Topics & Session Chairs

The ICCC2020 programme will include the 21 different thematic sessions described below. Each thematic session will be handled by one national and international chair, who will make a joint selection of Invited Lectures (ILs) and Oral Communications (OCs).

 

Presenting authors (for oral and/or poster communications) are invited to choose carefully the most appropriate topic destination to their contribution. In particular, they are asked to focus on the most relevant content(s) of their work in order to make the most appropriate TOPIC choice.

 

A couple of examples are reported hereafter for the sake of clarity as to help authors with the correct destination topic choice:

 

(a) An abstract describing the synthesis of novel coordination compounds of the f-block elements and their application in homogeneous catalysis. If the focus of the contribution is the compounds synthesis and structural features, the most appropriate destination will be T02. If the author wants to highlight the catalytic results more than the synthetic aspect, the most appropriate topic will be T12.
(b) An abstract describing the preparation of magnetic coordination compounds for applications in medicine/biology. If the focus of the contribution is the compounds synthesis and characterization, the most appropriate destination will be T06. If the author wants to highlight the bio-implications of the study more than the synthetic aspects, the most appropriate topic will be T14.

 

Session Chairs and the Scientific Secretary reserve the right to modify the authors’ original topic choice, on the basis of the abstract scientific contents and of the number and type of contributions received.

T01 – Transition metal organometallics; Synthesis, characterization and properties

The symposium dedicated to this topic will feature all aspects of molecular compounds with bonds between carbon and the d-block metals, including synthesis, characterization (structure, original bonding modes, etc.), properties (optical, magnetic, etc.) and reactivity (stoichiometric or catalytic). Session Chairs for this thematic session will be:

Fabio Ragaini

Fabio Ragaini is full Professor of Inorganic Chemistry at Milan University, were he did his complete career, except for a period as a visiting scientist at The Pennsylvania State University, with Prof. G. L. Geoffroy.
He was the Coordinator of the Interdivisional Group of Organometallic Chemistry of the Italian Chemical Society and was chairman of the “XI Congresso Del Gruppo Interdivisionale di Chimica Organometallica (CoGICO2014)”, Milano 2014.
He is the author of 119 papers on scientific journals, a monograph entitled “Catalytic Reductive Carbonylation of Organic Nitro Compounds” (Kluwer Academic Publishers, 1997), 2 book chapters, 147 communications to congresses, and 3 patents. His interests are mainly centered on organometallic chemistry and homogeneous catalysis, with a focus on reduction/carbonylation reactions of nitroarenes.

Rinaldo Poli started his independent career in 1987 at the University of Maryland at College Park, raising through the ranks to Full Professor, then moved to France in 1996. He is now Professor at ENSIACET and leads a research group at the Laboratoire de Chimie de Coordination of CNRS in Toulouse. He has been President of the Coordination Chemistry Division of the French Chemical Society from 2016 to 2018 and is the representative of this society on the board of the Division of Organometallic Chemistry of EuCheMS.
He is a member of the European Academy of Sciences and a ChemPubSoc Fellow. His research interests span from structure-bonding-reactivity relationships, especially for open-shell organometallic compounds, to the application of metal complexes to (enantio)selective catalysis and to controlled radical polymerization. He also uses precision polymer synthesis to develop innovative catalytic nanoreactors.

Rinaldo Poli

T02 – Coordination chemistry of f-block elements

This session provides an opportunity to highlight the latest advances in the synthesis and characterization of coordination chemistry of rare earths and actinides. Contributions where the distinct properties of the f–block elements are exploited for a variety of applications are also welcome. Session Chairs for this thematic session will be:

Mauro Botta received the Laurea cum laude in Chemistry from the University of Turin in 1985. In 1998, he moved to the University of Eastern Piedmont “Amedeo Avogadro” where currently he is Professor of Inorganic Chemistry. Throughout his career, his scientific interests have focused on the use of NMR techniques for the characterization of inorganic systems, starting from organometallic clusters and then moving on the complexes of the f-elements.
Current research interests are: i) multifrequency and multinuclear NMR relaxometric techniques for the characterization and development of paramagnetic systems as imaging probes; ii) synthesis and characterization of multi-functional inorganic nanoparticles; iii) multimeric systems as high-field MRI contrast agents. Recipient of the “Raffaello Nasini” gold medal award for Inorganic Chemistry of the Italian Chemical Society and of the “GIDRM gold medal for magnetic resonance”.

Alexander A. Trifonov was born in 1962, studied chemistry at the State University of Gorky (USSR) and in 1984 received his diploma degree. During his PhD studies he has been working at the Institute of Organometallic Chemistry of Russian Academy of Sciences (Nizhny Novgorod) under supervision of Prof. M.N. Bochkarev and in 1989 received his PhD at the Institute of Organoelement Compounds of Russian Academy of Sciences (Moscow).
He did postdoctoral studies at the Technical University of Berlin, Germany (Prof. H. Schumann, 1991), Université de Paris-Sud, France (Prof. H. Kagan, 1993-1995). In 1999-2000 he was an A. von Humboldt fellow in the research group of Prof. J. Okuda (Mainz University, Germany).Until 2016 he was a vice-director of Institute of Organoelement Compounds of Russian Academy of Sciences (Moscow) and in July 2018 he has become director of this institute

