Solà, Miquel

Catalysis and Aromaticity

Contact info:
Dr. Miquel Solà
miquel.sola@udg.edu
Tel. (+34) 972 41 89 12
Website

MiquelSola

Selected publications


Jordi Poater, Pascal Vermeeren, Trevor A. Hamlin, F. Matthias Bickelhaupt, Miquel Solà
On the existence of collective interactions reinforcing the metal-ligand bond in organometallic compounds
Nat Commun, 2023, 14, –
DOI: 10.1038/s41467-023-39498-y

Fangxiang Sun, Shuaimin Tan, Hou-Ji Cao, Chang-sheng Lu, Deshuang Tu, Jordi Poater, Miquel Solà, Hong Yan
Facile Construction of New Hybrid Conjugation via Boron Cage Extension
J. Am. Chem. Soc, 2023, 145, 3577-3587
DOI: 10.1021/jacs.2c12526

Miquel Solà
Aromaticity rules
Nat. Chem., 2022, 14, 585-590
DOI: 10.1038/s41557-022-00961-w

Ouissam El Bakouri, Dariusz W. Szczepanik, Kjell Jorner, Rabia Ayub, Patrick Bultinck, Miquel Solà, Henrik Ottosson
Three-Dimensional Fully π-Conjugated Macrocycles: When 3D-Aromatic and When 2D-Aromatic-in-3D?
J. Am. Chem. Soc., 2022, 144, 8560-8576
DOI: 10.1021/jacs.1c13478

Simon Zank, JesúsManuel Fernández-García, Anton Stasyuk, Alexander Voityuk, Marcel Krug, Miquel Solà, Dirk Guldi, Nazario Martin
Initiating Electron Transfer in Doubly‐curved Nanographene Upon Supramolecular Complexation of C60
Angew. Chem. Int. Ed., 2022, 61, 1433-7851
DOI: 10.1002/anie.202112834

+ Publications

Dr. Miquel Solà

Miquel Solà (1964) obtained his PhD at the UAB in 1991 with academic honours. His doctoral research under the supervision of Profs. Juan Bertran and Agustí Lledós was awarded with the Saint Albert Prize. After several months in a consultant private company, in 1993 he moved to the University of Girona (UdG) as assistant researcher. In 1994 he did postdoctoral research in Amsterdam with Prof. Evert Jan Baerends and in 1995 in Calgary with Prof. Tom Ziegler. He was appointed assistant professor of the UdG in 1997. In 2001, he got the Distinction for the Promotion of University Research (young scientist category). Since 2003, he holds a permanent position as full professor in the UdG. He was awarded with the ICREA Academia Prize two times, in 2009 and 2014. In 2013 he got the Physical Chemistry prize awarded by the Spanish Royal Society of Chemistry. He is coauthor of about 300 scientific papers and has supervised 13 doctoral Theses. He serves in the Editorial Board of Theor. Chem. Acc. and Sci. Rep. journals. At the UdG, he has served as director of the Institute of Computational Chemistry and Catalysis (2004-07), director of the Department of Chemistry (2007-10), and director of the School of Doctoral Studies (2010-14).

Research overview

He works in the field of theoretical and computational chemistry. In the last years, his research interests have been mainly focused on four research lines: i) the study of molecular aromaticity, and particularly the development of new indicators of aromaticity and the examination of new forms of aromaticity such as three-dimensional aromaticity, metalloaromaticity, and multiple aromaticity; ii) the analysis of the nature of the chemical bond using energy decomposition analysis and different electron delocalization measures like multicenter electron delocalization indices or the electron localization function; iii) the investigation of organic and organometallic reaction mechanisms with special emphasis on the reactivity of fullerenes and endohedral metallofullerenes, and iv) the critical assessment of reactivity principles derived in the framework of the conceptual density functional theory. .

Aromaticity of classical organic aromatic and heteroaromatic compounds

Aromatic species have rings or closed structures characterized by high electronic delocalization. With this in mind, our group has been pioneering in analyzing the aromaticity of classical aromatic and heteroaromatic compounds through electronic-based aromaticity measures. We have developed new aromaticity indices like PDI, FLU, INB and ING for such purpose, which perfectly complement others like the geometrical HOMA or the magnetic NICS. More recently, we have analyzed these heteroaromatic compounds (with especial emphasis of the corresponding isomerization energies) by means of Morokuma-like energy decomposition analysis and the turn-upside-down approach.

