennali, quadriennali, specialistiche e di dottorato, oltre che di progetti di ricerca studenteschi

– collaborazione alla stesura del testo universitario Fisica Biomedica, acuradiD.Scannicchio, EdiSES, ISBN: 9788879597814

 

CAPACITÀ E COMPETENZE ORGANIZZATIVE

– è membro del European Science Foundation College of Expert Reviewers (20/10/2016 19/10/2019)

– ha fatto parte del Pool of Reviewers della European Science Foundation nel periodo 01/05/2009 – 30/04/2012

– è stato invitato a far parte del comitato scientifico internazionale della conferenza 2002 WSEAS International: Global Optical and Wireless Network Conference (GOWN’02), Miedzyzdroje, Wolin Island (Poland), August 25-30, 2002

– ha fatto parte del comitato organizzatore del Workshop on Coherent Effects on Elementary Excitations in Semiconductors (Bari, 5-6 luglio 1997);

– guest editor della rivista internazionale Journal of Nonlinear Optical Physics & Materials

– invito a far parte della commissione esaminatrice di una tesi di dottorato dell’Ecole Polytechnique di Palaiseau (F), luglio 1995

– partecipazione alla International School of Physics “Enrico Fermi” Nonlinear optical materials: principles and applications. Villa Monastero, Varenna, Italy (20-30 Luglio 1993)

– svolge/ha svolto il ruolo di referee e/o adjudicator per le seguenti riviste scientifiche con comitato diredazione internazionale: PhysicalReviewLetters;PhysicalReviewA;PhysicalReview B; Optics Letters; Journal of Physics D: Applied Physics; Journal of Physics: Condensed Matter; Journal of Nonlinear Optical Physics & Materials; Synthetic Metals; Journal of Optics A: Pure and Applied Optics; Journal of Optics B: Quantum and Semiclassical Optics; European Journal of Nonlinear Optics; Measurement Science and Technology; Chemical Physics Letters

– è stato moderatore al Convegno Dal Cyberknife® alla nano-radioterapia, MaterDei Hospital, 8 aprile 2017, Bari

• è coordinatore del I anno di corso, CdL Medicina e Chirurgia, Scuola di Medicina, Università degli Studi di Bari Aldo Moro

• è presidente della Commissione Equipollenze, CdL Medicina e Chirurgia, Scuola di Medicina, Università degli Studi di Bari Aldo Moro • è componente del comitato ordinatore Scuola di Specializzazione in Fisica Medica, Scuola di Medicina, Università degli Studi di Bari Aldo Moro

• è componente del comitato ordinatore Scuola di Specializzazione in Medicina Fisica e Riabilitativa, Scuola di Medicina, Università degli Studi di Bari Aldo Moro

• è stato componente del comitato ordinatore Scuola di Specializzazione in Igiene e Medicina Preventiva, Scuola di Medicina, Università degli Studi di Bari Aldo Moro

• è stato componente del collegio dei docenti del Dottorato di Ricerca in “Biochimica Medica e Biologia Medica”, Scuola di Medicina, Università degli Studi di Bari Aldo Moro

 

COMPETENZE LINGUISTICHE

Lingua madre Italiano

Altre Lingue COMPRENSIONE PARLATO PRODUZIONE SCRITTA
Ascolto Lettura Interazione Produzione orale
Inglese C2 C1 B2 C1 C2
Francese C2 C2 C2 C2 B1

Livelli: A1 e A2: Utente base – B1 e B2: Utente autonomo – C1 e C2: Utente avanzato

Quadro comune Europeo di Riferimento delle Lingue

 

COMPETENZE INFORMATICHE

– Applicazioni standard di Mac

– Applicazioni standard di Windows

– LaTeX

– Origin Lab

– Moodle

– HITRAN

 

PUBBLICAZIONI
[1] A. Aloi and R. TOMMASI, “Inverse Raman scattering in femtosecond broadband transient absorption experiments,” in Raman Spectroscopy and Applications (K. Maaz, ed.), INTECH, 2017.

[2] L. Triggiani, A. Brunetti, A. Aloi, R. Comparelli, M. L. Curri, A. Agostiano, M. Striccoli, and R. TOMMASI, “Abstracts from the X INSTM National Conference on Materials Science and Technology “KE-MAT! Key Enabling Material”,” J. Appl. Biomater. Funct. Mater., vol. 14, no. 1, p. e106, 2016.