T03 – Activation of small molecules

The activation of chemically inert small molecules is the key to their use as synthetic building blocks and in chemical energy storage. In this Topic, we will collect contributions on small molecule activation and reactivity by molecular main group and transition metal complexes, including (i) H2, O2, N2, NO and N2O binding and reactivity; (ii) redox functionalization of organic substrates by CO2 and CO; (iii) use of CO2 as a C1-feedstock; (iv) C–H bond functionalization with O2, N2O, NH3; (iv) H2O splitting. Session Chairs for this thematic session will be:

Luca Gonsalvi (Parma, Italy, 1968) obtained his Laurea Degree in Chemistry in 1994 at the University of Parma (Italy). From 1996 to 1999 he joined the group of Anthony Haynes and Peter M. Maitlis at the University of Sheffield (UK) as Ph. D. student, In December 1999, he moved to Delft University of Technology (NL) as Postdoctoral Research Associate to work with Roger A. Sheldon and Isabel W. C. E. Arends. In December 2001, he joined ICCOM CNR Florence (Italy) as Staff Researcher. Since 2010 he is Senior Researcher and Group Leader at ICCOM CNR.
His research interests, centred on homogenous catalysis, include organometallic chemistry and catalysis in water, carbon dioxide activation and utilisation, hydrogen activation by precious and base transition metals. He has co-authored more than 100 articles on peer-reviewed journals, filed 1 patent and presented his work at more than 140 conferences and symposia, including Keynote and Plenary Lectures. Recently, he has been Scientific Secretary of the 28th International Conference on Organometallic Chemistry (ICOMC 2018).

Sven Schneider (*1972) is full professor and managing director of the Institute for Inorganic Chemistry at the University of Göttingen, Germany. His research interests are focused on catalysis, the activation of small molecules (particularly N2, CO2 and H2) for chemical synthesis and sustainable energy storage, and gas phase deposition of inorganic materials.
He is vice-chair of the collaborative research center SFB1073 and received an ERC Consolidator Grant in 2015. He currently serves on the editorial board of Structure and Bonding and the editorial advisory board of Inorganic Chemistry.

Sven Schneider

T04 – Clusters and POMs

The symposium will provide an overview of emerging trends and modern perspectives in the science of molecular metal-oxides, inorganic clusters and nanoparticles. Contributions will include fundamental studies on clusters/POMS synthesis, characterization, design and simulation, while addressing the complexity of related functional interfaces, hybrid systems, supramolecular assemblies and nanomaterials. Session Chairs for this thematic session will be:

Marcella Bonchio is a Full Professor of Chemistry at the Department of Chemical Sciences of the University of Padova and the scientific leader of the NanoMolCat group (http://www.chimica.unipd.it/nanomolcat/). In 2011, She received the Italian Chemical Society Award for Research Innovation. Research achievements target the design of hybrid catalysts integrating nano-inorganic clusters with organic interfaces, for applications in solar fuels, smart-materials and nano-medicine. Prof. Bonchio’s publications include the breakthrough design of highly robust polyoxometalate-based systems for photo-induced water oxidation.
She is responsible for several funded projects in the fields of functional nano-materials, and artificial photosynthesis. Group alumni, featuring an optimal 50:50 gender balance, are now employed by academic institutions and international companies. She is part of the Scientific Board of international journals (Wiley-Eur. J. Inorg. Chem., ChemSusChem and Cell Press-Chem).

Carles Bo Jané started his scientific career at the University Rovira i Virgili where he got a Ph.D. in 1992 and became assistant professor at the Physical and Inorganic Chemistry Department few years later. From 2004, he heads a group at the Institute of Chemical Research of Catalonia, ICIQ, in Tarragona. Main research activity is devoted to the application of computational chemistry methods to a diversity of topics, often in very close collaboration with experimentalists.
His research deals with homogeneous catalysis, unravelling reaction mechanisms and understanding ligand and additives effects, properties of supramolecular assemblies, and polyoxometalates, electronic structure and multi-scale modelling.

T05 – Main Group Coordination Chemistry

Presentations under this Topic will describe recent advances made in the chemistry of main group (s- and p-block) elements. These presentations will not only document the synthesis, the characterization and the reactivity of new bonding motifs in coordination complexes, but also the development of novel synthetic strategies and main group-based applications. Session Chairs for this thematic session will be:

Vito Capriati is Associate Professor of Organic Chemistry at the University of Bari (I) and took his National Habilitation for Full Professorship in Organic Chemistry in 2014. He is co-founder of the academic spin-off “Synchimia srl” and Director of Interuniversity Consortium CINMPIS since 2016. Main research interests revolve around the chemistry of highly polarised organometallic compounds, the synthesis and reactivity of new heterocycles, asymmetric catalysis, and the development of new sustainable chemical processes using unconventional reaction media (e.g., water and deep eutectic solvents).
He was the recipient of the CINMPIS Prize “Innovation in Organic Synthesis” (2009) and of the Award of the Italian Chemical Society (Organic Division) for “Mechanistic and Theoretical Aspects of Organic Chemistry” (2014). He is author of over 120 papers, 7 book chapters, and co-editor of “Lithium Compounds in Organic Synthesis From Fundamentals to Applications” (2014) (h-index 31, Scopus).

