Curri Maria Lucia

foto_profilo_CurriL Contatti
Qualifica: In Organico
Ruolo: Ricercatore
Telefono: +39 080 544 2027
Cell.: +39 080 544 2027
Fax: +39 080 544 2128

WoS Researcher ID: C-5360-2009
Orcid ID: 0002-0261-8379
Google Scholar:
Google Scholar H-Index: 34
ISI-WoS H-Index: 31

Esperienze Lavorative

Senior Research Scientist (Primo Ricercatore) since 1st March 2010 at the Institute for Physical and Chemical Processes (Istituto per i Processi Chimico Fisici) IPCF CNR, Bari Division (Italy)
– Since 2000 Permanent Staff Scientist at CNR IPCF Bari Division.
– Coordinator of the 7 FP Collaborative European Project NMP 2012.2.2.2-6 LIMPID (n. 310177) Nanocomposite Materials for Photocatalytic Degradation of Pollutants (2012-2015)
– Scientific responsible for CNR IPCF Bari unit of PRIN 2012 Project “New aspects of resonance energy transfer in organized media: dynamical effects and optical control” (Prot. 2012T9XHH7) (2014-2017)
– Scientific responsible for CNR IPCF Bari unit, steering board member and workpackage leader in the European FP7 Project METACHEM “Nanochemistry and self assembly routes to metamaterials for visible light” (Contr. (2009-2013)
– Scientific responsible for CNR IPCF Bari unit of the Strategic Project “Protection, consolidation and cleaning of stones characteristic of Apulia region: experimental analysis of environmental friendly products and monitoring of the treatments.” within the Regional Framework Program for Scientific Research (Italy) (2009-2013)
– Scientific responsible for CNR IPCF Bari unit of the project “NANOPLATFORM” “Interfacing single nanoparticles embedded in ultra thin polymers layers” Bilateral project CNR and CSIC (Spain) (2009-2010)
– Scientific responsible for CNR IPCF Bari unit of the “RELA-VALBIOR” Network of laboratories within the frame of Regional Framework Program for Scientific Research (Italy)(2009-2012)
– Scientific responsible for CNR IPCF Bari and workpackage leader in the European FP6 Integrated Project NaPa “Emerging Nanopatterning Methods” (contr. N. 500120), (2004-2008)
– Scientific responsible for CNR IPCF Bari, steering board member and workpackage leader in the European FP6 STREP Project NOVOPOLY “Novel functional polymer materials for MEMS and NEMS applications” (contr. N. STRP 013619) (2005-2009)

Other scientific activities

Member of the Group of Expert of Evaluation for Chemistry within Evaluation of Research Quality (VQR) for the Italian National Agency for the Evaluation of Universities and Research Institutes (ANVUR) for the 2011-2014 national research assessment exercise (Valutazione della Qualità della Ricerca, VQR 2011‐2014)
Member of the European Cluster on Catalysis and Workgroup topic leader for “Standardisation, regulation, safefy issue” (2014-) of European Commission and of the Engineering & Upscaling Cluster (2014- ) of European Commission
Expert for Value Chain Workgroup in Value4Nano “Industrial valorization of strategic value chains for nano-enabled products” FP7 European Project
Member of the Advisory Board of the School of Soft Matter Research of Freiburg Institute for Advanced Studies (FRIAS) Albert-Ludwigs-University Freiburg (Germany)(2011-2013)
Member of the Editorial Board of: The Open Process Chemistry Journal, Micro & Nano Letters, Nanofabrication, IET Communications
Guest Editor of the Special Issues of Micro & Nano Letters on “Micro and Nano Technologies for Probe-Based Microscopy” of Crystals on “Colloidal Nanocrystals: Synthesis, Characterization and Application” respectively.
Member of the International Advisory Board of CIMTEC International Conferences.
Member of the Technical Programme Committees of IEEE-NEMS Nano/Micro Engineered and Molecular Systems, IEEE Sensors and EUROSENSORS Conferences.
Member of the Organizing Committee of the “Nanomaterials for Photocatalytic Depollution” Workshop, ASEAN-EU STI Science, Bangkok (Thailand) 21-23 January 2014, of the “International Workshop on Nanocomposite Materials for Photocatalytic Degradation of Pollutants: Advanced Opportunities for New Applications Kuala Lumpur “ (Malaysia) 12 November 2015 and of the Scientific Committee of XXXIX Italian National Congress of Physical Chemistry.
Member of Italian Society of Chemistry (SCI) and of “Relation with Industry” Committee therein (2014- ) and of the Advisory board of the Physical Chemistry Division (SCI) (2010-2011)
Expert evaluator for project proposal for EU Horizon 2020 and FP7 Framework Programs, as well as for Spanish, Portuguese and Israeli research programs.
Referee for many international high impact journals
Member of CNR evaluation committees for staff researcher recruiting since 2001
Member of Italian Interuniversity Consortium on Material Science and Technology INSTM
Research visiting appointments
September 1995 – June 1996: research assistant in the group of Prof. Robin J: H: Clark at Christopher Ingold Laboratories – University College London (United Kingdom).
September – October 2005 CNR-SNF funded exchange visit programme (two months) at EPFL LMIS1 Laboratory.
August – October 2006 invited researcher (three months) at EPFL LMIS Laboratory.