[3] M. Arciuli, A. Brunetti, D. Fiocco, V. Zacchino, G. Centoducati, A. Aloi, R. TOMMASI, A. Santeramo, F. D. Nitto, and A. Gallone, “A multidisciplinary study of the extracutaneous pigment system of European sea bass (Dicentrarchus labrax L.). A possible relationship between kidney disease and dopa oxidase activity level,” FISH AND SHELLFISH IMMUNOLOGY, vol. 42, pp. 184– 192, 2015.

[4] E. Binetti, M. Striccoli, T. Sibillano, C. Giannini, R. Brescia, A. Falqui, R. Comparelli, M. Corricelli, R. TOMMASI, A. Agostiano, and M. L. Curri, “Tuning light emission of PbS nanocrystals from infrared to visible range by cation exchange,” SCIENCE AND TECHNOLOGY OF ADVANCED MATERIALS, vol. 16, pp. 055007–055016, 2015.

[5] A. Panniello, M. Corricelli, R. Comparelli, M. L. Curri, A. Agostiano, R. TOMMASI, and M. Striccoli, “Recombination Dynamics of Colloidal Nanocrystals in Functionalized-Poly-Methylmethacrylate Nanocomposites,” NANOSCIENCE AND NANOTECHNOLOGY LETTERS, vol. 7, pp. 67–73, 2015.

[6] A. Aloi, A. Brunetti, G. Perna, M. Lasalvia, V. Capozzi, and R. TOMMASI, “Ultrafast transient absorption of eumelanin suspensions: the role of inverse Raman scattering,” BIOMEDICAL OPTICS EXPRESS, vol. 6, pp. 4000–4013, 2015.

[7] L. Triggiani, A. Brunetti, A. Aloi, R. Comparelli, M. L. Curri, A. Agostiano, M. Striccoli, and R. TOMMASI, “ExcitationDependent Ultrafast Carrier Dynamics of Colloidal TiO2 Nanorods in Organic Solvent,” JOURNAL OF PHYSICAL CHEMISTRY. C, NANOMATERIALS AND INTERFACES, vol. 118, pp. 25215–25222, 2014.

[8] E. Binetti, A. Panniello, R. TOMMASI, A. Agostiano, S. Fantini, M. L. Curri, and M. Striccoli, “Interaction of TiO2 nanocrystals with imidazolium-based ionic liquids,” JOURNAL OF PHYSICAL CHEMISTRY. C., vol. 117, pp. 12923–12929, 2013.

[9] A. Panniello, E. Binetti, C. Ingrosso, M. L. Curri, A. Agostiano, R. TOMMASI, and M. Striccoli, “Semiconductor nanocrystals dispersed in imidazolium-based ionic liquids: a spectroscopic and morphological investigation,” JOURNAL OF NANOPARTICLE RESEARCH, vol. 15, no. 4, p. 1567, 2013.

[10] E.Binetti,A.Panniello,L.Triggiani,R.TOMMASI,A.Agostiano,M.L.Curri,andM.Striccoli,“Spectroscopicstudyonimidazolium based ionic liquids: effect of alkyl chain length and anion,” JOURNAL OF PHYSICAL CHEMISTRY B, CONDENSED MATTER, MATERIALS, SURFACES, INTERFACES AND BIOPHYSICAL, vol. 116, no. 11, pp. 3512–3518, 2012.

[11] F. Babudri, A. Cardone, T. Cassano, G. M. Farinola, F. Naso, and R. TOMMASI, “Synthesis and optical properties of a poly(2’,5’-dioctyloxy-4,4’,4”-terphenylenevinylene) with high content of (z) vinylene units,” JOURNAL OF ORGANOMETALLIC CHEMISTRY, vol. 693, pp. 2631–2636, 2008.

[12] C. Sciancalepore, T. Cassano, M. L. Curri, D. Mecerreyes, A. Valentini, A. Agostiano, R. TOMMASI, and M. Striccoli, “Tio(2) nanorods/pmma copolymer-based nanocomposites: highly homogeneous linear and nonlinear optical material,” NANOTECHNOLOGY, vol. 19, pp. 19(20)–205705/8, 2008.

