Your search keyword '"Gualandi, Andrea"' showing total 13 results

1. Stable Meisenheimer Complexes as Powerful Photoreductants Readily Obtained from Aza-Hetero Aromatic Compounds.

Author

Calogero F, Wilczek L, Pinosa E, Gualandi A, Dorta R, Herrera A, Dai Y, Rossignol A, Negri F, Ziani Z, Fermi A, Ceroni P, and Cozzi PG

Abstract

Excited states of radical anions derived from the photoreduction of stable organic molecules are suggested to serve as potent reductants. However, excited states of these species are too short-lived to allow bimolecular quenching processes. Recently, the singlet excited state of Meisenheimer complexes, which possess a long-lived excited state, was identified as the competent species for the reduction of challenging organic substrates (-2.63 V vs. SCE, saturated calomel electrode). To produce reasonably stable and simply accessible different Meisenheimer complexes, the addition of nBuLi to readily available aromatic heterocycles was investigated, and the photoreactivity of the generated species was studied. In this paper, we present the straightforward preparation of a family of powerful photoreductants (*E ox <-3 V vs. SCE in their excited states, determined by DFT and time-dependent TD-DFT calculations; DFT, density functional theory) that can induce dehalogenation of electron-rich aryl chlorides and to form C-C bond through radical cyclization. Photophysical analyses and computational studies in combination with experimental mechanistic investigations demonstrate the ability of the adduct to act as a strong electron donor under visible light irradiation., (© 2024 The Author(s). Angewandte Chemie International Edition published by Wiley-VCH GmbH.)

Published

2024

2. Nickel-Mediated Enantioselective Photoredox Allylation of Aldehydes with Visible Light.

Author

Calogero F, Potenti S, Bassan E, Fermi A, Gualandi A, Monaldi J, Dereli B, Maity B, Cavallo L, Ceroni P, and Cozzi PG

Abstract

Here we report a practical, highly enantioselective photoredox allylation of aldehydes mediated by chiral nickel complexes with commercially available allyl acetate as the allylating agent. The methodology allows the clean stereoselective allylation of aldehydes in good to excellent yields and up to 93 % e.e. using a catalytic amount of NiCl 2 (glyme) in the presence of the chiral aminoindanol-derived bis(oxazoline) as the chiral ligand. The photoredox system is constituted by the organic dye 3DPAFIPN and a Hantzsch's ester as the sacrificial reductant. The reaction proceeds under visible-light irradiation (blue LEDs, 456 nm) at 8-12 °C. Compared to other published procedures, no metal reductants (such as Zn or Mn), additives (e.g. CuI) or air-sensitive Ni(COD) 2 are necessary for this reaction. Accurate DFT calculations and photophysical experiments have clarified the mechanistic picture of this stereoselective allylation reaction., (© 2021 Wiley-VCH GmbH.)

Published

2022

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

Author

Melli A, Potenti S, Melosso M, Herbers S, Spada L, Gualandi A, Lengsfeld KG, Dore L, Buschmann P, Cozzi PG, Grabow JU, Barone V, and Puzzarini C

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

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

Author

Li W, Spada L, Tasinato N, Rampino S, Evangelisti L, Gualandi A, Cozzi PG, Melandri S, Barone V, and Puzzarini C

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., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

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

Author

Mengozzi L, El Garah M, Gualandi A, Iurlo M, Fiorani A, Ciesielski A, Marcaccio M, Paolucci F, Samorì P, and Cozzi PG

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 [MeAl III (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., (© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

6. Me2Zn-Mediated Catalytic Enantio- and Diastereoselective Addition of TosMIC to Ketones.

Author

Keeri AR, Gualandi A, Mazzanti A, Lewinski J, and Cozzi PG

Abstract

The first catalytic asymmetric addition of TosMIC to unactivated ketones is presented. A combination of Me2Zn and aminoalcohol catalyst promoted the aldol addition/cyclization reaction to render oxazolines possessing a fully substituted stereocenter with excellent yields (up to 92%), high enantioselectivities (up to 96%), and complete diastereoselectivity. The chiral oxazolines were then used to give, after a straightforward acid hydrolysis, enantioenriched building blocks bearing tertiary alcohol motifs such as hydroxylaldehydes, hydroxylacids, and hydroxylesters without racemization., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

