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2. Acridone Derivatives for Near-UV Radical Polymerization: One-Component Type II vs. Multicomponent Behaviors.

Author

Noon, Adel, Calogero, Francesco, Gualandi, Andrea, Hammoud, Hiba, Hamieh, Tayssir, Toufaily, Joumana, Morlet-Savary, Fabrice, Schmitt, Michael, Cozzi, Pier Giorgio, and Lalevée, Jacques

Subjects
LIGHT emitting diodes, FREE radicals, CYCLIC voltammetry, IODONIUM salts, ACRYLATES, ELECTRON paramagnetic resonance spectroscopy
Abstract

In this work, two novel acridone-based photoinitiators were designed and synthesized for the free radical polymerization of acrylates with a light-emitting diode emitting at 405 nm. These acridone derivatives were employed as mono-component Type II photoinitiators and as multicomponent photoinitiating systems in the presence of an iodonium salt or an amine synergist (EDB) in which they achieved excellent polymerization initiating abilities and high final conversions of the acrylate group. Photoinitiation mechanisms through which reactive species are produced were investigated employing different complementary techniques including steady-state photolysis, steady-state fluorescence, cyclic voltammetry, UV–visible absorption spectroscopy, and electron spin resonance spectroscopy. Finally, these molecules were also used in the direct laser writing process for the fabrication of 3D objects. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Asymmetric route to pyridines bearing a highly functionalized 2-alkyl substituent by aziridine ring-opening reactions

Author

Savoia, Diego, Alvaro, Giuseppe, Di Fabio, Romano, and Gualandi, Andrea

Subjects
Pyridine -- Chemical properties, Ring-opening polymerization -- Research, Biological sciences, Chemistry
Abstract

The reactivity of the pyridyl-substituted aziridine with different N-, S-, and O-nucleophiles is examined in order to understand the optimal conditions allowing for a selective ring-opening. It is shown that complete or prevalent regioelectivity can be obtained by using cerium trichloride heptahydrate as a catalyst and the N-substituent can be removed by an oxidative protocol.

Published
2007

11. A Journey from Thermally Tunable Synthesis to Spectroscopy of Phenylmethanimine in Gas Phase and Solution

Author

Melli, Alessio, Potenti, Simone, Melosso, Mattia, Herbers, Sven, Spada, Lorenzo, Gualandi, Andrea, Lengsfeld, Kevin G., Dore, Luca, Buschmann, Philipp, Cozzi, Pier Giorgio, Grabow, Jens-Uwe, Barone, Vincenzo, Puzzarini, Christina, Melli, Alessio, Potenti, Simone, Melosso, Mattia, Herbers, Sven, Spada, Lorenzo, Gualandi, Andrea, Lengsfeld, Kevin G., Dore, Luca, Buschmann, Philipp, Cozzi, Pier Giorgio, Grabow, Jens-Uwe, Barone, Vincenzo, and Puzzarini, Christina

Abstract

Phenylmethanimine is an aromatic imine with a twofold relevance in chemistry: organic synthesis and astrochemistry. To tackle both aspects, a multidisciplinary strategy has been exploited and a new, easily accessible synthetic approach to generate stable imine-intermediates in the gas phase and in solution has been introduced. The combination of this formation pathway, based on the thermal decomposition of hydrobenzamide, with a state-of-the-art computational characterization of phenylmethanimine laid the foundation for its first laboratory observation by means of rotational electric resonance spectroscopy. Both E and Z isomers have been accurately characterized, thus providing a reliable basis to guide future astronomical observations. A further characterization has been carried out by nuclear magnetic resonance spectroscopy, showing the feasibility of this synthetic approach in solution. The temperature dependence as well as possible mechanisms of the thermolysis process have been examined. © 2020 The Authors. Published by Wiley-VCH GmbH

Published
2020

13. Photoredox radical conjugate addition of dithiane-2-carboxylate promoted by an iridium(iii) phenyl-tetrazole complex: a formal radical methylation of Michael acceptors† †Electronic supplementary information (ESI) available: Experimental procedures, product characterizations, NMR spectra, compound preparation procedures, screening tests, and photophysical and electrochemical data. See DOI: 10.1039/c6sc03374a Click here for additional data file

Author

Gualandi, Andrea, Matteucci, Elia, Monti, Filippo, Baschieri, Andrea, Armaroli, Nicola, Sambri, Letizia, and Cozzi, Pier Giorgio

Subjects
Chemistry
Abstract

An iridium(iii) phenyl-tetrazole complex is a versatile catalyst for a new photocatalytic Michael reaction., A readily accessible iridium(iii) phenyl-tetrazole complex ([Ir(ptrz)2(tBu-bpy)]+, 2; Hptrz = 2-methyl-5-phenyl-tetrazole; tBu-bpy = 4,4′-di-tert-butyl-2,2′-bipyridine) is shown to be a versatile catalyst for a new photocatalytic Michael reaction. Under light irradiation in the presence of 2, a dithiane 2-carboxylic acid, obtained by simple hydrolysis of a commercially available ethyl ester, generates a 1,3-dithiane radical capable of performing addition to a variety of Michael acceptors (e.g., unsaturated ketones, esters, amides and malonates). This broad scope reaction with high yields is a formal photo-redox addition of the elusive methyl radical and the adducts obtained can be starting materials for a variety of functionalized products. The excited-state oxidation potential of catalyst 2 allows selective formation of radicals only from α-heterosubstituted carboxylates. Chemical modification of this metal complex can tune the electrochemical properties, opening a route to new highly selective catalytic photo-oxidation reactions.

Published
2016

15. Asymmetric synthesis of 8-aminoindolizidine from chiral 2-pyrroleimines

Author

Albano, Vincenzo Giulio, Gualandi, Andrea, Monari, Magda, and Savoia, Diego

Subjects
Aldehydes -- Chemical properties, Azides -- Chemical properties, Schiff bases -- Chemical properties, Biological sciences, Chemistry
Abstract

The organometallic allylation of 2-pyrroleimines derived from (S)-valinol and (S)-phenylglycinol ring-closing metathesis (RCM) reaction and pyrrole ring hydrogenation are used to synthesize the N-protected 8-aminoindolizidines. The auxiliary based method starting from 2-pyrrolealdehydes could also be applied to prepare all the possible stereoisomers of amino-substituted fused bicyclic compounds containing the pyrrolidine nucleus.

Published
2008

17. Asymmetric synthesis of 2-(2-pyridyl)aziridines from 2-pyridineimines bearing stereogenic N-alkyl substituents and regioselective opening of the aziridine ring

Author

Savoia, Diego, Alvaro, Giuseppe, Di Fabio, Romano, Gualandi, Andrea, and Fiorelli, Claudio

Subjects
Schiff bases -- Research, Ring-opening polymerization -- Analysis, Halides -- Structure, Halides -- Chemical properties, Nucleophiles -- Structure, Nucleophiles -- Chemical properties, Biological sciences, Chemistry
Abstract

An aziridination procedure for 2-pyridineimines derived from [beta]-amino alcohols and [alpha]-aminoacid esters and the reactivity of the aziridine ring toward external nucleophiles is described. The findings suggest that the chemical functionality present in the nitrogen substituent could be exploited to achieve regioselective and stereoselective ring opening reactions by halide ions and an unusual rearrangement to a substituted pyrroline.