[13] T. Cassano, R. TOMMASI, M. Arca, and F. A. Devillanova, “Investigation of the nonlinear absorption of dithiolene complexes in the pico- and nanosecond timescales using the z-scan technique,” JOURNAL OF PHYSICS. CONDENSED MATTER, vol. 18, pp. 5279–5290, 2006.

[14] N. Cardascia, R. TOMMASI, M. Vetrugno, P. M. Lugarà, and C. Sborgia, “Indocyanine green laser retinal oximetry: preliminary results,” in Oxygen Transport to Tissue XXVII (G. Cicco, D. F. Bruley, M. Ferrari, and D. K. Harrison, eds.), vol. 578 of Advances in Experimental Medicine and Biology, pp. 143–148, Springer, Boston, MA, 2006.

[15] R. TOMMASI, M. G. Leo, G. Cicco, T. Cassano, L. Nitti, and P. M. Lugarà, “Preliminary results of oxygen saturation with a prototype of a cw laser oximeter,” in Oxygen Transport to Tissue XXVII (G. Cicco, D. F. Bruley, M. Ferrari, and D. K. Harrison, eds.), vol. 578 of Advances in Experimental Medicine and Biology, pp. 55–66, Springer, Boston, MA, 2006.

[16] T. Cassano, R. TOMMASI, A. P. Meacham, and M. D. Ward, “Investigation of the excited states absorption of a ru dioxolene complex by the z-scan technique,” THE JOURNAL OF CHEMICAL PHYSICS, vol. 122, p. 154507, 2005.

[17] T. Cassano, R. TOMMASI, M. Arca, F. A. Devillanova, and F. Lelj, Recent Research Developments in Chemical Physics, vol. 5, ch. Synthesis, linear and nonlinear optical properties of [M(R,R’timdt)2] metal-dithiolenes for NIR applications (M = Ni, Pd, Pt; R,R’timdt = disubstituted monoreduced imidazolidine-2,4,5-trithione), pp. 553–571. TRIVANDRUM-695023 KERALA: TRANSWORLD RESEARCH NETWORK, 2004.

[18] R. Comparelli, F. Zezza, M. Striccoli, M. L. Curri, R. TOMMASI, and A. Agostiano, “Improved optical properties of cds quantum dots by ligand exchange,” MATERIALS SCIENCE AND ENGINEERING. C, BIOMIMETIC MATERIALS, SENSORS AND SYSTEMS, vol. 23, pp. 1083–1086, 2003.

[19] P. Romaniello, M. C. Aragoni, M. Arca, T. Cassano, C. Denotti, F. A. Devillanova, F. Isaia, F. Lelj, V. Lippolis, and T. R., “Ground and excited states of [m(h2timdt)2] neutral dithiolenes (m = ni, pd, pt; h2timdt = monoanion of imidazolidine-2,4,5-trithione): description within td-dft and scalar relativistic (zora) approaches,” JOURNAL OF PHYSICAL CHEMISTRY. A, MOLECULES, SPECTROSCOPY, KINETICS, ENVIRONMENT, AND GENERAL THEORY, vol. 107, pp. 9679–9687, 2003.

[20] F. Babudri, A. Cardone, G. M. Farinola, F. Naso, T. Cassano, L. Chiavarone, and R. TOMMASI, “Synthesis and optical properties of a copolymer of tetrafluoro- and dialkoxy-substituted poly (p-phenylenevinylene) with a high percentage of fluorinated units,” MACROMOLECULAR CHEMISTRY AND PHYSICS, vol. 204, pp. 1621–1627, 2003.

[21] T. Cassano, R. TOMMASI, F. Babudri, A. Cardone, G. M. Farinola, and F. Naso, “Investigation of luminescence in new blueemitting poly(2 ’,5 ’-dioctyloxy-4,4 ’,4 ”-terphenylenevinylene)s,” SYNTHETIC METALS, vol. 139, pp. 827–830, 2003.

[22] F. Zezza, R. Comparelli, M. Striccoli, M. L. Curri, R. TOMMASI, and A. Agostiano, “High quality CdS nanocrystals: surface effects,” SYNTHETIC METALS, vol. 139, pp. 597–600, 2003.

[23] A. Ronchi, T. Cassano, R. TOMMASI, F. Babudri, A. Cardone, G. M. Farinola, and F. Naso, “χ(3) measurements in novel poly (2 ’,5 ’-dioctyloxy-4,4 ’,4 ”-terphenylenevinylene) using the Z-scan technique,” SYNTHETIC METALS, vol. 139, pp. 831–834, 2003.