Attività di Formazione

Tutorial activities for degree and doctoral projects at the Department of Chemistry University of Bari – Bari (Italy), being co-supervisor of 12 students for their Master (Laurea) project, and advisor for 10 PhD candidates since 1998.
Supervisor of several CNR grant holders, CNR research assistants and research fellows on the following topics:
– 2/3 D assembly of colloidal nanocrystals for nanostructured materials
– Development of 2-3 D assembly techniques of nanoparticles onto metal and insulating substrates
– Auto-organization of colloidal nanocrystals
– Incorporation of metallic and magnetic nanoparticles in polymers and chemical and physical characterization of the composites
– Colloidal semiconductor nanocrystals immobilized onto substrates for photocatalytic application
– Application of magnetic nanostructured materials
– Nanocomposite materials for environmental applications
– Nanochemistry for metamaterials
Member of commission for evaluation of international PhD theses.
Lecturer in the following classes:
Chemistry Doctoral School courses- University of Bari on topics related to nanomaterials synthesis, functionalization and characterization (2004-2005)
Archaeological Chemistry course at University of Bari (contract professor of the Laboratory of Archaeometry, for 3 years, since 2003)
“Nanostructured Materials” course in the Science and Technology of Material at Science Faculty at University of Bari (Italy) (2005-2009)
Training Course for “Expert in protection and conservation techniques for Cultural Heritage” hold at University of Lecce (July 2011) within the frame of the Strategic Project “Protection, consolidation and cleaning of stones characteristic of Apulia region: experimental analysis of environmental friendly products and monitoring of the treatments.” within the Regional Framework Program for Scientific Research (Italy)
1st, 2nd and 3rd PANAMA (Patterning at Nanoscale Methods and Applications) Summer School within the frame of the NaPa Integrated Project activities (Toulouse, France, July 2005, July 2006 and July 2007) on the topic “Nanoparticles for patterning”
3rd National School on Molecular Materials for Photonic and Electronic 20-24 June 2009 Tortoli (Italy) on the topic “Synthesis and application of nanocrystals and hybrid systems with organic and biologic molecules”
XV National School on Material Science “Convergent Technologies in Science: Topics Related to Functional Materials, Energy and Human Health” 21-30 September 2009 Brixen (Italy)
“Nanostructrured Hybrid Materials for Energy Conversion and Storage” Summer School in the frame of the ORION FP7 EU funded project 5-10 June 2011 Ostuni (BR) Italy
“Analytical techniques for archaeological materials” within the course for “Experts of protection and conservation techniques for Cultural Heritage” within the Strategic Project “Protection, consolidation and cleaning of stones characteristic of Apulia region: experimental analysis of environmental friendly products and monitoring of the treatments”, 21-22 July 2011, Lecce (Italy)
“Nanomaterials” in the frame of Interuniversity Master (II Level) “REACH e CLP regulations” Department of Chemistry University of Bari 12 July 2012, 13 July 2013 and 11 September 2014, Bari (Italy)
“Colloidal nanoparticles and nanocrystal: synthesis, properties and characterization” and “Colloidal nanoparticles and nanocrystals for applications in diagnossi an therapy” in the frame of PON project “Formazione di personale altamente qualificato orientato alle biotecnologie applicate alla chimica farmaceutica e alla diagnostica molecolari) 19 and 21 February 2013 Napoli (Italy)
Lecturers in the frame of Frontiers in Chemistry course (1st year) 2014, 2015 and 2016, Faculty of Science Scuola Normale Superiore Pisa (Italy)
“Soft chemistry tool box for functional nanostructures: original bottom-up opportunities for materials and devices” International School of Physics and Technology of Matter: New frontiers in down-scaled materials and devices: realization and investigation by advanced methods 15-20 September 2014, Otranto (Italy)
“Soft Chemistry for Functional Nanostructures” Course for Chemical and Molecular Sciences Doctoral School, 2015 and 2016, Department of Chemistry University of Bari, Bari (Italy)
“Soft chemistry tools for functional nanomaterials: new opportunities for photocatalytic applications functional nanostructures: original bottom-up opportunities for materials and devices” National School of Physical Chemistry “Energy Production, Storage and Conversion
from Molecules to Devices at the Crossroads of Physical Chemistry” 8-12 June 2015, Otranto (Italy).

