Coinage Metal Complexes as Chiral Catalysts for 1,3-Dipolar Cycloadditions

In this account, we describe the experience of our research group in the implementation of chiral coinage metal complexes into the efficient enantioselective 1,3-DC of azomethine ylides derived from α-amino acids and azlactones with different dipolarophiles. The corresponding chiral metallodipoles were generated in situ and next focused on the synthesis of highly substituted prolines. For this purpose, privileged ligands such as phosphoramidites and binap with silver(I), gold(I) and copper(II) salts are described. Depending from the ligand and mainly from the metal salt it can be possible to control the facial endo/exo-diasteroselectivity and the enantioselectivity of these types of processes. The synthetic processes are also supported by DFT calculations in order to elucidate the most plausible mechanism and the stereochemical results.

Asymmetric 1,3-Dipolar Cycloadditons of Stabilized Azomethine Ylides with Nitroalkenes

This review highlights the biological importance of many polysubstituted nitro-prolines and -pyrrolidines. Their preparation using asymmetric 1,3-dipolar cycloadditions of azomethine ylides with nitroalkenes using diastereoselective and enantioselective strategies is described remarking the scope and main features of each one.

Recent Advances in the Catalytic Enantioselective Reformatsky Reaction

This paper reviews the present state of the catalytic enantioselective Reformatsky reaction. Advancements in asymmetric versions of this reaction have recently led to a considerable extension of its scope and applicability, principally due to the use of highly active chiral ligands and very specific reaction conditions.

Palladium(II) pincer complexes of α-amino acids: towards the synthesis of catalytically active artificial peptides

NCN palladium(II) complexes have been covalently attached to the N- and C-terminus of the dipeptide L-Phe-L-Va-OMe. Remarkably, the hydrolysis of the NCN-Pd(II) L-Val-OMe afforded the corresponding, palladated free amino acid without affecting the metal site. This deprotected amino acid could be coupled to any protein, enzyme or peptidic chain by simple peptide chemistry. This bioorganometallic systems were active as catalysts in the aldol reaction between methyl isocianate and benzaldehyde.

Catalyzed addition of acid chlorides to alkynes by unmodified nano-powder magnetite: synthesis of chlorovinyl ketones, furans, and related cyclopentenone derivatives

Inexpensive and commercially available nano-powder magnetite is an excellent catalyst for the addition of acid chlorides to internal and terminal alkynes, yielding the corresponding chlorovinyl ketones in good yields. The process has been applied to the synthesis of 5-chloro-4-arylcyclopent-2-enones, 3-aryl-1H-cyclopenta[a]naphthalen-1-ones, and (E)-3-alkylidene-2,3-dihydro-1H-cyclopenta[a]naphthalen-1-ones, just by changing the nature of the starting acid chloride or the alkyne. All tested processes elapse with an acceptable or excellent regio- and stereo-selectivity. Moreover, the use of the iridium impregnated on magnetite catalyst permits the integration of the chloroacylation process with a second dehydrochlorination–annulation process to yield, in one-pot, 1-aryl-2,4-dialkylfurans in good yields, independently of the nature of the starting reagents, and including the heteroaromatic ones.

Environmentally friendly and regioselective C3-alkylation of indoles with alcohols through a hydrogen autotransfer strategy

The direct alkylation of indoles using KOH and alcohols, as initial source of the electrophile, under solvent-free conditions is a safe and environmentally benign strategy for selective modification of these structures at the C3-position, without using hazardous and difficult to handle bromide or iodide derivatives or toxic and expensive transition metal catalysts. The protocol shows a broad scope, including halogenated indoles and secondary alcohols.

Copper-Impregnated Magnetite as a Heterogeneous Catalyst for the Homocoupling of Terminal Alkynes

Copper-impregnated magnetite is a versatile heterogeneous catalytic system for the synthesis of 1,3-diynes by the homocoupling of terminal alkynes. This catalyst does not require the use of pressurized oxygen as the oxidant and it does not need a solvent or harsh conditions to give the expected products. Moreover, the catalyst can be removed from the reaction medium simply by using a magnet. The reaction occurs at the lowest copper loading reported for any heterogeneous catalyst.