[24] M. C. Aragoni, M. Arca, T. Cassano, C. Denotti, F. A. Devillanova, R. Frau, F. Isaia, F. Lelj, V. Lippolis, L. Nitti, P. Romaniello, and R. TOMMASI, “NIR-Dyes Based on [M(R,R’timdt)2] Metal-Dithiolenes: Additivity of M, R, and R’ Contributions to Tune the NIR Absorption(M=Ni,Pd,Pt; R, R’timdt=monoreduced form of disubstituted imidazolidine-2,4,5-trithione), ”EUROPEANJOURNAL OF INORGANIC CHEMISTRY, pp. 1939–1947, 2003.

[25] T.Cassano, R.TOMMASI, G.Lanzani, M.Nisoli, S.Stagira, S.D.Silvestri, F.Babudri, G.M.Farinola, andF.Naso, “Femtosecond relaxation dynamics in dialkoxy-substituted poly-(p-phenylenevinylene) derivatives, ”OPTICALMATERIALS, vol.21,pp.325–329, 2002.

[26] T. Cassano, R. TOMMASI, F. Babudri, A. Cardone, G. M. Farinola, and F. Naso, “High third-order nonlinear optical susceptibility in new fluorinated poly(p-phenylenevinylene) copolymers measured with the Z-scan technique,” OPTICS LETTERS, vol. 27, pp. 2176–2178, 2002.

[27] M. C. Aragoni, M. Arca, T. Cassano, C. Denotti, F. A. Devillanova, F. Isaia, V. Lippolis, D. Natali, M. Sampietro, R. TOMMASI, and G. Verani, “Photoinduced conductivity and nonlinear optical properties of [M(R,R’timdt)2] dithiolenes (M=Ni, Pd, Pt; R,R’= monoreduced imidazolidine-2,4,5-trithione) as materials for optically driven switches and photodetectors,” INORGANIC CHEMISTRY COMMUNICATIONS, vol. 5, pp. 869–872, 2002.

[28] R. TOMMASI, L. Nitti., T. Cassano, M. C. Aragoni, M. Arca, C. Denotti, F. A. Devillanova, F. Isaia, V. Lippolis, F. Lelj, and P. Romaniello, “Time-resolved absorption saturation dynamics in new fluorinated [M(R,R’timdt)2] metal-dithiolenes,” in Nonlinear Optics: Materials, FundamentalsandApplications(A.Sawchuk, ed.), vol.79ofTrendsinOpticsandPhotonics, p.WE23, Optical Society of America, 2002.

[29] R. TOMMASI, T. Cassano, G. M. Farinola, F. Babudri, A. Cardone, and F. Naso, “Nonlinear optical measurements in copoly (2,3,5,6-tetrafluoro-1,4-phenylenevinylene-2,5-dialkoxy-1,4-phenylenevinylene) susingtheZ-scantechnique, ”inNonlinear Optics: Materials, Fundamentals and Applications (A. Sawchuk, ed.), vol. 79 of OSA Trends in Optics and Photonics, p. WE24, Optical Society of America, 2002.

[30] G. M. Farinola, T. Cassano, R. TOMMASI, F. Babudri, A. Cardone, and F. Naso, “Third-order nonlinear optical properties of copoly(2,3,5,6-tetrafluoro-1,4-phenylenevinylene-2,5-dialkoxyphenylenevynilene)s: a novel class of push-pull substituted PPVs,” in SPIE “Linear and Non-Linear Optics of Organic Materials” (M. Eich and M. G. Kuzyk, eds.), vol. 4461, p. 246, 2001.

[31] S. Stagira, M. Nisoli, G. Lanzani, S. D. Silvestri, T. Cassano, R. TOMMASI, F. Babudri, G. M. Farinola, and F. Naso, “Intrachain charge generation and recombination in alkoxy-substituted poly-(p-phenylenevinylene) films,” PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS, vol. 64, pp. 2052051–2052058, 2001.

[32] T. Cassano, R. TOMMASI, M. Ferrara, F. Babudri, G. M. Farinola, and F. Naso, “Substituent-dependence of the optical nonlinearities in poly(2,5-dialkoxy-p-phenylenevinylene) polymers investigated by the Z-scan technique,” CHEMICAL PHYSICS, vol. 272, pp. 111–118, 2001.