François Gabbaï was born in France and studied in Bordeaux where he obtained a bachelor in 1990.  The same year, he crossed the Atlantic to undertake his graduate work at the University of Texas at Austin with Alan Cowley.  Upon completion of his Ph.D. in 1994, he received an Alexander von Humboldt fellowship and joined the group of Hubert Schmidbaur at the Technische Universität München as a postdoctoral fellow. He stayed in Munich for four years and ultimately received a Habilitation.  In 1998, he joined Texas A&M University where he now holds the Arthur E. Martell Chair of Chemistry.
He is a member of the advisory board of several international journals and has served as an Associate Editor for Organometallics since 2011.  He is a Fellow of the American Chemical Society, a Fellow of the Royal Society of Chemistry and the recipient of the 2009 North American Dalton Lectureship. He was also recognized in 2016 with the 2016 ACS F. Albert Cotton Award in Synthetic Inorganic Chemistry.

T06 – Molecular magnetic materials

Central to this topic is the interplay between coordination chemistry and spin-related properties of materials. Synthetic engineering and theoretical modeling of coordination environments promises understanding and control of electronic structure, vibrations and spin dynamics relevant to all flavors of magnetic properties including quantum information processing. Session Chairs for this thematic session will be:

Roberta Sessoli developed her career at the University of Florence where she is full professor since 2012. She played a key part in the original discovery of single-molecule magnets (SMM). Her current interests include the interplay between magnetism and chirality, magnetic molecules on surfaces to form hybrid interfaces for spintronics, and molecules with highly coherent spin dynamics for quantum information.
For her scientific achievements she has been selected as a member of the Science and Technology Advisory Council of the President of the European Commission and she received prestigious prizes such as the Distinguished Woman in Chemistry award from IUPAC (2015), the Lecoq de Boisbaudran award from the European Rare Earths Society (2015), and the Agilent Technologies Europhysics prize (2002). In 2010 she has been awarded with an ERC Advanced Grant

Jesper Bendix obtained his Ph.D. in Chemistry in 1998 from University of Copenhagen under the supervision of Prof. C. E. Schäffer. Following post-doctoral stays in Mülheim, Germany at Caltech, USA, at the University of Utah and in Berne, Switzerland, , he returned to University of Copenhagen where he is currently heading the Section for Inorganic Chemistry. He has published ca. 160 research papers mostly in coordination chemistry.
He is recipient of the Ellen and Niels Bjerrum chemistry prize and elected member of the Royal Danish Academy of Sciences and Letters. His current research focuses on synthesis as well as electronic and structural studies of molecule-based magnetic materials with emphasis on structural control and building-block approaches to magnetic systems. In parallel he is studying synthesis and the electronic structure of high-valent metal centers with strongly donating ligands from the isoelectronic series: carbide, nitride, oxide and fluoride.

T07 – Metal Organic Frameworks and Covalent Organic Frameworks (MOFs & COFs)

This symposium will bring together MOFs and COFs scientists to discuss the current state-of-the-art and the future perspectives in the chemistry of these materials, with the aim of making enduring and valuable personal connections and (possibly) new collaborations. Contributions in the fields of synthesis, characterization techniques, computational studies and applications of assorted nature in all fields of chemistry and physics are welcome. Session Chairs for this thematic session will be:

Andrea Rossin was born in Biella, Northern Italy, in 1974. He got his degree with full marks in Inorganic Chemistry in 1999 at the Università di Torino (Italy), In the years 2001-2004 he developed his Ph.D. work at Cardiff University (Cardiff, Wales, UK). In year 2005 he was a post-doctoral fellow of the EU-FP6 ITN network AQUACHEM at the Universitat Autònoma de Barcelona (Barcelona, Spain). Between 2006 and 2009 he worked as a post-doctoral fellow at ICCOM-CNR in Florence. From 2010 he is a permanent researcher at ICCOM-CNR. His research interests are twofold: (a) Metal Organic Frameworks (MOFs) synthesis, characterization and applications in CO2 storage, heterogeneous catalysis and luminescent sensing; (b) reactivity studies of ammonia-borane and amino-boranes as chemical hydrogen storage materials with transition metal organometallics.

Takashi Uemura is Professor at Department of Advanced Materials Science, Graduate School of Frontier Sciences, The University of Tokyo, Japan. He received his Ph.D. degree at Kyoto University in 2002. He then began his academic career as Assistant Professor (2002) and then Associate Professor (2010)., He was promoted to Professor at the University of Tokyo in 2018.  In 2006–2010, he was also a researcher of PRESTO programme of Japan Science and Technology Agency (JST). Since 2013, he has been a research director for a CREST programme of JST.  His research interest is the preparation of synergistic nanohybrids between coordination compounds and polymeric materials. He has been awarded several prizes, including Young Scholar Lecture Series, CSJ (2008), CSJ Award for Young Chemists (2010), Young Scientists’ Prize, Kao Research Initiative Award (2014) and JSPS Prize (2016).