Metalloaromaticity

In the last decades the study of aromaticity has experienced an enormous progress. The new discoveries include species such as the metallabenzenes, heterometallabenzenes, metallabenzynes, metallabenzenoids, metallacyclopentadienes, metallacyclobutadienes and all-metal and semimetal clusters. These new molecules, which are potentially useful for certain purposes as specific and very efficient catalysts, molecular electronic devices, molecular magnets, drugs, and other as yet unimagined applications, have brought a complete revolution in the field. At variance with the classical aromatic organic molecules that possess only ?-electron delocalization, aromaticity in these new species is much more complex. These compounds have ?-, ?-, ?- and ?-electron delocalization. In addition, they can combine different types of aromaticity thus giving rise to double or triple aromaticity, the so-called multifold aromaticity. The new molecules can also have conflicting aromaticity, i.e., they can be aromatic in one component and antiaromatic in another. Moreover, most of the old indicators are not valid to discuss the complex aromaticity of these novel compounds. The analysis of metalloaromaticity in our group follows two main directions. First, we discuss the metalloaromaticity and the molecular properties of metallacycles and all-metal and semimetal clusters. And second, we aim to find reliable measures of aromaticity in these systems. In particular the use of multicenter electronic delocalization indices is advocated because they help to detect the different types of aromaticity and provide reasonable qualitative orderings of aromaticity.

MiquelSola_RL_2

New Methods and Tools to Quantify Aromaticity in Molecules

Aromaticity is a concept of capital importance in chemistry: it governs chemical reactions, attributes extra stabilization to molecular structures and assigns exalted magnetic properties. Unfortunately, there is not a unique way to account for aromaticity and, as a result, many indices accounting for different manifestations of aromaticity are available in the literature. Our group has actively worked in the construction of new electronic aromaticity indices departing from the fact that aromaticity is related to cyclic electronic delocalization. For such, we have suggested several new measures, including PDI, FLU, INB and ING indices. Interestingly, the last two use the so-called multicenter indices, which have been proven to perform the best in different chemical enviroments (from organic to all-metal aromatic compounds), together with the magnetic-based nucleus independent chemical shifts (NICS).

MiquelSola_RL_3

Organometallic chemistry: reaction mechanisms and computations.

In this line of research we carry out extensive mechanistic studies, i.e. we determine the reaction path followed from reactants to products, with localization of intermediates and transition states in organometallic and bioinorganic reactions. Most of the mechanisms investigated in this research line yield products of special interest either at large-scale manufacturing or because of their properties as powerful drugs, antibiotics or anticancer agents. Since in these cases obtaining the desired product (or, on the contrary, of an undesired by-product) can represent a gain (or a loss) of many million dollars every day, and since the final result is mainly governed by the path followed by the reaction, there is a great incentive to improve the understanding of the details of the operative mechanism of a given chemical process.

Miquelsola_RL_4

Fullerene Chemistry and Electron Transfer in Biomolecules and Materials

Fullerene-based architectures are being intensively studied as electron acceptor materials in the construction of plastic photovoltaic cell devices because of their unique structural and electron acceptor properties. Organic solar cells containing fullerenes have already been commercialized but the current power conversion efficiency (PCE) achieved is less than 10%. Most of the fullerene-based photovoltaic cells are based on the bulk heterojunction concept, where a donor is blended with a fullerene-based derivative that acts as acceptor. Possible alternatives to improve the current efficiencies in such organic solar cells involve the covalent linkage of the donor molecule with the fullerene surface. The covalent functionalization of the donor molecule to fullerenes and EMFs is mainly achieved via cycloaddition reactions, principally through Diels-Alder (DA), 1,3-dipolar (Prato) and nucleophilic [2+1] Bingel-Hirsch (BH) cycloaddition. In this project, we aim to computationally design new donor-acceptor conjugates with the ability to efficiently generate long-live charge separated states with lifetimes comparable to those observed in natural photosynthetic systems. To that aim, we explore the exohedral reactivity of several donor-acceptor systems based on empty fullerene cages and on EMFs to investigate the thermal stability of the adducts, the effect of the donor position with respect to the fullerene cages, and the ability to form photoinduced charge separated states.