[33] T. Cassano, R. TOMMASI, M. Ferrara, F. Babudri, G. M. Farinola, and F. Naso, “Third-order nonlinear optical properties of 2,5-dialkoxy-substituted poly-(p-phenylenevinylene)s,” MOLECULAR CRYSTALS AND LIQUID CRYSTALS SCIENCE AND TECHNOLOGY. SECTION B, NONLINEAR OPTICS, vol. 27, pp. 489–500, 2001.

[34] M. C. Aragoni, M. Arca, T. Cassano, F. A. Devillanova, M. Ferrara, and R. TOMMASI, “Picosecond absorption saturation dynamics of new [M(R,R’timdt)2] metal-dithiolenes,” in Nonlinear Optics for the Information Society, Proceedings of the Third Annual Meeting of the COST Action P2 (A. Driessen, ed.), p. 149, Kluwer Academic Publishers, 2001.

[35] T.Cassano, R.TOMMASI,M.Ferrara, F.Babudri, G.M.Farinola, andF.Naso, “Substituent-dependenceofthethird-orderoptical nonlinearities of 2,5 dialkoxy-PPV derivatives,” in SPIE “Linear, Nonlinear, and Power Limiting Organics” (E. M., K. M. G., L. C. M., and N. R. A., eds.), vol. 4106, p. 395, 2000.

[36] M. C. Netti, C. Gadaleta, N. D. Fatti, F. Vallèe, and R. TOMMASI, “Ultrafast localized exciton dynamics in ZnCdSe-ZnSe multiquantum wells,” PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS, vol. 61, p. 15637, 2000.

[37] M. C. Netti, C. Gadaleta, N. Del Fatti, F. Vallèe, and R. TOMMASI, “Ultrafast exciton dynamics in ternary II-VI semiconductor quantum wells,” PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS, vol. 60, p. 4902, 1999.

[38] M. C. Netti, C. Gadaleta, N. Del Fatti, F. Vallèe, and R. TOMMASI, “Ultrafast exciton broadening in ternary II-VI semiconductor quantum wells,” PHYSICA B, CONDENSED MATTER, vol. 272, p. 381, 1999.

[39] N.DelFatti, P.Langot, R.TOMMASI, and F.Vallée, “Temperature–dependent electron–lattice thermalization in GaAs, ”PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS, vol. 59, p. 4576, 1999.

[40] M. C. Netti, N. D. Fatti, C. Gadaleta, R. TOMMASI, F. Vallée, L. Vanzetti, and A. Franciosi, “Femtosecond exciton dynamics in ZnCdSe-ZnSe multiquantum wells, ”in Proceedings of the 24th ICPS International Conference on the Physics of Semiconductors (D. Gershoni, ed.), (Singapore), Word Scientific, 1999.

[41] A. Adinolfi, T. Cassano, R. TOMMASI, and M. Ferrara, “Z-scan measurements of optical nonlinearities in bulk LiNbO3,” MOLECULAR CRYSTALS AND LIQUID CRYSTALS SCIENCE AND TECHNOLOGY. SECTION B, NONLINEAR OPTICS, vol. 21, p. 327, 1999.

[42] A. Adinolfi, M. C. Netti, M. Lepore, R. TOMMASI, and I. M. Catalano, “Measurements of multiphoton absorption coefficients in ZnSe/ZnSxSe1−x strained-layer superlattices,” MOLECULAR CRYSTALS AND LIQUID CRYSTALS SCIENCE AND TECHNOLOGY. SECTION B, NONLINEAR OPTICS, vol. 21, p. 317, 1999.

[43] N. Del Fatti, P. Langot, R. TOMMASI, and F. Vallée, “Ultrafast hole relaxation in III-V semiconductors,” in SPIE “Ultrafast Phenomena in Semiconductors II” (K. T. Tsen and H. R. Fetterman, eds.), vol. 3277, p. 96, 1998.

[44] N. Del Fatti, F. Ganikhanov, P. Langot, R. TOMMASI, and F. Vallée, “Optical phonon coherence and population decays in III-V semiconductors,” JOURNAL OF NONLINEAR OPTICAL PHYSICS AND MATERIALS, vol. 7, p. 271, 1998.