Published
2006

19. A Versatile Organocatalytic Approach for the Synthesis of Enantioenrichedgem-Difluorinated Compounds

Author

UCL - SST/IMCN/BSMA - Bio and soft matter, Saulnier, Steve, Ciardi, Moira, Lopez-Carrillo, Veronica, Gualandi, Andrea, Cozzi, Pier Giorgio, UCL - SST/IMCN/BSMA - Bio and soft matter, Saulnier, Steve, Ciardi, Moira, Lopez-Carrillo, Veronica, Gualandi, Andrea, and Cozzi, Pier Giorgio

Abstract

The combination of a practical and highly enantioselective organocatalytic reaction, which allows the stereoselective introduction of a benzodithiol group, with a fluorination step, gives a new and effective strategy for the stereoselective synthesis of difluorinated building blocks. The benzodithiol group is a versatile and chameleonic group that can be further functionalized before fluorination, giving customized and tailored useful synthetic strategies. As an example of the application of this facile strategy, the effective enantioselective synthesis of difluoroarundic acid is described. All you need is fluor! The combination of a practical and highly enantioselective organocatalytic reaction with a fluorination step provides a new and effective strategy for the stereoselective synthesis of enantioenriched difluorinated building blocks (see scheme).

Published
2015

21. Sintesi asimmetrica di ammine benziliche ed eterobenziliche

Author

Gualandi, Andrea

Subjects
CHIM/06 Chimica organica
Abstract

C2-Symmetrical, enantiopure 2,6-di[1-(1-aziridinyl)alkyl]pyridines (DIAZAPs) were prepared by a high-yielding, three-step sequence starting from 2,6-pyridinedicarbaldehyde and (S)-valinol or (S)-phenylglycinol. The new compounds were tested as ligands in palladium-catalyzed allylation of carbanions in different solvents. Almost quantitative yield and up to 99% enantiomeric excess were obtained in the reactions of the enolates derived from malonate, phenyl- and benzylmalonate dimethyl esters with 1,3-diphenyl-2-propenyl ethyl carbonate. Asymmetric synthesis of 2-(2-pyridyl)aziridines from chiral 2-pyridineimines bearing a stereogenic center at the nitrogen atom was development. The envisioned route involves the addition of chloromethyllithium to the imine derived from 2-pyridinealdehyde and (S)-valinol, protected as O-trimethylsilyl ether. The analogous reaction performed on the imine derived from (S)-valine methyl ester gave the product containing the aziridine ring as well as the α-chloro ketone group coming from the attack of chloromethyllithium to the ester function. Other stereogenic alkyl substituents at nitrogen gave less satisfactory results. Moreover, the aziridination protocol did not work on other aromatic imines, e.g. 3-pyridineimine and benzaldimine, which are not capable of bidentate chelation. The N-substituent could not be removed, but aziridine underwent ring-opening by attack of nitrogen, sulfur, and oxygen nucleophiles. Complete or prevalent regioselectivity was obtained using cerium trichloride heptahydrate as a catalyst. In some cases, the N-substituent could be removed by an oxidative protocol. The addition of organometallic (lithium, magnesium, zinc) reagents to 2-pyrroleimines derived from (S)-valinol and (S)-phenylglycinol gave the N-substituted-1-(2-pyrrolyl)alkylamines with high yields and diastereoselectivities. The (S,S)-diastereomers were useful intermediates for the preparation of enantiopure 1-[1-(2-pyrrolyl)alkyl]aziridines by routine cyclization of the β-aminoalcohol moiety and of (S)-N-benzoyl 1-[1-(2-pyrrolyl)alkyl]amines and their N-substituted derivatives by oxidative cleavage of the chiral auxiliary. 1-Allyl-2-pyrroleimines obtained from (S)-phenylglycinol and (S)-valinol underwent highly diastereoselective addition of allylmetal reagents, used in excess amounts, to give the corresponding secondary amines with concomitant allyl to 1-propenyl isomerisation of the 1-pyrrole substituent. Protection of the 2-aminoalcohol moiety as oxazolidinone, amide or Boc derivate followed by ring closing metathesis of the alkene groups gave the unsaturated bicyclic compound, whose hydrogenation afforded the indolizidine derivative as a mixture of separable diastereomers. The absolute configuration of the main diastereomer was assessed by X-ray crystallographic analysis.

Published
2008

22. Catalytic Hydrogenation of meso-Octamethylporphyrinogen (Calix[4]pyrrole)

Author

Journot, Guillaume, Letondor, Christophe, Neier, Reinhard, Stoeckli-Evans, Helen, Savoia, Diego, Gualandi, Andrea, Journot, Guillaume, Letondor, Christophe, Neier, Reinhard, Stoeckli-Evans, Helen, Savoia, Diego, and Gualandi, Andrea

Abstract

Hydrogenation of meso-octamethylporphyrinogen (calix[4]pyrrole) with a number of heterogeneous catalysts under different experimental conditions has been investigated. GC-MS analyses of the reaction mixtures showed the formation of one to four products in low to moderate yields: three of them were diastereoisomers of the product derived from half-hydrogenation of the substrate, and displayed alternating pyrrolidine and pyrrole rings, while the fourth was the all-cis saturated product. An acidic medium was necessary to achieve hydrogenation. However, the use of too strongly acidic solvents or additives was detrimental to the stability of the substrate and/or the catalyst.

Published
2010

23. Asymmetric synthesis of benzylic and heterobenzylic amines

Author

Savoia, Diego, Gualandi, Andrea <1978>, Savoia, Diego, and Gualandi, Andrea <1978>

Abstract

C2-Symmetrical, enantiopure 2,6-di[1-(1-aziridinyl)alkyl]pyridines (DIAZAPs) were prepared by a high-yielding, three-step sequence starting from 2,6-pyridinedicarbaldehyde and (S)-valinol or (S)-phenylglycinol. The new compounds were tested as ligands in palladium-catalyzed allylation of carbanions in different solvents. Almost quantitative yield and up to 99% enantiomeric excess were obtained in the reactions of the enolates derived from malonate, phenyl- and benzylmalonate dimethyl esters with 1,3-diphenyl-2-propenyl ethyl carbonate. Asymmetric synthesis of 2-(2-pyridyl)aziridines from chiral 2-pyridineimines bearing a stereogenic center at the nitrogen atom was development. The envisioned route involves the addition of chloromethyllithium to the imine derived from 2-pyridinealdehyde and (S)-valinol, protected as O-trimethylsilyl ether. The analogous reaction performed on the imine derived from (S)-valine methyl ester gave the product containing the aziridine ring as well as the α-chloro ketone group coming from the attack of chloromethyllithium to the ester function. Other stereogenic alkyl substituents at nitrogen gave less satisfactory results. Moreover, the aziridination protocol did not work on other aromatic imines, e.g. 3-pyridineimine and benzaldimine, which are not capable of bidentate chelation. The N-substituent could not be removed, but aziridine underwent ring-opening by attack of nitrogen, sulfur, and oxygen nucleophiles. Complete or prevalent regioselectivity was obtained using cerium trichloride heptahydrate as a catalyst. In some cases, the N-substituent could be removed by an oxidative protocol. The addition of organometallic (lithium, magnesium, zinc) reagents to 2-pyrroleimines derived from (S)-valinol and (S)-phenylglycinol gave the N-substituted-1-(2-pyrrolyl)alkylamines with high yields and diastereoselectivities. The (S,S)-diastereomers were useful intermediates for the preparation of enantiopure 1-[1-(2-pyrrolyl)alkyl]aziridines by routine