7. A Versatile Organocatalytic Approach for the Synthesis of Enantioenriched gem-Difluorinated Compounds.

Author

Saulnier S, Ciardi M, Lopez-Carrillo V, Gualandi A, and Cozzi PG

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., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2015

8. A catalytic reactor for the organocatalyzed enantioselective continuous flow alkylation of aldehydes.

Author

Porta R, Benaglia M, Puglisi A, Mandoli A, Gualandi A, and Cozzi PG

Subjects

Alkylation, Catalysis, Stereoisomerism, Aldehydes chemistry

Abstract

The use of immobilized metal-free catalysts offers the unique possibility to develop sustainable processes in flow mode. The challenging intermolecular organocatalyzed enantioselective alkylation of aldehydes was performed for the first time under continuous flow conditions. By using a packed-bed reactor filled with readily available supported enantiopure imidazolidinone, different aldehydes were treated with three distinct cationic electrophiles. In the organocatalyzed α-alkylation of aldehydes with 1,3-benzodithiolylium tetrafluoroborate, excellent enantioselectivities, in some cases even better than those obtained in the flask process (up to 95% ee at 25 °C), and high productivity (more than 3800 h(-1) ) were obtained, which thus shows that a catalytic reactor may continuously produce enantiomerically enriched compounds. Treatment of the alkylated products with Raney-nickel furnished enantiomerically enriched α-methyl derivatives, key intermediates for active pharmaceutical ingredients and natural products., (© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2014

9. Synergy, compatibility, and innovation: merging Lewis acids with stereoselective enamine catalysis.

Author

Gualandi A, Mengozzi L, Wilson CM, and Cozzi PG

Subjects

Amines chemistry, Catalysis, Coordination Complexes chemistry, Cycloaddition Reaction, Gold chemistry, Ketones chemistry, Stereoisomerism, Lewis Acids chemistry

Abstract

In recent years there has been an accelerated rate of development in the field of organocatalysis, with asymmetric organocatalysis now reaching full maturity. The invention of new organocatalytic reactions and the exploration of new concepts now appear in tandem with the application of organocatalytic techniques in the synthesis of natural products and active pharmaceutical ingredients (APIs). After a "golden rush" in organocatalysis, researchers are now starting to combine different methods, thereby taking advantage of the significant benefits of synergy. Metals are used in combination with organocatalytic processes, thus reaching complexity that is found in nature, where enzymes take advantage of the presence of certain metals to increase the arsenal of organic transformations available. In this Focus review, we illustrate the possibility of a "happy marriage" between Lewis acids and organocatalytic stereoselective processes. Questions have been raised about the combination of Lewis acids and organocatalysis owing to the presence of water and/or strong bases in these processes. Some Lewis acids have been shown to be compatible with organocatalysis and concepts relating to their use will be illustrated herein. To summarize the fruitful use of Lewis acids in stereoselective organocatalytic processes, we will draw attention to the advantages and selectivity achieved using this method.

Published

2014

10. Highly enantioselective α alkylation of aldehydes with 1,3-benzodithiolylium tetrafluoroborate: a formal organocatalytic α alkylation of aldehydes by the carbenium ion.

Author

Gualandi A, Emer E, Guiteras Capdevila M, and Cozzi PG

Published

2011

11. S(N)1-type reactions in the presence of water: indium(III)-promoted highly enantioselective organocatalytic propargylation of aldehydes.

Author

Sinisi R, Vita MV, Gualandi A, Emer E, and Cozzi PG

Subjects

Aldehydes chemistry, Catalysis, Molecular Structure, Stereoisomerism, Aldehydes chemical synthesis, Alkynes chemistry, Indium chemistry, Propanols chemistry, Water chemistry

Published

2011

12. Atroposelective organocatalysis.

Author

Cozzi PG, Emer E, and Gualandi A

Published

2011

13. Catalytic hydrogenation of meso-octamethylporphyrinogen (calix[4]pyrrole).

Author

Journot G, Letondor C, Neier R, Stoeckli-Evans H, Savoia D, and Gualandi A

Subjects

Catalysis, Hydrogenation, Models, Molecular, Molecular Structure, Solubility, Stereoisomerism, Calixarenes chemistry, Porphyrins chemistry, Pyrroles chemistry, Pyrrolidines chemistry, Solvents chemistry

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