Miquelsola_RL_5

People

Principal Investigator

Miquel Sola

Full Professor


Staff and Postdocs

Albert Artigas

Postdoc

Supervisor:
- M. Solà
- A. Pla-Quintana
- A. Roglans

Alexander Voityuk

ICREA Research Professor

Emeritus - Collaborator

Antony Stasyuk

Postdoc (JdC)

Supervisor:
- M. Solà

Emili Besalú

Prof. Titular

Jordi Mestres

Visitant Professor

Supervisor:
- M. Sola

Olga Stasyuk

Postdoc (UdG)

Supervisor:
- M. Solà

Sergei Vyboishchikov

Prof. Agregat

Sílvia Simon

Prof.Titular


PhD and MACMoM students

Cristina Castanyer

PhD Student (FPI)

Supervisor:
- M. Solà
- A. Pla-Quintana
- A. Roglans

Gibu George

PhD Student (FI)

Supervisor:
- M. Solà

Iqra Sarfraz

PhD student (IF-UdG)

Supervisor:
- M. Solà

Joan Cabot

PhD student

Supervisor:
- J. Mestres

Jordi Busoms

PhD student

Supervisor:
- J. Mestres

Omkar Charapale

PhD student (FI)

Supervisor:
- M. Solà

Roger Monreal

PhD Student (FPU)

Supervisor:
- A. Pla-Quintana
- A. Poater

Núria Alsina

PhD Student (FI-SDUR)

Supervisor:
- S. Simon
- M. Rodríguez
- M. Iglesias


Funding

MCIU Proyectos I+D. Proyectos I+D

Project: Diseño y síntesis de fullerenos para la construcción de celdas solares híbridas de perovskita y fulerenos de alto rendimiento. Un enfoque experimental y computacional sinérgico
Researcher: Miquel Solà and Dr. Anna Pla-Quintana
Reference: PID2020-113711GB-I00
Funding: 211.750 €
Period: 01/09/2021 – 31/08/2024
Project: FOTOVOLTAICA AVANZADA
Researcher: Dr. Miquel Solà
Reference: RED2022-134939-T
Funding: 20.390 €
Period: 2023-2024

MSCA

Project: Full-Fission
Researcher: Dr. Albert Artigas (M. Solà)
Reference: HORIZON-MSCA-2022-PF-101106492
Funding: 181.152 €
Period: 03/04/2024 – 02/04/2026

Marie Skłodowska-Curie

Grant: HORIZON-MSCA-2024-CITIZENS-01
Project: #NitRecerCat2425: La Nit Europea de la Recerca
Researcher: Dr. Sílvia Simon
Reference: HORIZON-MSCA-2024-101162003
Funding: 300.000 €
Period: 01/07/2024 – 30/06/2026

UdG Projects

Researcher: Miquel Solà
Reference: EUROPA-UDG2024/08
Funding: 18.000 €
Period: 2024

Doctorats industrials

Project: UdG-Chemotargets
Researcher:
Reference: 2024 DI 00015
Funding: 37.800 €
Period:

REQ

Project: María Zambrano
Researcher: Dr. Olga Stasyuk
Funding: 99.500 €
Period: 1/12/2022 – 29/11/2024

Collaborations

Jun ZhuUniversity of Xiamen (China), collaboration with Miquel Solà.
José Oscar Carlos Jiménez-HallaUniv. Guanajuato (México), collaboration with Miquel Solà.
F. Matthias BickelhauptVrije Universiteit Amsterdam (Netherlands), collaboration with Miquel Solà.
Juan Pablo MartínezUniversity of Warsaw (Poland), collaboration with Miquel Solà.
Tadeuz M. KrygowskiUniversity of Warsaw (Poland), collaboration with Miquel Solà.
Halina SzatylowiczWarsaw University of Technology (Poland), collaboration with Miquel Solà.
Francesc TeixidorInstitut de Ciència dels Materials (ICMAB-CSIC) (Spain), collaboration with Miquel Solà.
Clara ViñasInstitut de Ciència dels Materials (ICMAB-CSIC) (Spain), collaboration with Miquel Solà.
Jordi PoaterUniv. Barcelona (Spain), collaboration with Miquel Solà.
Nazario MartínUniv. Complutense de Madrid (Spain), collaboration with Miquel Solà.
Henrik OttossonUniversyti of Uppsala (Sweden), collaboration with Miquel Solà.
News

European Researchers’ Night 2024 at IQCC

Every year in September since 2008, the IQCC is organizing together with the

Ten IQCC researchers have been included in Stanford University global list of 2% top scientists

The standardized citation metric analysis published by Ioaniddis (popularized as Stanford University global list

New collaboration agreement between Prof. Miquel Solà and Arcelormittal

One of the priorities of the IQCC is to strengthen the connections with

Couple-close construction of non-classical boron cluster-phosphonium conjugates

Heteropolycyclic molecular systems, which are essential components in the fields of materials and