Published
2008

26. Asymmetric Synthesis of 8-Aminoindolizidine from Chiral 2-Pyrroleimines.

Author

Giulio Albano, Vincenzo, Gualandi, Andrea, Monari, Magda, and Savoia, Diego

Subjects
*PYRROLES, *AROMATIC compounds, *ORGANONITROGEN compounds, *MAGNESIUM compounds, *ALCOHOLS (Chemical class), *METATHESIS reactions
Abstract

1-Allyl-2-pyrroleimines obtained from (S)-valinol and (S)-phenylglycinol underwent highly diastereo; selective addition of allylmagnesium chloride, used in excess amounts, to give the corresponding secondary amines with concomitant allyl to (Z)-1-propenyl isomerization of the 1-pyrrole substituent. Transformation of the 2-amino alcohol moiety to an oxazolidinone, or its cleavage and subsequent N-protection, followed by ring-closing metathesis of the two alkene groups gave the unsaturated bicyclic compound. Full hydrogenation of the alkene function and the aromatic rings afforded the indolizidine derivative as a mixture of two or three diastereomers with a ratio which was dependent on the nature of both the N-substituent and the catalyst. The two prevalent diastereomers were isolated, and their configuration was determined by X-ray crystallographic analysis. [ABSTRACT FROM AUTHOR]

Published
2008
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28. Catalytic Hydrogenation of meso-Octamethylporphyrinogen (Calix[4]pyrrole)

Author

Journot, Guillaume, Letondor, Christophe, Neier, Reinhard, Stoeckli-Evans, Helen, Savoia, Diego, Gualandi, Andrea, Journot, Guillaume, Letondor, Christophe, Neier, Reinhard, Stoeckli-Evans, Helen, Savoia, Diego, and Gualandi, Andrea

Abstract

Hydrogenation of meso-octamethylporphyrinogen (calix[4]pyrrole) with a number of heterogeneous catalysts under different experimental conditions has been investigated. GC-MS analyses of the reaction mixtures showed the formation of one to four products in low to moderate yields: three of them were diastereoisomers of the product derived from half-hydrogenation of the substrate, and displayed alternating pyrrolidine and pyrrole rings, while the fourth was the all-cis saturated product. An acidic medium was necessary to achieve hydrogenation. However, the use of too strongly acidic solvents or additives was detrimental to the stability of the substrate and/or the catalyst.

29. Experimental Study on WiFi and 2.4 GHz LoRa Coexistence.

Author

Gualandi, Andrea, thesis supervisor: Verdone, Roberto, Gualandi, Andrea, and thesis supervisor: Verdone, Roberto

Abstract

LoRa 2.4GHz is a new version of the original LoRa modulation adapted to transmit on the 2.4GHz ISM (Industrial, Scientific and Medical) band, an unlicensed band characterized by the cohabitation of multiple technologies, including Wi-Fi standards. In this thesis, after a short introduction to the key features of LoRa modulation, will be presented a C-based software library which has been designed for Genuino Zero to control Semtech SX1280, which represents the first transceiver supporting LoRa 2.4GHz modulation. The second part of the thesis will be focused on the experimental assessment of LoRa 2.4GHz Wi-Fi immunity, conducted by exploiting SX1280 transceivers and a firmware designed for the purpose of the experimentation, based on the software library described above. The aim of the research is to characterize the interference against LoRa 2.4GHz generated by two widespread Wi-Fi standards: IEEE 802.11.b and IEEE 802.11.g. The experiments will principally focus on how this kind of interference affecting LoRa transmissions can be mitigated by varying two of the most important parameters of LoRa modulation: Spreading Factor and Bandwidth. The presentation of the obtained results will be preceded by the description of the testbed employed for the experiments.

30. Experimental Study on WiFi and 2.4 GHz LoRa Coexistence.

Author

Gualandi, Andrea, thesis supervisor: Verdone, Roberto, Gualandi, Andrea, and thesis supervisor: Verdone, Roberto

Abstract

LoRa 2.4GHz is a new version of the original LoRa modulation adapted to transmit on the 2.4GHz ISM (Industrial, Scientific and Medical) band, an unlicensed band characterized by the cohabitation of multiple technologies, including Wi-Fi standards. In this thesis, after a short introduction to the key features of LoRa modulation, will be presented a C-based software library which has been designed for Genuino Zero to control Semtech SX1280, which represents the first transceiver supporting LoRa 2.4GHz modulation. The second part of the thesis will be focused on the experimental assessment of LoRa 2.4GHz Wi-Fi immunity, conducted by exploiting SX1280 transceivers and a firmware designed for the purpose of the experimentation, based on the software library described above. The aim of the research is to characterize the interference against LoRa 2.4GHz generated by two widespread Wi-Fi standards: IEEE 802.11.b and IEEE 802.11.g. The experiments will principally focus on how this kind of interference affecting LoRa transmissions can be mitigated by varying two of the most important parameters of LoRa modulation: Spreading Factor and Bandwidth. The presentation of the obtained results will be preceded by the description of the testbed employed for the experiments.

31. Dual Photoredox and Nickel Catalysed Reductive Coupling of Alkynes and Aldehydes

Author

Francesco Calogero, Giandomenico Magagnano, Simone Potenti, Andrea Gualandi, Andrea Fermi, Paola Ceroni, Pier Giorgio Cozzi, Calogero, Francesco, Magagnano, Giandomenico, Potenti, Simone, Gualandi, Andrea, Fermi, Andrea, Ceroni, Paola, and Giorgio Cozzi, Pier

Subjects
Regioselectivity, Metallaphotoredox catalysi, Aldehyde, Vinylation, Nickel catalysi, General Chemistry
Abstract

A regioselective vinylation of aromatic and aliphatic aldehydes promoted by the merging of photoredox and nickel catalysis is here reported. A comprehensive investigation on the reaction conditions allowed the disclosure of a valid and reproducible protocol based on a nickel-mediated reductive coupling approach under visible light irradiation. The employment of 3CzClIPN (2,4,6-tris(carbazol-9-yl)-5-chloro-isophthalonitrile) as the photocatalyst and Hantzsch's ester as the sacrificial organic reductant replace the use of boron-, silicon- or zinc-based reducing agents, making this method a worthy alternative to the already known protocols. The developed mild reaction conditions allow the access to a wide range of substituents decorating both the aldehyde and the alkyne. Moreover, careful photophysical investigations shed light on the mechanism of the reaction.