[45] M.DabbiccoandR.Tommasi,“Preface,”JOURNALOFNONLINEAROPTICALPHYSICSANDMATERIALS,vol.7,p.R5,1998.

[46] N. Del Fatti, P. Langot, R. TOMMASI, and F. Vallée, “Ultrafast hole-phonon interactions in GaAs,” APPLIED PHYSICS LETTERS, vol. 71, p. 75, 1997.

[47] P. Langot, N. Del Fatti, R. TOMMASI, and F. Vallée, “High repetition rate nonlinear generation of sinchronized frequency tunable femtosecond pulses,” OPTICS COMMUNICATIONS, vol. 137, p. 285, 1997.

[48] P. Langot, N. Del Fatti, D. Christofilos, R. TOMMASI, and F. Vallée, “Femtosecond investigation of the hot-phonon effect in GaAs at room temperature,” PHYSICAL REVIEW. B, CONDENSED MATTER, vol. 54, p. 14487, 1996.

[49] F. Vallée, P. Langot, and R. TOMMASI, “Ultrafast hole heating in intrinsic GaAs,” in Hot Carriers in Semiconductors (K. Hess, J. P. Leburton, and U. Ravaioli, eds.), (New York), p. 105, Plenum Press, 1996.

[50] M. C. Netti, M. Lepore, A. Adinolfi, R. TOMMASI, I. M. Catalano, L. Vanzetti, L. Sorba, and A. Franciosi, “Excitonic properties in Zn1−xCdxSe/ZnSe multi-quantum wells by one- and two-photon spectroscopy,” JOURNAL OF APPLIED PHYSICS, vol. 80, p. 2908, 1996.

[51] P. Langot, N. Del Fatti, R. TOMMASI, and F. Vallée, “Direct correlation of electron-lattice thermalization with the LO phonon lifetime in GaAs,” in Proceedings of the 23rd ICPS International Conference on the Physics of Semiconductors (G. Landwehr, I. Broser, and D. Bimberg, eds.), (Singapore), p. 225, Word Scientific, 1996.

[52] P. Langot, N. Del Fatti, R. TOMMASI, and F. Vallée, “Femtosecond investigation of the hole-phonon interactions in GaAs,” in Proceedings of the 23rd ICPS International Conference on the Physics of Semiconductors (G. Landwehr, I. Broser, and D. Bimberg, eds.), (Singapore), p. 665, Word Scientific, 1996.

[53] P. Langot, R. TOMMASI, and F. Vallée, “Nonequilibrium hole relaxation dynamics in an intrinsic semiconductor,” PHYSICAL REVIEW. B, CONDENSED MATTER, vol. 54, pp. 1775–1775, 1996.

[54] P. Langot, N. Del Fatti, R. TOMMASI, and F. Vallée, “Ultrafast hole-phonon interactions in GaAs,” in Proceedings of Quantum Electronics and Laser Science Conference, vol. 9 of OSA Technical Digest Series, p. 174, Optical Society of America, 1996.

[55] R. TOMMASI, P. Langot, N. Del Fatti, , and F. Vallée, “Femtosecond investigation of the dominant cold hole scattering process in GaAs,” in Proceedings of UPS ’95 Ninth International Conference on Ultrafast Processes in Spectroscopy (O. Svelto, S. De Silvestri, and G. Denardo, eds.), (New York), p. 195, Plenum Press, 1996.

[56] P. Langot, R. TOMMASI, and F. Vallée, “Cold-phonon effect on electron heating in GaAs,” SOLID STATE COMMUNICATIONS, vol. 98, pp. 171–174, 1996.

[57] P.Langot, N.DelFatti, R.TOMMASI, and F.Vallée, “Relaxation ultrarapide des trous libre dans les semi-conducteurs, ”ANNALES DE PHYSIQUE, vol. 20, p. 549, 1995.

[58] M. C. Netti, M. Lepore, A. Adinolfi, R. TOMMASI, I. M. Catalano, and I. Suemune, “Two-photon absorption spectroscopy in ZnSe/ZnSSe strained-layer superlattices,” Il Nuovo Cimento D, vol. 17, no. 11-12, p. 1635, 1995.

[59] F. Vallée, P. Langot, and R. TOMMASI, “Femtosecond hole thermalization in bulk GaAs,” in Proceedings of Quantum Electronics and Laser Science Conference, vol. 16 of OSA Technical Digest Series, (Washington D. C.), p. 266, Optical Society of America, 1995.