NHC-Ligand Effectiveness in the Fluorine-Free Hiyama Reaction of Aryl Halides

1-Benzyl-3-(2-hydroxy-2-phenylethyl)imidazolium chloride (5), which is a precursor of an N-heterocyclic carbene ligand, in combination with palladium acetate, has been employed as an effective catalyst for the fluorine-free Hiyama reaction. A systematic study of the catalytic mixture, by a 32 factorial design, has revealed that both the amount of palladium and the Pd/NHC precursor ratio are important factors for obtaining good yields of the coupling products, indicating an interaction between them. The best catalytic system involves mixing 0.1 mol-% palladium acetate in a 1:5 ratio (Pd/salt 5), which allows the effective coupling of a range of aryl bromides and chlorides with trimethoxy(phenyl)silane. The Hiyama reactions are carried out in NaOH solution (50 % H2O w/w), at 120 °C under microwave irradiation during 60 min.

Osmium Catalyst for the Borrowing Hydrogen Methodology: α-Alkylation of Arylacetonitriles and Methyl Ketones

Complex [Os(η6-p-cymene)(OH)(IPr)]OTf is an efficient catalyst precursor for the α-alkylation of arylacetonitriles and methyl ketones with alcohols, which works with turnover frequencies between 675 and 176 h–1 for nitriles and between 194 and 28 h–1 for ketones.

Intramolecular Bromoamination of Conjugated N-Tosylaminodienes Using N-Bromosuccinimide. Synthesis of Bromoallyl-Substituted N-Heterocycles and Their Applications as Building Blocks

The bromonium-promoted cyclization of conjugated aminodienes is described. The reaction proceeds smoothly in the presence of N-bromosuccinimide as halonium promoter, and using N-tosyl-protected aminodienes as substrates, to give the corresponding halocyclization products in high yields and with high diastereoselectivities. It can be envisaged that the formation of these products is the result of an SN2′-type ring-opening of a terminal bromonium intermediate in a 5-exo-trig or 6-exo-trig cyclization mode. The presence of an allyl bromide moiety in the haloamination products makes these molecules highly attractive from a synthetic point of view, as it opens the way for further transformations. Thus, allylic substitution reactions with different nucleophiles (acetate, azide, cyanide, and malonate), palladium-catalysed Suzuki coupling, and silver-mediated bromine displacement reactions were carried out successfully.

Copper-Catalyzed Asymmetric Alkylation of β-Keto Esters with Xanthydrols

The copper(II) triflate-tert-butyl-bisoxazoline [Cu(OTf)2-t-Bu-BOX]-catalyzed asymmetric alkylation of β-keto esters using free benzylic alcohols such as xanthydrols, as alkylating agents, is herein described for the first time. This green protocol renders in general the corresponding products with good results in terms of both yields and enantioselectivities using different keto esters, even when quaternary stereocenters were created. The scope, limitations and mechanistic aspects of the process are also discussed.

Direct Nucleophilic Substitution of Free Allylic Alcohols in Water Catalyzed by FeCl3⋅6 H2O: Which is the Real Catalyst?

The allylic substitution reaction, and particularly the direct allylic amination reaction, of free allylic alcohols in water catalyzed by FeCl3⋅6 H2O is described. This novel environmentally-friendly methodology allows the use of a wide variety of nitrogenated nucleophiles such as sulfonamides, carbamates, benzamides, anilines, benzotriazoles, and azides, generally giving good yields of the corresponding substitution products. The synthetic applicability of the process is also demonstrated because the reaction can be performed on gram-scale. Additionally, carbon nucleophiles such as silylated nucleophiles, aromatic compounds, and malonates also proved to be suitable for this transformation. Finally, the nature of the catalytic species present in aqueous media is unveiled, pointing towards the formation of hexaaquo iron(III) complexes.

Enantioselective aldol reactions with aqueous 2,2-dimethoxyacetaldehyde organocatalyzed by binam-prolinamides under solvent-free conditions

Aqueous 2,2-dimethoxyacetaldehyde (60% wt solution) is used as an acceptor in aldol reactions, with cyclic and acyclic ketones and aldehydes as donors, organocatalyzed by 10 mol % of N-tosyl-(Sa)-binam-l-prolinamide [(Sa)-binam-sulfo-l-Pro] at rt under solvent-free conditions. The corresponding monoprotected 2-hydroxy-1,4-dicarbonyl compounds are obtained in good yields and with high levels of diastereo- and enantioselectivity mainly as anti-aldols. In the case of 4-substituted cyclohexanones a desymmetrization process takes place to mainly afford the anti,anti-aldols. 2,2-Dimethyl-1,3-dioxan-5-one allows the synthesis of a useful intermediate for the preparation of carbohydrates in higher yield, de and ee than with l-Pro as the organocatalyst.