Published
2022

32. Photoredox Propargylation of Aldehydes Catalytic in Titanium

Author

Andrea Gualandi, Marco Di Matteo, Giacomo Bergamini, Simone Potenti, Andrea Fermi, Pier Giorgio Cozzi, Francesco Calogero, Calogero, Francesco, Gualandi, Andrea, Matteo, Marco Di, Potenti, Simone, Fermi, Andrea, Bergamini, Giacomo, and Cozzi, Pier Giorgio

Subjects
010405 organic chemistry, Organic Chemistry, chemistry.chemical_element, Note, 010402 general chemistry, aldehydes, Photoredox, catalysis, 01 natural sciences, 0104 chemical sciences, Catalysis, chemistry.chemical_compound, chemistry, Propargyl, Organic dye, Organic chemistry, Propargyl bromide, Stoichiometry, Titanium
Abstract

A practical and effective photoredox propargylation of aldehydes promoted by 10 mol % of [Cp2TiCl2] is presented. No stoichiometric metals or scavengers are used for the process. A catalytic amount of the cheap and simply prepared organic dye 3DPAFIPN is used as the reductant for titanium. The reaction displayed a broad scope, and no traces of allenyl isomers were detected for simple propargyl bromide, whereas mixtures of propargyl and allenyl isomers were observed for substituted propargyl bromides.

Published
2021

33. Design of BODIPY dyes as triplet photosensitizers: electronic properties tailored for solar energy conversion, photoredox catalysis and photodynamic therapy

Author

Paola Ceroni, Pier Giorgio Cozzi, Elena Bassan, Andrea Gualandi, Bassan, Elena, Gualandi, Andrea, Cozzi, Pier Giorgio, and Ceroni, Paola

Subjects
Materials science, medicine.medical_treatment, Bodipy, Halogenation, Photoredox catalysis, Photodynamic therapy, General Chemistry, Photochemistry, Fluorescence, Chemistry, chemistry.chemical_compound, Transition metal, chemistry, medicine, Energy transformation, photodynamic therapy, photocatalysis, BODIPY, Absorption (electromagnetic radiation)
Abstract

BODIPYs are renowned fluorescent dyes with strong and tunable absorption in the visible region, high thermal and photo-stability and exceptional fluorescence quantum yields. Transition metal complexes are the most commonly used triplet photosensitisers, but, recently, the use of organic dyes has emerged as a viable and more sustainable alternative. By proper design, BODIPY dyes have been turned from highly fluorescent labels into efficient triplet photosensitizers with strong absorption in the visible region (from green to orange). In this perspective, we report three design strategies: (i) halogenation of the dye skeleton, (ii) donor–acceptor dyads and (iii) BODIPY dimers. We compare pros and cons of these approaches in terms of optical and electrochemical properties and synthetic viability. The potential applications of these systems span from energy conversion to medicine and key examples are presented., BODIPYs offer a versatile platform to build organic triplet photosensitisers for PDT, TTA upconversion and photocatalysis. Tuning their properties provides the opportunity of replacing heavy-metal complexes and can lead to improved sustainability.

Published
2021

34. Light-Induced Access to Carbazole-1,3-dicarbonitrile: A Thermally Activated Delayed Fluorescent (TADF) Photocatalyst for Cobalt-Mediated Allylations

Author

Emanuele Pinosa, Elena Bassan, Sultan Cetin, Marco Villa, Simone Potenti, Francesco Calogero, Andrea Gualandi, Andrea Fermi, Paola Ceroni, Pier Giorgio Cozzi, Pinosa, Emanuele, Bassan, Elena, Cetin, Sultan, Villa, Marco, Potenti, Simone, Calogero, Francesco, Gualandi, Andrea, Fermi, Andrea, Ceroni, Paola, and Cozzi, Pier Giorgio

Subjects
Organic Chemistry, TADF, Allylations, Photoredox catalysis
Abstract

The stability of a photocatalyst under irradiation is important in photoredox applications. In this work, we investigated the stability of a thermally activated delayed fluorescence (TADF) photocatalyst {3DPAFIPN [2,4,6-tris(diphenylamino)-5-fluoroisophthalonitrile]}, recently employed in photoredox-mediated processes, discovering that in the absence of quenchers the chromophore is unstable and is efficiently converted by irradiation with visible light into another species based on the carbazole-1,3-dicarbonitrile moiety. The new species obtained is itself a TADF emitter and finds useful applications in photoredox transformations. At the excited state, it is a strong reductant and was efficiently applied to cobalt-mediated allylation of aldehydes, whereas other TADFs (4CzIPN and 3DPAFIPN) failed to promote efficient photocatalytic cycles.

Published
2022

35. Diastereoselective and enantioselective photoredox pinacol coupling promoted by titanium complexes with a red-absorbing organic dye

Author

Francesco Calogero, Giandomenico Magagnano, Simone Potenti, Francesco Pasca, Andrea Fermi, Andrea Gualandi, Paola Ceroni, Giacomo Bergamini, Pier Giorgio Cozzi, Calogero, Francesco, Magagnano, Giandomenico, Potenti, Simone, Pasca, Francesco, Fermi, Andrea, Gualandi, Andrea, Ceroni, Paola, Bergamini, Giacomo, and Cozzi, Pier Giorgio

Subjects
General Chemistry, pinacol coupling photoredox catalysis enantioselective diastereoselective
Abstract

The pinacol coupling reaction, a reductive coupling of carbonyl compounds that proceeds through the formation of ketyl radicals in the presence of an electron donor, affords the corresponding 1,2-diols in one single step. The photoredox version of this transformation has been accomplished using different organic dyes or photoactive metal complexes in the presence of sacrificial donors such as tertiary amines or Hantzsch's ester. Normally, the homo-coupling of such reactive ketyl radicals is neither diastereo- nor enantio-selective. Herein, we report a highly diastereoselective pinacol coupling reaction of aromatic aldehydes promoted by 5 mol% of the non-toxic, inexpensive and available Cp2TiCl2 complex. The key feature that allows the complete control of diastereoselectivity is the employment of a red-absorbing organic dye in the presence of a redox-active titanium complex. Taking advantage of the well-tailored photoredox potential of this organic dye, the selective reduction of Ti(IV) to Ti(III) is achieved. These conditions enable the formation of the D,L (syn) diastereoisomer as the favored product of the pinacol coupling (d.r. > 20 : 1 in most of the cases). Moreover, employing a simply prepared chiral SalenTi complex, the new photoredox reaction gave a complete diastereoselection for the D,L diastereoisomer, and high enantiocontrol (up to 92% of enantiomeric excess).

Published
2022

36. Hydrogenation of Calix[4]pyrrole: From the Formation to the Synthesis of Calix[4]pyrrolidine

Author

Guillaume Journot, Reinhard Neier, Andrea Gualandi, Journot, Guillaume, Neier, Reinhard, and Gualandi, Andrea

Subjects
chemistry.chemical_compound, chemistry, Organic Chemistry, Polymer chemistry, Calixarene, Calixarenes, Calix[4]pyrrole, Heterogenous catalysis, Hydrogenation, Macrocycles, Physical and Theoretical Chemistry, Pyrrolidine, Pyrrole
Abstract

Calix[4]pyrrolidine, is a topological analogue of the chromophore of the pigments of life. An efficient two-step procedure, starting with the condensation between acetone and pyrrole followed by a heterogenous catalytic hydrogenation, has been developed. Many unsuspected aspects demonstrating the influence of the topology on the physicochemical and chemical properties emerged. The simple, symmetric structure showed unique attributes.