Attività di Ricerca 

• Set up of flexible and versatile synthetic strategies that, taking advanced of colloidal chemistry routes, allow to obtain a wide range of nanoparticles and nanocrystals (TiO2, ZnO, CdS, CdSe, ZnSe, Au, Fe2O3 heterostructures like CdSe@ZnS, Au@SiO2 PbS, PbS@SiO2 and PbS@CdS core-shell and TiO2Fe2O3 and TiO2/Ag, TiO2, /Au coupled systems) with a good control on size, shape (spheres, rods, polypods, asymmetric heterostructures) and crystalline phase.
• Functionalization of colloidal nanocrystals and nanoparticles by carefully tailoring their surface chemistry of the nano-objects, in order to make them compatible with a variety of physical and chemical environment, and thus promptly processable, just like macromolecules
• Bioconconjugation of functionalized nanocrystals with model biomolecules towards biological applications, including labelling, bioimaging and theragnostics
• Organization of nanocrystals and nanoparticles in 2/3 D structures by assembly, either spontaneous or directed, micro-contact printing, layer-by-layer, standard deposition techniques (spin coating, casting)
• Fabrication of microscopic structures based on nanoparticles and nanocrystals conveniently assembled to achieve novel collective properties and specific functions, different from those that can be obtained by single nano-objects
• Preparation and characterization of nanocomposites based on organic polymer and semiconductor nanocrystals and/or metal nanoparticles, their deposition as thin film
• Nanocrystal based nanocomposites for micro and nanomachining, by means of both conventional and emerging top down lithographic techniques, such as UV microstructuring, Nano Imprint Lithography, Ink-Jet Printing, for fabrication of MEMS devices (AFM tip and cantilever, sensing cantilever)
• Modified electrodes formed by nanocrystal based films and sensitizer, such as phtalocyanins: photoelectrochemical investigation toward energy conversion and sensing
• Test of the optelectronic properties of the prepared materials in optical sensing elements
• Photodegradation of organic compounds in aqueous and organic environment assisted by oxide nanocrystals and nanocomposites
• Synthesis of metal/oxide nanocrystal nanocomposite and their application in red-ox processes as bifunctional photocatalysts and charge storage experiments
• Hybrid heterojunctions based on an organic moiety (conducting conjugated polymers or ionic liquid) and semiconducting inorganic nanocrystals for energy conversion
• Investigation and control of the spectroscopic (absorption and emission) properties of semiconductor nanocrystals in quantum regime (quantum dots) and plasmonic features of metal nanoparticles for their integration in functional materials and structures
• Nanoparticles and nanocrystals in nanostructured materials for plasmonic applications and towards fabrication of metamaterial by using colloidal chemistry routes
• Nanomaterials and nanocomposites for degradation of environmental pollutants.

Lucia Curri has been co-authoring over 180 papers, including more than 150 ISI paper, more than 140 articles on international peer-reviewed journals (JCR) and a number of other publications (8 book chapters, several conference proceedings, etc.) and has contributing to many conferences, also with invited talks (>20) and holds 1 patent.
She has several national and international collaborations.


Coordinating the material chemistry activities at CNR IPCF Bari, that aim at designing, fabricating and processing “soft” tools for development of synthetic strategies for preparation of colloidal nanocrystal based materials (metal, semiconductors and oxides), in order to tailor their physical and chemical properties towards photocatalytic, optoelectronic, environmental, (bio)sensing and biomedical applications. Her activities address functionalization of the nanoparticles with diverse surface chemistry modification procedures in order to organize the prepared nano-objects in mesoscopical structures to integrate in innovative functional materials and devices. She has a significant background in design and preparation of nanocomposites, based of nanocrystals and nanoparticles, for different kinds of applications, ranging from energy conversion, sensing, photonics and micro- and nano-fabrication.” nanostructured materials to be properly engineered for the achieving new emerging functions.
Her main expertise are in:
– Synthesis of colloidal nanoparticles and nanocrystals, also in quantum confinement regime, in a wide range of compositions, with a high control on size, shape and crystalline phase to fine-tune their chemical-physical properties
– Engineering of the nanoparticle surface in order to properly adjust their surface chemistry and obtain functional building blocks
– Characterization of the colloidal nanoparticles and nanocrystals with spectroscopical UV-vis-NIR absorption, luminescence, FTIR, XPS), structural (Transmission and Scanning Electron Microscopy, X-ray powder diffraction) and morphological (AFM) techniques
– Genuine combination of top-down and bottom up strategies to organizing the prepared nanosized building blocks in structures (films, 2/3 D assemblies, polymer based nanocomposites, hybrid electrodes) that are thus able to bridge the scale from nano- to mesoscopic domains and achieve functional materials with tailored properties.
– Investigation of the original size- and shape-dependent (photo)catalytic and opto-electronic properties of the newly fabricated nanostructured materials carried out to assess their technological potential for their use in environmental technologies (water treatments and sensing applications), biomedical applications and their integration in systems and devices (MEMS sensors).

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