T08 – Luminescent coordination compounds

Luminescent coordination compounds are attracting increasing interest because of their potential applications in diverse fields such as light-emitting devices, luminescent sensors and bioprobes. The session is expected to showcase recent advances in design, synthesis and characterization of luminescent coordination compounds, tuning of their electronic properties towards optimization, and their use in optical spectroscopy and bioimaging. Session Chairs for this thematic session will be:

Paola Ceroni is full professor at the University of Bologna. In 1998 she obtained her PhD degree in Chemical Sciences at the University of Bologna. Current research is focused on photochemistry and electrochemistry of supramolecular systems with particular emphasis towards luminescent nanocrystals.
Her research on luminescent silicon nanocrystals was funded by an ERC Starting Grant PhotoSi (2012-2017) and an ERC Proof of Concept SiNBiosys (2017-2019).
She is co-author of 190 scientific papers in refereed international journals. h-index: 47 (Google Scholar). She is co-author of a book entitled: “Photochemistry and Photophysics : Concepts, Research, Applications” (2014, Wiley-VCH) and the editor of three books published by Wiley and Springer. She is fellow of the Royal Society of Chemistry. She has presented oral communications at more than 70 national and international conferences and 30 invited lectures.

Max Massi obtained his PhD in Chemical Science at the University of Bologna in 2005. He then spent three years at Monash University (Melbourne, Australia) as a Postdoctoral Research Associate in the group of Prof. Phil Andrews and Prof. Peter Junk. In 2009 he moved to Curtin University (Perth, Australia) to begin his independent academic career as a Lecturer and he was also awarded an Australian Postdoctoral Fellowship by the ARC. In 2013, he was awarded a Future Fellowship from the ARC.
Max is currently as Associated Professor at the School of Molecular and Life Sciences and member of the Curtin Institute for Functional Materials and Interfaces at Curtin University. The research carried out in Max’s group focuses on the synthesis and photophysical investigation of transition metal and lanthanoid coordination or organometallic complexes, including their potential applications in materials and life sciences. He is author of 90 peer-reviewed publications and 5 patents.

T09 – Chiral coordination compounds and applications

This session is focused on the synthesis and characterization of chiral coordination compounds, where chirality may stem from the ligands or from the metal coordination geometry. Applications in stereo- and enantioselective transformations are also welcome. Session Chairs for this thematic session will be:

Francesco Ruffo

Francesco Ruffo is Associate Professor of General and Inorganic Chemistry at the ‘Università di Napoli Federico II’. The research activity is centred in the field of Organometallic Chemistry, with focus on:
1) complexes containing chiral ligands based on carbohydrates for biological application and asymmetric catalysis;
2) platinum(II) e palladium(II) compounds containing unsaturated ligands;
3) catalytic conversion of oily biomass.

Bas de Bruin studied chemistry at the University of Nijmegen from 1989-1994. He obtained his Ph. D. (April 20, 1999) from the same university. After some post-doctoral experiences, he returned to the University of Nijmegen as an Assistant Professor in Inorganic Chemistry. He moved to the University of Amsterdam in 2005, where he was promoted to Associate Professor in 2008). He was promoted to Full Professor at the same university in 2013. Bas de Bruin presently focuses at the development of new tools in homogeneous catalysis, using metals in unconventional oxidation states and unconventional ligands, specifically aiming at the development of new catalytic organic reactions.

Bas De Bruin

T10 – Heterogeneous catalysis

All aspects related to the preparation, characterization, modelling and reactivity of heterogeneous catalysts originated from coordination compounds, with particular attention to the relationship between catalyst selectivity and the molecular approach in its synthesis. Single-site well-defined heterogeneous catalysts obtained by organometallic and coordination compounds represent a key example of the winning strategy to achieve highly active and selective catalysts for industrially relevant processes for energy production and environment. Session Chairs for this thematic session will be:

Paolo Fornasiero is full professor of Inorganic Chemistry at the University of Trieste, Italy. Research interests are in the areas of applied nanomaterials, heterogeneous catalysis, solar fuels, energy related processes, biomass conversion and environment protection. Since 2015 he serves as Associate Editor of ACS Catalysis. He received several awards, including the 2018 M.T. Messori Roncaglia Award, the 2017 Edoardo Kramer Award, the 2016 IACS Heinz Heinemann Award, the 2013 Chiusoli Medal and the 2005 Nasini Medal.
He is co-author of over 230 scientific publications, 13 book chapters and editor of various special issues. Current h-index is 72 with over 21.500 citations (Google Scholar).

Prof. Mizuki Tada was received her Ph.D. at the department of chemistry, the University of Tokyo in 2005. She became an assistant professor at the University of Tokyo and moved to Institute for Molecular Science as an associate professor in 2008. She is a professor of chemistry at Nagoya University since 2013. Her research interests are the design of supported metal complexes, heterogeneous catalysis, and operando imaging of solid materials and fuel cells.

Mizuki Tada

T11 – Electrocatalysis & Photocatalysis

The scope of the symposium is to gather the latest advances in electrochemistry, coordination chemistry and materials science for the photochemical, electrochemical and photo-electrochemical approach in diverse applications. Contributions are expected in the fields of operando diagnostics, in situ characterization of high reactive intermediates and fuel cells. Theoretical studies and computational modelling for electrochemical applications and for investigation of the mechanisms of chemical and electrochemical reactions are also highly welcome. Session Chairs for this thematic session will be:

Francesco Paolucci

Prof. Francesco Paolucci.. He received his degree in chemistry, magna cum laude, from the University of Bologna, Italy, in 1986
Since 1/12/2011 Professor of Chemistry University of Bologna.
Visiting Professor at Keio University, Japan (2015); Professeur Invité of Université de Bordeaux, France (2013); Chercheur Invité CNRS, Bordeaux, France (2010). He is Head of the Dept. of Chemistry “Giacomo Ciamician” Univ. of Bologna and Vice-president of the International Society of Electrochemistry (2019-2021).
He is co-author of more than 190 publications in peer-reviewed International Journals and chapters in books. H-index: 45 (Scopus), 50 (Google Scholar)
His interest focuses on the electrochemistry of carbon nanostructures, fullerenes, carbon nanotubes and graphene and their exploitation in energy-related applications,