[60] M. Lepore, R. TOMMASI, M. C. Netti, I. M. Catalano, and I. Suemune, “One- and two-photon spectrocopy in ZnSe/ZnSSe strained-layer superlattices,” VUOTO, SCIENZA E TECNOLOGIA, vol. 24, pp. 46–46, 1995.

[61] P. Antuofermo, A. Cacucci, L. C. Midolo, M. Striccoli, O. De Pascale, P. M. Lugarà, G. Scamarcio, R. TOMMASI, V. Spagnolo, I. M. Catalano, R. Cingolani, and R. Rinaldi, “Fabrication, structural analysis and optical investigation of GaAs gratings and GaAs/AlGaAs quantum wires,” ADVANCES IN SCIENCE AND TECHNOLOGY, vol. 11, p. 351, 1995.

[62] M. Dabbicco, G. Scamarcio, V. Spagnolo, R. TOMMASI, P. M. Lugarà, I. M. Catalano, R. Cingolani, M. Lomascolo, C. Stevens, R. Taylor, and J. Ryan, “Exciton-phonon coupling in znse/znsxse1-x multiple-quantum-well structures,” ADVANCES IN SCIENCE AND TECHNOLOGY, vol. 11, p. 331, 1995.

[63] R. TOMMASI, P. Langot, and F. Vallée, “Femtosecond hole thermalization in bulk GaAs,” APPLIED PHYSICS LETTERS, vol. 66, p. 1361, 1995.

[64] M. Lepore, M. C. Netti, R. TOMMASI, I. M. Catalano, and I. Suemune, “Polarization dependence of two-photon absorption in ZnSe/ZnSSe strained-layer superlattices,” SOLID STATE COMMUNICATIONS, vol. 92, p. 695, 1994.

[65] R. TOMMASI, M. Lepore, M. C. Netti, I. M. Catalano, and I. Suemune, “Excitonic properties in ZnSe/ZnSxSe1−x, strained–layer superlattices by one– and two–photon spectroscopy,” PHYSICAL REVIEW. B, CONDENSED MATTER, vol. 49, p. 14367, 1994.

[66] R. Cingolani, M. Lepore, R. TOMMASI, H. Lage, D. Heitmann, and K. Ploog, “Two-photon absorption in low-dimensional heterostructures,” JOURNAL DE PHYSIQUE IV, vol. 3, p. 131, 1993.

[67] M. Dabbicco, R. TOMMASI, R. Cingolani, M. Lepore, M. Ferrara, I. Suemune, and Y. Kuroda, “Exciton scattering processes in ZnSe/ZnSSe MQW structures,” JOURNAL DE PHYSIQUE IV, vol. 3, pp. 91–94, 1993.

[68] M.Lepore, R.TOMMASI, and I.M. Catalano, “Three-photon spectroscopy in an indirect gap material: CdI2,”PHYSICAL REVIEW. B, CONDENSED MATTER, vol. 47, p. 7580, 1993.

[69] R. TOMMASI, M. Lepore, and I. M. Catalano, “Two-photon absorption coefficient spectrum in CdSSe nanocrystals by nonlinear luminescence technique,” SOLID STATE COMMUNICATIONS, vol. 85, p. 539, 1993.

[70] R. TOMMASI, M. Lepore, M. C. Netti, and I. M. Catalano, “Excitonic properties in ZnSe/ZnSSe strained layer superlattices by one- and two-photon spectroscopy,” in Proceedings of EQEC 93-4th European Quantum Electronic Conference (P. de Natale, R. Meucci, and S. Pelli, eds.), vol. II, p. 1046, 1993.

[71] R. Cingolani, M. Lepore, R. TOMMASI, I. M. Catalano, H. Lage, D. Heitmann, K. Ploog, A. Shimizu, H. Sakaki, and T. Ogawa, “Anisotropic selection rules in two-photon absorption of GaAs quantum wires,” SUPERLATTICES AND MICROSTRUCTURES, vol. 13, p. 71, 1993.

[72] R. TOMMASI, G. Scamarcio, M. Lepore, V. Spagnolo, P. M. Lugarà, I. Catalano, M. Ferrara, and C. Flytzanis, “Optical and vibrational properties of CdS1−xSex quantum dots embedded in glass,” VUOTO, SCIENZA E TECNOLOGIA, vol. 22, pp. 120– 122, 1992.