Published
2021

37. Theory Meets Experiment for Noncovalent Complexes: The Puzzling Case of Pnicogen Interactions

Author

Lorenzo Spada, Andrea Gualandi, Weixing Li, Sonia Melandri, Cristina Puzzarini, Pier Giorgio Cozzi, Sergio Rampino, Luca Evangelisti, Nicola Tasinato, Vincenzo Barone, Li, Weixing, Spada, Lorenzo, Tasinato, Nicola, Rampino, Sergio, Evangelisti, Luca, Gualandi, Andrea, Cozzi, Pier Giorgio, Melandri, Sonia, Barone, Vincenzo, and Puzzarini, Cristina

Subjects
Quantum chemical, Settore CHIM/03 - Chimica Generale e Inorganica, Hydrogen bond, Chemistry, 010405 organic chemistry, Chemistry (all), General Chemistry, General Medicine, bond analysi, intermolecular interaction, 010402 general chemistry, 01 natural sciences, Catalysis, Characterization (materials science), Catalysi, 0104 chemical sciences, quantum chemistry, Chemical physics, rotational spectroscopy, Rotational spectroscopy, pnicogen bond, Dispersion (chemistry), Natural bond orbital, Settore CHIM/02 - Chimica Fisica
Abstract

A gas-phase nitrogen-nitrogen noncovalent interaction has been unveiled in the nitroethane-trimethylamine complex in an environment free from solvent and matrix effects using rotational spectroscopy in supersonic expansion. Different quantum chemical models (NOCV/CD and NBO) agree in indicating that this interaction largely prevails over the C-H⋅⋅⋅O and C-H⋅⋅⋅N hydrogen bonds. Furthermore, a SAPT analysis shows that electrostatic and dispersion interactions play a comparable role in stabilizing the complex. The conformational landscape exploration and stationary points characterization have been performed using state-of-the-art quantum-chemical computations providing significant insights on structure determination.

Published
2018

38. Phenoxyaluminum(salophen) Scaffolds: Synthesis, Electrochemical Properties, and Self‐Assembly at Surfaces of Multifunctional Systems

Author

Luca Mengozzi, Matteo Iurlo, Massimo Marcaccio, Mohamed El Garah, Pier Giorgio Cozzi, Paolo Samorì, Artur Ciesielski, Andrea Fiorani, Francesco Paolucci, Andrea Gualandi, Mengozzi, Luca, El Garah, Mohamed, Gualandi, Andrea, Iurlo, Matteo, Fiorani, Andrea, Ciesielski, Artur, Marcaccio, Massimo, Paolucci, Francesco, Samorì, Paolo, and Cozzi, Pier Giorgio

Subjects
chemistry.chemical_classification, 010405 organic chemistry, Organic Chemistry, Supramolecular chemistry, self-assembly, General Chemistry, salophen, 010402 general chemistry, 01 natural sciences, Combinatorial chemistry, cyclic voltammetry, Catalysis, 0104 chemical sciences, Coordination complex, chemistry.chemical_compound, Salicylaldehyde, chemistry, Ferrocene, HOPG, Metal salen complexes, Molecule, Self-assembly, Cyclic voltammetry, STM microscopy
Abstract

Salophens and Salens are Schiff bases generated through the condensation of two equivalents of salicylaldehyde with either 1,2-phenylenediamines or aliphatic diamines, respectively. Both ligands have been extensively exploited as key building blocks in coordination chemistry and catalysis. In particular, their metal complexes have been widely used for various catalytical transformations with high yield and selectivity. Through the modification of the phenol unit it is possible to tune the steric hindrance and electronic properties of Salophen and Salen. The introduction of long aliphatic chains in salicylaldehydes can be used to promote their self-assembly into ordered supramolecular structures on solid surfaces. Herein, we report a novel method towards the facile synthesis of robust and air-stable [Al(Salophen)] derivatives capable of undergoing spontaneous self-assembly at the graphite/solution interface forming highly-ordered nanopatterns. The new synthetic approach relies on the use of [MeAlIII (Salophen)] as a building unit to introduce, via a simple acid/base reaction with functionalized acidic phenol derivatives, selected frameworks integrating multiple functions for efficient surface decoration. STM imaging at the solid/liquid interface made it possible to monitor the formation of ordered supramolecular structures. In addition, the redox properties of the Salophen derivatives functionalized with ferrocene units in solution and on surface were unraveled by cyclic voltammetry. The use of a five-coordinate aluminum alkyl Salophen precursor enables the tailoring of new Salophen molecules capable of undergoing controlled self-assembly on HOPG, and thereby it can be exploited to introduce multiple functionalities with subnanometer precision at surfaces, ultimately forming ordered functional patterns.

Published
2018

39. A facile hydroxylation of arylboronic acids mediated by sodium ascorbate

Author

Andrea Savoini, Paola Franchi, Andrea Gualandi, Roberto Saporetti, Marco Lucarini, Pier Giorgio Cozzi, Gualandi, Andrea, Savoini, Andrea, Saporetti, Roberto, Franchi, Paola, Lucarini, Marco, and Cozzi, Pier Giorgio

Subjects
Sodium ascorbate, 010402 general chemistry, Heterogeneous catalysis, 01 natural sciences, Hydroxylation, METAL-ORGANIC FRAMEWORKS, chemistry.chemical_compound, LIGHT PHOTOREDOX CATALYSIS, Transition metal, Molecule, Phenols, IPSO-HYDROXYLATION, VITAMIN-C, Vitamin C, 010405 organic chemistry, Organic Chemistry, Combinatorial chemistry, 0104 chemical sciences, HETEROGENEOUS CATALYST, chemistry, ARYL/HETEROARYL BORONIC ACIDS, Metal-organic framework, VISIBLE-LIGHT, AEROBIC OXIDATIVE HYDROXYLATION, C-H ARYLATION, PHENOLS
Abstract

A simple, direct and facile hydroxylation of arylboronic acids has been described. The reaction is carried out under air, in an open flask, using 2 equivalents of sodium ascorbate. A variety of arylboronic acids can be transformed into the corresponding phenols in excellent to moderate isolated yields. The reaction tolerated the presence of functional groups, and molecules that are readily oxidized by H2O2 can be present in the reaction mixture. This green methodology avoids the use of photoredox conditions, transition metals, or other strong oxidants.