Dmitry Yakhvarov was born in 1974 in Kazan, Russian Federation. He graduated the Department of Physical Chemistry of Kazan State University in 1996 with excellent marks. He got his Ph.D. (Candidate of Sciences) in February 2000 and became a Dr. habil. (Doctor of Sciences) in 2012. Since 1995 he is a Chief Scientist of Arbuzov Institute of Organic and Physical Chemistry of the Federal Research Center “Kazan Scientific Center of Russian Academy of Sciences” and head of the Laboratory of Organometallic and coordination compounds. Dmitry Yakhvarov is a specialist in phosphorus, physical, inorganic, coordination and organoelement chemistry, catalysis and electrochemistry.
His main research interests are focused on the development of new technologies for the preparation of organophosphorus and organoelement compounds, including organometallics, by electrochemical methods based on the principles of “green chemistry”. In 2016 he was awarded the honorary title of “Professor of the Russian Academy of Sciences”.

T12 – Homogeneous Catalysis

This session brings together scientists involved in the field of catalytic reactions in solution, featuring elements from across the Periodic Table. Contributions are aimed to stimulate discussions about: synthesis and characterization of coordination compounds as well as compounds based on main group metals and lanthanides that find application as homogeneous catalysts; new and known catalytic reactions; mechanistic investigations based on either experimental or computational studies. Session Chairs for this thematic session will be:

Barbara Milani

Barbara Milani is associate professor of Inorganic Chemistry at the University of Trieste, Italy. Her main research interests deal with organometallic chemistry and homogeneous catalysis, mainly applied to polymerization reactions. She is co-author of 73 publications, 2 books chapters and 7 patents. Current h-index: 26.
Since 2008 she is member of the Advisory Board of Dalton Transactions, and since 2009 of the International Advisory Board of the International Symposium on Homogeneous Catalysis (ISHC).
She is the Coordinator of the PhD School in Chemistry jointly held by University of Trieste and University Ca’ Foscari Venezia. She has been the scientist in charge of National and International research grants, including a European Research Training Network with a project entitled: “Atom-economic synthesis using palladium, the chamaleon catalyst”. In April 2017 she got the National Abilitation for Full Professor in Inorganic Chemistry

Professor Laurel L. Schafer completed her PhD in catalysis in 1999 and an NSERC Post-Doctoral Fellowship in metal-mediated organic synthesis at the University of California – Berkeley. She began her independent career at UBC in 2001 and has risen through the ranks to Full Professor.
Laurel has received numerous awards recognizing her research excellence including a Humboldt Research Award (2010), an NSERC Discovery Grant Accelerator Award (2011), a UBC Sustainability Research Fellowship (2011), the Clara Benson Award (2014) and she is a Canada Research Chair in Catalyst Development (2011 – 2021). She is also an FSRC, FSRC(UK) and FAAAS and an Associate Editor at Organometallics. Laurel is a leader in the development of new catalysts using early transition metals for the efficient, atom economic and selective synthesis of amine functionalized small molecules and materials of interest to the pharmaceutical, agrochemical, fine chemical and polymer industries.

T13 – Metals in biology

This session will be mainly devoted tp address the vital roles of metals to perform a dizzying array of unique biological functions. It is established that up to one-third of cellular proteins contain a bound metal cofactor; remarkably, metalloenzymes catalyze several chemically challenging and important reactions such as the ATP-driven reduction of dinitrogen or the photochemical oxidation of water. The malfunctioning of the trafficking, chaperoning or homeostasis of essential metal ions may cause numerous devastating human diseases. Session Metals in Biology will deal with research on metalloproteins, biomimetic/bioinspired catalytic systems and metal-based diseases.

Paola Turano

Paola Turano received her Ph.D. in Chemical Sciences at the University of Florence in 1993, where she became Associate Professor of General and Inorganic Chemistry in 2002. The main topics of her research are: development and application of solution and solid state NMR methods for the characterization of biomolecules, with a focus on paramagnetic metalloproteins and high molecular weight systems; characterization of protein-protein functional interactions and protein-small molecules interactions for drug design; structural biology of proteins involved in iron metabolism; NMR-based metabolomics and biobanks. She was the recipient of the “Raffaello Nasini Medal 2003” of the Inorganic Chemistry Division of the Italian Chemical Society. In the period 2012-2014 she was the Chair of the Division of Chemistry in Life Sciences of EuCheMS. Presently she is Chair of the Scientific Committee of the da Vinci European Biobank and member of the GIDRM Council. .

Patrick Gamez received his PhD at the University of Lyon and was awarded the French Chemical Society Prize for his PhD research. After postdoctoral stays at the MPI für Kohlenforschung (Germany) and at the University of Strasbourg (France), he became research associate at Leiden University (The Netherlands). Since October 2010, he is ICREA Research Professor in bioinorganic chemistry at the University of Barcelona. He is the (co-)author of over 235 publications (h-index: 53; >10800 citations). He is president founder of the Association Science Squared, vice-president of the Spanish Bioinorganic Chemical Society and Editor-in-chief of the journal Chemistry Squared. He is member of the Royal Society of Chemistry, Royal Spanish Society of Chemistry, Society of Biological Inorganic Chemistry and of the Advisory Board of Inorganic Chemistry Frontiers. He has been Associate Editor of RSC Advances (2015-2017). Since June 2016, he is Fellow of the RSC.