[73] R. TOMMASI, M. Lepore, M. Ferrara, and I. M. Catalano, “Observation of high index states in CdS1−xSex semiconductor microcrystallite by two-photon spectroscopy,” PHYSICAL REVIEW. B, CONDENSED MATTER, vol. 46, p. 12261, 1992.

[74] R. Cingolani, M. Lepore, R. TOMMASI, I. M. Catalano, H. Lage, D. Heitmann, K. Ploog, A. Shimizu, H. Sakaki, and T. Ogawa, “Two-photon absorption in GaAs quantum wires,” PHYSICAL REVIEW LETTERS, vol. 69, p. 1276, 1992.

[75] G. Scamarcio, C. Moro, R. TOMMASI, M. Lepore, V. Spagnolo, P. M. Lugarà, I. M. Catalano, M. Ferrara, and C. Flytzanis, “Influence of size-dependent lattice contraction on phonons and excitons of CdS1−xSex quantum dots embedded in glass,” in Proceedings of the 21th International Conference on Physics of Semiconductors (P. Jiang and H. Zheng, eds.), (Singapore), p. 1374, Word Scientific, 1992.

[76] R. TOMMASI, I. M. Catalano, M. Ferrara, and C. Flytzanis, “Two–photon absorption spectroscopy in CdS1−xSex semiconductor microcrystallites,” in Proceedings of the International Conference From Galileo’s “occhialino” to Optoelectronics: Frontiers of Optical Systems and Materials (P. Mazzoldi, ed.), (Singapore), p. 934, Word Scientific, 1992.

[77] M. Lepore, R. TOMMASI, and I. M. Catalano, “Spectral behavior of three-photon absorption coefficient in II-VI compounds: ZnO, CdS and ZnSe,” SOLID STATE COMMUNICATIONS, vol. 84, p. 463, 1992.

[78] R. Cingolani, C. Moro, M. Ferrara, I. M. Catalano, M. Dabbicco, M. Lepore, R. TOMMASI, and K. Ploog, “Optoelectronic properties of GaAs/AlGaAs and GaInAs/AlInAs multi quantum well structures,” in Materials for Photonic Devices (A. D’Andrea, A. Lapiccirella, G. Marletta, and S. Viticoli, eds.), (Singapore), p. 206, Word Scientific, 1991.

[79] I. M. Catalano, R. Cingolani, M. Lepore, and R. TOMMASI, “Multiphoton absorption in GaAs multiple quantum wells,” in Conference Proceedings “Quantum Electronics and Plasma Physics” 6th Italian Conference (G. C. Righini, ed.), vol. 29, (Bologna), pp. 257–264, SIF, 1991.

[80] C. Moro, M. Lepore, R. Cingolani, R. TOMMASI, M. Ferrara, I. M. Catalano, K. Ploog, and A. Fischer, “Stimulated emission induced by two-photon absorption in GaAs quantum wells,” PHYSICAL REVIEW. B, CONDENSED MATTER, vol. 44, p. 8384, 1991.

 

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Esperienze Lavorative

1987-1989 Pratica professionale presso lo studio Commerciale del Rag. Domenico Baldassarre , mediante iscrizione all’Albo dei Praticanti l’attività di Ragionieri Commercialisti.
1991 Abilitazione alla Professione di Ragioniera Commercialista.
1989-1992 Dipendente in qualità di ragioniera della società “Dieffe Moda srl”
1992 Dipendente in qualità di ragioniera della società “Tarde.Cos. srl”
1992 – 1993 Dipendente in qualità di ragioniera della società “S.C.S. Sistemi Costruttivi Sud S.R.L.”
1993 – 1998 Dipendente del C.N.R. con contratto a tempo determinato a norma dell’art. 23 del D.P.R. 12/2/91 n. 171, assegnata alla struttura decentrata di Ragioneria della Puglia, con qualifica di collaboratore di amministrazione VII livello
1998 – 2003 Dipendente in ruolo del C.N.R., assegnata alla struttura decentrata di Ragioneria della Puglia fino al 28/02/03 e successivamente all’Istituto per i Processi Chimico-Fisici sede di Bari, con qualifica di collaboratore di amministrazione VII livello
dal 2008 Collaboratore di Amministrazione V livello