Published
2018

40. Mechanistic insights into two-photon-driven photocatalysis in organic synthesis

Author

Andrea Gualandi, Marco Lucarini, Paola Ceroni, Luca Mengozzi, Paola Franchi, Marianna Marchini, Vincenzo Balzani, Pier Giorgio Cozzi, Marchini, Marianna, Gualandi, Andrea, Mengozzi, Luca, Franchi, Paola, Lucarini, Marco, Cozzi, Pier Giorgio, Balzani, Vincenzo, and Ceroni, Paola

Subjects
General Physics and Astronomy, Context (language use), UNACTIVATED ALKYL, 010402 general chemistry, Photochemistry, 01 natural sciences, Redox, law.invention, ACTIVATION, chemistry.chemical_compound, Electron transfer, LIGHT PHOTOREDOX CATALYSIS, law, ELECTRON-TRANSFER, Photosensitizer, Physical and Theoretical Chemistry, Electron paramagnetic resonance, Absorption (electromagnetic radiation), RADICAL-ANIONS, SPECTROSCOPY, 010405 organic chemistry, Chemistry, DEBROMINATION, 0104 chemical sciences, Photocatalysis, Organic synthesis, VISIBLE-LIGHT, BOND, TRANSITION
Abstract

A mechanism based on the sequential absorption of two photons by the components of a redox couple has been recently proposed for catalysis of the energetically demanding reduction of aryl halides. Here, we analyze the suggested photochemical mechanism of this reaction, which employs perylenediimide (PDI) as a photocatalyst, on the basis of spectroscopic, electrochemical and electron paramagnetic resonance data. Our results indicate that the photoexcited PDI radical anion (*PDI˙−) cannot play the role of a photosensitizer in the aforementioned process. Instead, the reduction of 4′-bromoacetophenone likely involves *PDI˙− decomposition products. The extremely short lifetime of the photoexcited transient species, as *PDI˙−, is a major general limitation for photocatalytic schemes based on sequential two-photon excitation. In order to better understand the potential of such schemes, we discuss them in the context of the Z-scheme in natural photosynthesis.

Published
2018

41. Al(Salen) Metal Complexes in Stereoselective Catalysis

Author

Simone Potenti, Andrea Gualandi, Francesco Calogero, Pier Giorgio Cozzi, Gualandi, Andrea, Calogero, Francesco, Potenti, Simone, Cozzi, Pier Giorgio, Gualandi A., Calogero F., Potenti S., and Cozzi P.G.

Subjects
stereoselective reaction, Pharmaceutical Science, Ethylenediamine, Bifunctional catalysi, Review, Chemistry Techniques, Synthetic, bifunctional catalysi, Aldehyde, Analytical Chemistry, Stereocenter, Aluminum metal complexe, Catalysi, Polymerization, chemistry.chemical_compound, aluminum metal complexes, Drug Discovery, aluminum metal complexe, Settore CHIM/02 - Chimica Fisica, chemistry.chemical_classification, Uridine Diphosphate N-Acetylglucosamine, Cycloaddition Reaction, Molecular Structure, Chiral ligand, Stereoisomerism, Ethylenediamines, Chemistry (miscellaneous), Molecular Medicine, stereoselective reactions, catalysi, lcsh:QD241-441, lcsh:Organic chemistry, Metal salen complexes, Diamine, Polymer chemistry, Organometallic Compounds, Physical and Theoretical Chemistry, Lewis Acid, Organometallic Compound, catalysis, Aryl, chiral ligand, Organic Chemistry, bifunctional catalysis, organic synthesis, salen, Stereoselective reaction, chemistry, Organic synthesi, aluminum, Organic synthesis
Abstract

Salen ligands are a class of Schiff bases simply obtained through condensation of two molecules of a hydroxyl-substituted aryl aldehyde with an achiral or chiral diamine. The prototype salen, or N,N′-bis(salicylidene)ethylenediamine has a long history, as it was first reported in 1889, and immediately, some of its metal complexes were also described. Now, the salen ligands are a class of N,N,O,O tetradentate Schiff bases capable of coordinating many metal ions. The geometry and the stereogenic group inserted in the diamine backbone or aryl aldehyde backbone have been utilized in the past to efficiently transmit chiral information in a variety of different reactions. In this review we will summarize the important and recent achievements obtained in stereocontrolled reactions in which Al(salen) metal complexes are employed. Several other reviews devoted to the general applications and synthesis of chromium and other metal salens have already been published. Salen ligands are a class of Schiff bases simply obtained through condensation of two molecules of a hydroxyl-substituted aryl aldehyde with an achiral or chiral diamine. The prototype salen, or N,N′-bis(salicylidene)ethylenediamine has a long history, as it was first reported in 1889, and immediately, some of its metal complexes were also described. Now, the salen ligands are a class of N,N,O,O tetradentate Schiff bases capable of coordinating many metal ions. The geometry and the stereogenic group inserted in the diamine backbone or aryl aldehyde backbone have been utilized in the past to efficiently transmit chiral information in a variety of different reactions. In this review we will summarize the important and recent achievements obtained in stereocontrolled reactions in which Al(salen) metal complexes are employed. Several other reviews devoted to the general applications and synthesis of chromium and other metal salens have already been published.

Published
2019

42. Asymmetric Reactions Enabled by Cooperative Enantioselective Amino- and Lewis Acid Catalysis

Author

Francesco Calogero, Simone Potenti, Pier Giorgio Cozzi, Giacomo Rodeghiero, Andrea Gualandi, Cozzi, Pier Giorgio, Gualandi, Andrea, Potenti, Simone, Calogero, Francesco, Rodeghiero, Giacomo, Cozzi P. G., Gualandi A., Potenti S., Calogero F., and Rodeghiero G.

Subjects
Activation, Synergistic catalysi, 010402 general chemistry, 01 natural sciences, Catalysis, Catalysi, Nucleophile, Synergistic catalysis, Lewis acids and bases, Amino Acids, Lewis Acid, Lewis Acids, Molecular Structure, Chemistry, Iminium, Stereoisomerism, General Chemistry, Combinatorial chemistry, Lewis acid, 0104 chemical sciences, Lewis acid catalysis, Amino Acid, Biocatalysis, Organocatalysis, Enamine, Concerted reaction
Abstract

Organocatalysis - the branch of catalysis featuring small organic molecules as the catalysts - has, in the last decade, become of central importance in the field of asymmetric catalysis, so much that it is now comparable to metal catalysis and biocatalysis. Organocatalysis is rationalized and classified by a number of so-called activation modes, based on the formation of a covalent or not-covalent intermediate between the organocatalyst and the organic substrate. Among all the organocatalytic activation modes, enamine and iminium catalysis are widely used for the practical preparation of valuable products and intermediates, both in academic and industrial contexts. In both cases, chiral amines are employed as catalysts. Enamine activation mode is generally employed in the reaction with electrophiles, while nucleophiles require the iminium activation mode. Commonly, in both modes, the reaction occurs through well-organized transitions states. A large variety of partners can react with enamines and iminium ions, due to their sufficient nucleophilicity and electrophilicity, respectively. However, despite the success, organocatalysis still suffers from narrow scopes and applications. Multicatalysis is a possible solution for these drawbacks because the two different catalysts can synergistically activate the substrates, with a simultaneous activation of the two different reaction partners. In particular, in this review we will summarize the reported processes featuring Lewis acid catalysis and organocatalytic activation modes synergically acting and not interfering with each other. We will focus our attention on the description of processes in which good results cannot be achieved independently by organocatalysis or Lewis acid catalysis. In these examples of cooperative dual catalysis, a number of new organic transformations have been developed. The review will focus on the possible strategies, the choice of the Lewis acid and the catalytic cycles involved in the effective reported combination. Additionally, some important key points regarding the rationale for the effective combinations will be also included. π-Activation of organic substrates by Lewis acids, via formation of electrophilic intermediates, and their reaction with enamines will be also discussed in this review.