T14 – Metals in Medicine, Diagnosis and Therapy

This session will welcome contributions from the following topics: 1) Metal-based drugs, inorganic or hybrid nanomaterials and targets in the diagnosis, imaging and treatment of diseases; 2) Chemical approaches to interrogate or therapeutically alter the metallo-biology of cellular redox regulation, pathogenesis, cancer, immune diseases and neurodegeneration. 3) Strategies in the commercialization of metal-based therapeutic, diagnostic and theranostic agents. Session Chairs for this thematic session will be:

Silvio Aime

Silvio Aime is Professor of General and Inorganic Chemistry at the Department of Molecular Biotechnologies and Health Sciences and Head of the Center of Excellence on Molecular Imaging of the University of Torino.
His main research activities deal with the development of Imaging Probes for MR-Molecular Imaging applications (paramagnetic complexes, nanoparticles, CEST agents, targeting and responsive probes, hyperpolarized Para-Hydrogen containing molecules).
He is author of more than 600 peer-review publications and 30 patents. In the last decade his research interests have included the design and testing of imaging probes for other imaging modalities (nuclear, optical and photoacoustic imaging). Recent awards: 2013: World Molecular Imaging Society Gold Medal Award; 2013: Fischer Award for Contrast Media Research; 2014: Gold Medal “Amedeo Avogadro” from the Italian Chemical Society.

Prof. Zijian Guo received his PhD degree from the University of Padova and worked as a postdoctoral research fellow at Birkbeck College, the University of London. He worked also as a research associate at the University of Edinburgh. He joined the School of Chemistry and Chemical Engineering at Nanjing University as a professor of chemistry in 1999, where he served as the director of the State Key Laboratory of Coordination Chemistry from 2000 to 2009 and the dean of the School of Chemistry and Chemical Engineering from 2006 to 2014. He was elected to the fellow of the Chinese Academy of Sciences in 2017. He served as editorial/advisory board members or associated editors of several national and international chemistry journals.
The major research interest of his lab focuses on the chemical biology of metals and metallodrugs. He was awarded the First Prize in Natural Sciences from Ministry of Education of China in 2015 and Luigi Sacconi Medal from the Italian Chemical Society in 2016.

Zijian Guo

T15 – Nanoscience and nanotechnology

This Session collects examples of relevant nanomaterials where coordination chemistry plays a relevant role in determining their properties. It will include: hybrid materials, host-guest ordered materials, DSSC and perovskite solar cells, functionalized nanocarbons, quantum dots and low-dimensional materials, molecular nanomachines and nanodevices, surface engineered materials, OLEDs and other materials for photonics, smart photosensitizers. Session Chairs for this thematic session will be:

Gabriele Centi is full professor of Industrial Chemistry at the University of Messina, Italy, and President of the European Research Institute of Catalysis (ERIC). Research interests are in the areas of applied heterogeneous catalysis, sustainable energy and chemical processes, biomass conversion and environment protection.
He was coordinator of the EU Network of Excellence IDECAT, and is actually President of IACS (International Association of Catalysis Societies) and vice-President of the InterUniversity Consortium on the Science and Technology of Materials (INSTM). He received several awards, and is involved in various editorial activities.
He is author of over 450 scientific publications, 12 books and editor of various special issues. Current h-index is 77 with over 22.250 citations (Google Scholar).

Dr. Jing-Lin Zuo is Full Professor in Nanjing University, China. He has been the Cheung Kung Scholar of Ministry of Education, China (since 2009) and Director of State Key Laboratory of Coordination Chemistry in Nanjing University (Since 2010).
His research interests are focused on functional coordination chemistry and organometallic chemistry, including: (1) Molecular conductors and conductive metal-organic frameworks; (2) Multifunctional magnetic materials, such as single molecule magnets, magnetic semiconductors, and spin-crossover materials; (3) Electro-optical conversion materials (OLEDs); (4) Functional self-healing materials based on coordination bonds. He has published about 300 peer reviewed articles. He is currently the Associate Editor of ACS Omega, and the Editorial Board Member of Sci. Chin. Chem. and Chin. J. Inorg. Chem.

Jing-Lin Zuo

T16 – Coordination chemistry for energy applications (harvesting, production and storage):

This session focuses on the applications of coordination chemistry in energy production and storage with emphasis in processes based on renewable sources. Contributions on the utilization of coordination complexes as catalysts (molecular, immobilized, and nanosized) for water splitting, H2 evolution, water oxidation, CO2 reduction, H2 storage/release in/from suitable molecules, Fisher-Tropsch reactions, as well as antenna systems, photosensitizers, redox mediators, membranes, are welcome. Session Chairs for this thematic session will be:

Alceo Macchioni is Full Professor of General and Inorganic Chemistry at the University of Perugia. His interests include the development of efficient catalysts for the oxidation of water, a key process for the photosynthesis of solar fuels, exploiting organometallics as precursors and the investigation of the structure/activity relationships in organometallic catalysts for olefin polymerization, by means of multinuclear and multidimensional NMR spectroscopy. He is author of more than 177 papers (H-index = 44, total citations > 7400).