Published
2019

43. Application of coumarin dyes for organic photoredox catalysis

Author

Francesco Bertoni, Giacomo Rodeghiero, Thomas Paul Jansen, Paola Ceroni, Marianna Marchini, Emanuele Della Rocca, Pier Giorgio Cozzi, Rossana Perciaccante, Andrea Gualandi, Gualandi, Andrea, Rodeghiero, Giacomo, Della Rocca, Emanuele, Bertoni, Francesco, Marchini, Marianna, Perciaccante, Rossana, Jansen, Thomas Paul, Ceroni, Paola, and Cozzi, Pier Giorgio

Subjects
Steric effects, TRANSFORMATIONS, Reducing agent, Radical polymerization, 010402 general chemistry, 01 natural sciences, Catalysis, CARBONYL DERIVATIVES, chemistry.chemical_compound, Materials Chemistry, Triplet state, ALDEHYDES, 010405 organic chemistry, Pinacol, Metals and Alloys, Photoredox catalysis, General Chemistry, DRIVEN, Coumarin, Combinatorial chemistry, TRIPLET-STATE, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, BONDS, chemistry, Ceramics and Composites, FUNCTIONALIZATION, Surface modification, RADICAL POLYMERIZATION, METAL-COMPLEXES, VISIBLE-LIGHT
Abstract

Here we report the application of readily prepared and available coumarin dyes for photoredox catalysis, which are able to mimic powerful reductant [Ir(iii)] complexes. Coumarin derivatives 9 and 10 were employed as photoreductants in pinacol coupling and in other reactions, in the presence of Et3N as a sacrificial reducing agent. As the electronic, photophysical, and steric properties of coumarins could be varied, a wide applicability to several classes of photoredox reactions is predicted.

Published
2018

44. Photocatalytic Radical Alkylation of Electrophilic Olefins by Benzylic and Alkylic Zinc-Sulfinates

Author

Fabio Calcinelli, Daniele Mazzarella, Filippo Monti, Andrea Gualandi, Luca Mengozzi, Aitor Ortega-Martínez, Pier Giorgio Cozzi, Nicola Armaroli, Letizia Sambri, Elia Matteucci, Andrea Gualandi, Daniele Mazzarella, Aitor Ortega Martinéz, Luca Mengozzi, Fabio Calcinelli, Elia Matteucci, Filippo Monti, Nicola Armaroli, Letizia Sambri, Pier Giorgio Cozzi, Gualandi, Andrea, Mazzarella, Daniele, Ortega-Martínez, Aitor, Mengozzi, Luca, Calcinelli, Fabio, Matteucci, Elia, Monti, Filippo, Armaroli, Nicola, Sambri, Letizia, and Cozzi, Pier Giorgio

Subjects
010405 organic chemistry, Chemistry, sulfinates, Alkyl radicals, chemistry.chemical_element, General Chemistry, Zinc, Photocatalysis, sulfinates, Michael reaction, radicals, Alkylation, 010402 general chemistry, 01 natural sciences, Medicinal chemistry, iridium catalyst, sulfinate, Catalysis, 0104 chemical sciences, photocatalysi, benzylation, Electrophile, Photocatalysis, Organic chemistry, Iridium, photocatalysis, alkylation
Abstract

The decarboxylative coupling of carboxylic acids has numerous applications in photoredox catalysis.(1) In these reactions, monoelectronic oxidation of carboxylate anions, followed by carbon dioxide evolution from the so formed RCOO•, gave entry to nucleophilic radicals (R•) that were found to react with electrophilic alkenes.(2) An interesting alternative for the generation of radical species can be based on sulfinic acids or sulfinates,(3) with the advantage that the oxidation potentials of sulfinates are lower compared to carboxylate anions. A radical-based functionalization strategy that involves the use of sodium and zinc bis(alkylsulfinate) reagents has already been developed by Baran.(4) Herein we describe a new procedure to accomplish the difficult radical alkylation of electrophilic alkenes using benzylic and alkyl sufinates in combination with commercially available photo- catalysts and visible light irradiation. Moreover, it is shown that zinc sulfinates can be used for facile not-radical sulfonilation reactions with highly electrophilic Michael acceptors.

Published
2018

45. Self-Assembled Two-Dimensional Supramolecular Networks Characterized by Scanning Tunneling Microscopy and Spectroscopy in Air and under Vacuum

Author

Alejandro Santana Bonilla, Artur Ciesielski, Samuel Torsney, John J. Boland, Rafael Gutierrez, Mohamed El Garah, Paolo Samorì, Borislav Naydenov, Andrea Gualandi, Luca Mengozzi, Gianaurelio Cuniberti, Pier Giorgio Cozzi, Naydenov, Borislav, Torsney, Samuel, Bonilla, Alejandro Santana, El Garah, Mohamed, Ciesielski, Artur, Gualandi, Andrea, Mengozzi, Luca, Cozzi, Pier Giorgio, Gutierrez, Rafael, Samorì, Paolo, Cuniberti, Gianaurelio, and Boland, John J

Subjects
Materials science, GRAPHITE, INITIO MOLECULAR-DYNAMICS, Scanning tunneling spectroscopy, Supramolecular chemistry, STM, 02 engineering and technology, Substrate (electronics), PHTHALOCYANINE, 010402 general chemistry, 01 natural sciences, law.invention, law, Electrochemistry, NANOPARTICLES, Molecule, General Materials Science, DENDRIMERS, Spectroscopy, SOLID/LIQUID INTERFACE, SURFACES, Surfaces and Interfaces, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 0104 chemical sciences, Chemical physics, PORPHYRIN, Density functional theory, Self-assembly, Scanning tunneling microscope, 0210 nano-technology, COORDINATION POLYMERS
Abstract

We combine ambient (air) and ultrahigh vacuum (UHV) scanning tunneling microscopy (STM) and spectroscopy (STS) investigations together with density functional theory (DFT) calculations to gain a subnanometer insight into the structure and dynamic of two-dimensional (2D) surface-supported molecular networks. The planar tetraferrocene-porphyrin molecules employed in this study undergo spontaneous self-assembly via the formation of hydrogen bonded networks at the gold substrate-solution interface. To mimic liquid phase ambient deposition conditions, film formation was accomplished in UHV by electro-spraying a solution of the molecule in chloroform onto an Au(111) substrate, thereby providing access to the full spectroscopic capabilities of STM that can be hardly attained under ambient conditions. We show that molecular assembly on Au (111) is identical in films prepared under the two different conditions, and in good agreement with the theoretical predictions. However, we observe the contrast found for a given STM bias condition to be different in ambient and UHV conditions despite the similarity of the structures, and we propose possible origins of the different imaging contrast. This approach could be valuable for the thorough characterization of surface systems that involve large molecules and are prepared mainly in ambient conditions.