Kuo-Wei Huang is currently Professor and the Director of Chemical Sciences Programme at KAUST. He received his B.S. from National University of Taiwan and Ph.D. from Stanford University. Prior to joining KAUST as a founding faculty member, he had been Assistant Professor in National University of Singapore and Goldhaber Distinguished Fellow at Brookhaven National Laboratory.
He has coauthored over 200 publications and is a co-inventor of 18 patents and patent applications. The research interests of his group include CO2 utilization, hydrogen storage, small molecules activation and kinetic and DFT studies of transition metal and organocatalysis. He also serves as an Associate Editor of Journal of Saudi Chemical Society (JSCS) and Journal of Molecular and Engineering Materials (JMEM).

Kuo-Wei Huang

T17 – Green Chemistry

The scientific community is responsibly oriented to discovering innovative processes for a sustainable chemical industry. Coordination chemistry provides fundamental knowledge to the design of catalysts and strategies for boosting innovation. This Session will reveal the forefront of novelties in synthetic chemistry targeting high conversion yield and selectivity, low energy input and the use of renewable carbon (biomass, CO2, waste) for efficient production of fine chemicals, intermediates, and value-added end-products reducing emissions and saving natural resources. Session Chairs for this thematic session will be:

Angela Dibenedetto

Angela Dibenedetto is Associate Professor at the University of Bari-UNIBA (IT) – Department of Chemistry. Her scientific interests are focused on carbon dioxide utilization in synthetic chemistry, catalysis, coordination chemistry and organometallic chemistry, green chemistry, marine biomass (algae) production by enhanced carbon dioxide fixation, marine biomass as source of fuels and chemicals applying the Biorefinery concept.
Actually she is director of the Interuniversity Consortium on Chemical Reactivity and Catalysis-CIRCC. Author of over 150 scientific papers published in international Journals since 1995 and several book Chapters. She was Invited speaker at several International conferences.
Current h-index is 37 with over 5858 citations (Google Scholar).

László T. Mika was born in 1976 Budapest, Hungary. He studied chemical engineering (University of Veszprém, Hungary) and chemistry (Eötvös University, Hungary) and received a PhD degree in organic- and organometallic chemistry from Eötvös University in 2010, under supervision of Prof. István T. Horváth. He worked as an assistant professor at Institute of Chemistry, Eötvös University until 2012, when he joined to the Department of Chemical and Environmental Process Engineering, Budapest University of Technology and Economics as an associate professor.
Since 2016 he is the head of Department and Laboratory of Catalysis. His research activity documented by ca 40 scientific papers covers different areas of green chemistry (biomass conversion, applications of alternative reaction media for catalysis including designing of new catalytic systems). He received the Janos Bolyai Scholarship of Hungarian Academy of Sciences (2014–2017), József Varga Scholarship (2017–2019) and the Bolyai Plaquette (2018).

László T. Mika

T18 – Coordination Compounds for Optics and Electronics

This topic deals with molecules for optoelectronics and photonics. It is mainly based on the molecular engineering, synthesis, characterization and nano-organization of coordination compounds with luminescent and/or second-order nonlinear optical properties, tunable and eventually switchable. These complexes can find application in light-emitting devices (OLEDs, LEECs), luminescent probes for bioimaging and as sensors for bioactive molecules in solution, and in the field of nonlinear optics. Session Chairs for this thematic session will be:

Dominique Roberto

Born in Marseille on July 9th 1961. BSc (1984) and PhD in Chemistry (1989), earning several awards including the gold medal of the General Governor of Canada (University of Ottawa). Fellowship from Italian embassy in Canada (1987, University of Parma). Since 1989 she is at the University of Milan where she is now full professor of General and Inorganic Chemistry. Coordinator of the PhD in Industrial Chemistry (2009-2015 and 2018-2021). Member of the Directive Council of the Center of Excellence CIMAINA and of the Governing Council of the National Interuniversity Consortium of Materials Science and Technology (INSTM; 2016-2020). “Flavio Bonati” (GICO, SCI;1996) and “Federchimica-per un futuro intelligente” (1998) awards.
Her main research interests are the preparation of coordination compounds with second-order nonlinear optical and/or luminescent properties or for application in dye-sensitized solar cells. Author of 140 publications and three patents

Our research deals with the design and the synthesis of metal complexes and coordination compounds [Ir(III), Pt(II)] for optics and opto-electronics. We are investigating the functionalization of photo-active ligands and metal-based systems, for their photochemical and photophysical properties: luminescence and second order nonlinear optics. We are also developping organometallic photochromes as metallo-switches for the modulation of linear and non linear optical properties. The final aim of this research is the achievement of multifunctional organometallic materials. A second aspect of our research, developed in collaboration with Pr. H. Doucet and Dr J.-F. Soulé (Rennes), focuses on metal-catalysed C-H bond activation of (hetero)aromatics directed towards new atom-economic reactions. We have pioneered the use of Pd-catalysed C-H bond activation reactions for the access to luminescent molecules and complexes by designing simple and direct synthetic routes

T19 – Supramolecular chemistry and self-assembly *

The session aims to showcase recent developments in metallo-supramolecular chemistry and highlight the role of metal ions in self-assembly. The lectures will deal with the synthesis, characterization and application of metal-ligand assemblies. The bottom-up construction of non-trivial topological structures, molecular devices and machines, and hard and soft materials based on coordination compounds will also be discussed. Session Chairs for this thematic session will be:

Alberto Credi

Alberto Credi (b. 1970) is professor of Chemistry at the Università di Bologna and Associate Research Director at the National Research Council (CNR). He is the Director of the Center for Light Activated Nanostructures (CLAN), a University-CNR joint laboratory for research in the areas of supramolecular chemistry and photochemistry, materials science and nanoscience. His contribution to the realization of logic devices, machines and motors of nanometer size is internationally recognized. He has authored 4 books and over 270 scientific publications (h = 69), he received several prestigious grants and awards, including an ERC Advanced Grant, and he delivered more than 150 invited talks at national and international conferences and seminars. Since the beginning of his career he is engaged in the popularization of chemistry disciplines.

Kay Severin is professor of chemistry at the Ecole Polytechnique Fédérale de Lausanne (EPFL), Switzerland. His research group works on synthetic organic and inorganic chemistry, with projects ranging from small molecule activation (the chemistry of laughing gas) to the construction of functional nanostructures.

T20 – Computational and Theoretical Coordination Chemistry

This session on Computational and Theoretical Coordination Chemistry will showcase the power of modern theoretical methods and applied computational chemistry in understanding the behavior and properties of molecular, supramolecular and extended systems. Contributions will range from fundamental structure and spectroscopy to applications in reactivity and magnetism, stressing the essential role played by computation in complementing and enhancing experimental studies. Session Chairs for this thematic session will be:

Gianfranco Pacchioni received his PhD at the Freie Universität Berlin in 1984. He worked at the IBM Almaden Research Center, and at the Technical University of Munich. Since 2000 he is Full Professor at the University of Milano Bicocca where he is presently Vice Rector for Research and where he has been Director of the Department of Materials Science for several years. He has published more than 500 papers and given about 400 invited talks on the electronic structure of oxides and their surfaces and interfaces, defects in oxides, supported metal clusters, and catalysis. His work has received 23.000 citations, with an h-index of 79 (source: Web of Science). He received several awards and is Fellow of the Accademia Nazionale dei Lincei (2014), the Academia Europaea (2012), and the European Academy of Sciences (2009).

Stuart Macgregor is full Professor in the Institute of Chemical Sciences at Heriot-Watt University, Edinburgh. His research uses computational chemistry to model the structure and reactivity of transition metal systems, with a particular focus on C-H and C-F bond activation, sigma-alkane complexes and their applications in homogeneous catalysis and organometallic reactivity in the solid-state. His work is performed in close collaboration with a number of experimentalists. Previously Stuart received his PhD from the University of Edinburgh (1992) and was awarded a NATO Western European Fellowship to work with Odile Eisenstein at the Université de Paris-Sud in Orsay (1992-1994). After two years at the Australian National University he returned to Edinburgh and to take up a lectureship at Heriot-Watt University in 1997. He was promoted to full Professor in 2009 and acted as Head of the Institute of Chemical Sciences from 2010 to 2014. ORCiD: 0000-0003-3454-6776

T21 – Metal ion recognition, sensing, and transport:

This session combines metal ion recognition, sensing and transport by nature and by tailor made receptors/chemosensors and materials. Topics include process control, environmental monitoring, food analysis, medical diagnosis and imaging of metals, but also metal ion regulation and transport in biological systems. Other contents deal with selective sensing of anionic and neutral guest species by metal complexes, as well as stimulus-responsive metal complexes and tracing of metal ions in biological systems. Session Chairs for this thematic session will be:

Vito Lippolis graduated in Chemistry in 1991 at the University of Pisa (Italy) and in the same year gained the diploma in Chemistry at the ‘‘Scuola Normale Superiore’’ of Pisa. In 2000 he received his PhD degree from the University of Nottingham (UK) under the supervision of Professor Martin Schröder. In 2001 was appointed to the chair of inorganic chemistry at the University of Cagliari (Italy). He has published about 290 publications and numerous book chapters (H-Index 42 from Scopus). His research interests at the moment mainly include: supramolecular chemistry and crystal engineering, coordination chemistry of macrocyclic ligands and development of molecular sensors and ionophores for heavy metal ions and anions, luminescent materials, reactivity of chalcogen donor molecules towards halogens and inter-halogens. He is Member of the International Advisory Board of the International Conference on the Chemistry of Selenium and Tellurium (ICCST).

Roland K. O. Sigel studied Chemistry at the University of Basel, followed by a PhD at the University of Dortmund, Germany, and a postdoc at Columbia University, USA. He joined the University of Zurich, Switzerland, in 2003 as Assistant Professor, where he is now a Full Professor of Chemistry and Dean of the Faculty of Science since 2017. He received numerous awards including an SNF-Förderungsprofessur, the EuroBIC Medal, the SCS Alfred Werner Prize, and an ERC Starting Grant.
He is co-chair of ICBIC-19 in Interlaken (CH), the Swiss representative of the EuChems Division of Chemistry for Life Sciences, and elected Secretary of the Society of Biological Inorganic Chemistry, as well as the ICBIC conference series. His research deals with metal ion binding to large nucleic acids applying an interdisciplinary approach including (bio)chemical syntheses, single molecule and NMR spectroscopy. Roland has published more than 100 papers and is co-editing the series Metal Ions in Life Sciences.

Roland K. O. Sigel