Published
2018

46. Stereoselective Reactions with Chiral Schiff Base Metal Complexes

Author

Claire Margaret Wilson, Pier Giorgio Cozzi, Andrea Gualandi, Gualandi, Andrea, Wilson, Claire Margaret, and Cozzi, Pier Giorgio

Subjects
Research groups, 010402 general chemistry, 01 natural sciences, Catalysis, Catalysi, Metal, chemistry.chemical_compound, Schiff base, Metal complexes, Organic chemistry, Lewis acids and bases, Stereocontrol, QD1-999, 010405 organic chemistry, Chemistry, Chemistry (all), General Medicine, General Chemistry, Combinatorial chemistry, Lewis acid, 0104 chemical sciences, visual_art, visual_art.visual_art_medium, Lewis acids, Stereoselectivity, Metal complexe, Schiff bases
Abstract

Chiral Schiff bases are privileged chiral ligands, capable of transmitting chiral information in many stereoselective processes. Their modular nature, the possibility to modify their electronic character, and their ability to coordinate many metals, gives these chiral ligands broad utility and these have been investigated by many research groups around the world. For more than 20 years our research group has devoted attention to the application of chiral Schiff bases in the development of new stereoselective processes and in this brief survey we present our principal results and achievements in this field.

Published
2017

47. Photoredox radical conjugate addition of dithiane-2-carboxylate promoted by an iridium(III) phenyl-tetrazole complex: a formal radical methylation of Michael acceptors

Author

Andrea Baschieri, Letizia Sambri, Filippo Monti, Elia Matteucci, Nicola Armaroli, Andrea Gualandi, Pier Giorgio Cozzi, Gualandi, Andrea, Matteucci, Elia, Monti, Filippo, Baschieri, Andrea, Armaroli, Nicola, Sambri, Letizia, and Cozzi, Pier Giorgio

Subjects
N-PHTHALIMIDOYL OXALATES, Radical, 010402 general chemistry, 01 natural sciences, Catalysis, 1,3-DITHIANES, chemistry.chemical_compound, DUAL-CATALYSIS, Organic chemistry, Tetrazole, Carboxylate, Dithiane, CARBOXYLIC-ACIDS, ALDEHYDES, ORGANOCATALYSIS, 010405 organic chemistry, QUATERNARY CARBONS, Methyl radical, General Chemistry, ORGANIC-CHEMISTRY, Combinatorial chemistry, 0104 chemical sciences, ELECTRON-DEFICIENT ALKENES, chemistry, Michael reaction, Photocatalysis, Photoredox catalysis, Iridium complexes, Michael Addition, VISIBLE-LIGHT
Abstract

A readily accessible iridium(III) phenyl-tetrazole complex ([Ir(ptrz)(2)(tBu-bpy)](+), 2; Hptrz = 2-methyl-5-phenyl-tetrazole; tBu-bpy = 4,4'-di-tert-butyl-2,2'-bipyridine) is shown to be a versatile catalyst for a new photocatalytic Michael reaction. Under light irradiation in the presence of 2, a dithiane 2-carboxylic acid, obtained by simple hydrolysis of a commercially available ethyl ester, generates a 1,3-dithiane radical capable of performing addition to a variety of Michael acceptors (e.g., unsaturated ketones, esters, amides and malonates). This broad scope reaction with high yields is a formal photoredox addition of the elusive methyl radical and the adducts obtained can be starting materials for a variety of functionalized products. The excited-state oxidation potential of catalyst 2 allows selective formation of radicals only from alpha-heterosubstituted carboxylates. Chemical modification of this metal complex can tune the electrochemical properties, opening a route to new highly selective catalytic photo-oxidation reactions.

Published
2017

48. Stereoselective Organocatalytic Addition of Nucleophiles to Isoquinolinium and 3,4-dihydroisoquinolinium Ions: A Simple Approach for the Synthesis of Isoquinoline Alkaloids

Author

Luca Mengozzi, Andrea Gualandi, Pier Giorgio Cozzi, Elisabetta Manoni, Gualandi, Andrea, Mengozzi, Luca, Manoni, Elisabetta, and Cozzi, Pier Giorgio

Subjects
Green chemistry, Homogeneous catalysi, Chemistry (all), Enantioselective synthesis, Asymmetric catalysi, Homogeneous catalysis, General Chemistry, Ring (chemistry), Catalysis, Catalysi, chemistry.chemical_compound, chemistry, Nucleophile, Organic chemistry, Stereoselectivity, Isoquinoline, Organometallic chemistry
Abstract

The frequent occurrence of chiral 1-substituted-1,2,3,4-tetrahydroisoquinoline ring systems in a large number of alkaloids, possessing a broad spectrum of biological and pharmaceutical properties, has prompted out a considerable interest in their synthesis. Economical and valuable stereoselective processes based on organocatalytic transformations represent a new avenue for approaching isoquinoline alkaloids with efficiency and creativity.

Published
2014

49. Organocatalytic Enantioselective Alkylation of Aldehydes with [Fe(bpy)3]Br2 Catalyst and Visible Light

Author

Paola Ceroni, Luca Mengozzi, Marianna Marchini, Mirco Natali, Andrea Gualandi, Marco Lucarini, Pier Giorgio Cozzi, Gualandi, Andrea, Marchini, Marianna, Mengozzi, Luca, Natali, Mirco, Lucarini, Marco, Ceroni, Paola, and Cozzi, Pier Giorgio

Subjects
]Br, stereoselective alkylation, Radical, Alkylation, organocatalysi, stereoselective alkylations, aldehyde, Catalysis, chemistry.chemical_compound, photocatalysi, [Fe(bpy)3]Br2, Economica, aldehydes, organocatalysis, photocatalysis, radicals, [Fe(bpy), 3, 2, Organic chemistry, radical, Chemistry, Enantioselective synthesis, General Chemistry, Organocatalysis, Photocatalysis, Organic synthesis, Stereoselectivity
Abstract

Catalytic amounts (2.5 mol %) of [Fe(bpy)3]Br2 complex in the presence of visible light and the MacMillan catalyst 3 (20 mol %) are highly effective in promoting an enantioselective organocatalytic photoredox alkylation of aldehydes with various α-bromo carbonyl compounds. Reaction yields of isolated compounds and enantioselectivities are very good and comparable to the ones obtained by [Ru(bpy)3]2+, organic dyes, or semiconductors, in the presence of the same organocatalysts. The use of first-row, abundant, and cheap metals in photocatalyzed reactions can open new perspectives in stereoselective organic synthesis.

Published
2015

50. Photoredox-catalyzed intramolecular nucleophilic amidation of alkenes with β-lactams.

Author

Giraldi V, Magagnano G, Giacomini D, Cozzi PG, and Gualandi A

Abstract

The direct nucleophilic addition of amides to unfunctionalized alkenes via photoredox catalysis represents a facile approach towards functionalized alkylamides. Unfortunately, the scarce nucleophilicity of amides and competitive side reactions limit the utility of this approach. Herein, we report an intramolecular photoredox cyclization of alkenes with β-lactams in the presence of an acridinium photocatalyst. The approach uses an intramolecular nucleophilic addition of the β-lactam nitrogen atom to the radical cation photogenerated in the linked alkene moiety, followed by hydrogen transfer from the hydrogen atom transfer (HAT) catalyst. This process was used to successfully prepare 2-alkylated clavam derivatives., (Copyright © 2024, Giraldi et al.)

Published
2024
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