Congreso de Estudiantes de Química de la Comunidad Valenciana. Otra forma de aprender es posible

En abril de 2013 se celebró en la Universidad de Alicante el I Congreso de Estudiantes de Química de la Comunidad Valenciana. Estas jornadas presentan como principal novedad que la totalidad del comité organizador está compuesto por estudiantes de Química (cinco de la Universidad de Alicante y dos de la Universidad de Valencia) apoyados por un comité científico formado por profesores de ambas universidades. Estos estudiantes habían participado en años anteriores en redes de innovación docente o proyectos similares, mostrando interés por proponer alternativas a las clases magistrales para la adquisición de competencias, tanto de tipo transversal como específicas de la titulación. El congreso se enfocó teniendo en cuenta tres puntos básicos que son de especial interés para estudiantes de Química: (i) Salidas profesionales; (ii) Búsqueda activa de empleo y como enfrentarse a una entrevista de trabajo; (iii) Estudios de postgrado. Además, los más de 100 estudiantes que participaron en las jornadas ya sea mediante una comunicación oral, un póster o una actividad de divulgación científica se mostraron muy satisfechos con la experiencia. Actividades de este tipo y su gran acogida son capaces de mostrarnos, tanto a estudiantes como profesores, que existen formas de aprendizaje fuera de las aulas que permiten la adquisición de competencias transversales y específicas.

Alilación diastereoselectiva de N-terc-butilsulfinil iminas con bromuros alílicos: aplicación a la síntesis de heterociclos nitrogenados benzocondensados

En la presente Memoria se ha estudiado la adición estereoselectiva de diferentes bromuros alílicos mediada por indio a diferentes N-terc-butilsulfiniliminas (tBSiminas), pudiendo participar algunos de los derivados de aminas homoalílicas obtenidos en estos procesos en reacciones de ciclación intramolecular, a través de una N-arilación o una reacción de Heck, para acceder de manera estereoselectiva a estructuras más complejas. Finalmente, se ha demostrado la utilidad sintética de la metodología desarrollada aplicándola a la síntesis de algunos productos naturales y sus derivados. La Discusión de resultados aquí presentada se ha estructurado en las siguientes partes: - Alilación diastereoselectiva de tBS-cetiminas. La alilación de diferentes tBScetiminas con bromuro de alilo en presencia de indio a reflujo de THF dio lugar a los correspondientes derivados de homoalil aminas 5 con buenos rendimientos, en general, variando la diastereoselectividad encontrada con la naturaleza de las tBScetiminas de partida. Las relaciones diastereoméricas en el caso de las cetiminas aromáticas fueron moderadas (75:25-85:15 rd), teniendo lugar la alilación con total diastereoselectividad en el caso de las iminas alifáticas derivadas de metil cetonas (>98:2 rd). Por otro lado la diastereoselectividad fue baja en la alilación de iminas α,β-insaturadas no cíclicas y sorprendentemente muy elevada en los sistemas cíclicos de seis (5j) y siete (5k) eslabones (92:8 y 94:6 rd, respectivamente). - Alilación diastereoselectiva de tBS-iminas con bromuros alílicos sustituidos. La adición de reactivos de alilindio, generados a partir de bromuro de crotilo e indio, a tBS-aldiminas y –cetiminas se produjo con prácticamente total diastereoselectividad facial y buenas relaciones diastereoméricas anti/sin en el caso de tBS-iminas derivadas de benzaldehídos sustituidos y de cetonas. Sin embargo, la diastereoselectividad anti/sin fue prácticamente nula en el caso de los derivados de aldehídos alifáticos lineales. También se encontró que la adición mediada por indio de bromuro de ciclohexenilo a tBS-cetiminas tuvo lugar con alta diastereoselectividad. - Aplicaciones sintéticas de homoalilaminas con un grupo o-bromoarilo en su estructura. El tratamiento de diferentes derivados de homoalilamina 5 y 9 con un anillo aromático en su estructura, que porta a su vez en posición orto un átomo de bromo, bajo condiciones de reacción tipo Heck catalizadas por Pd, llevó a la formación de los compuestos cíclicos esperados de 5, 6 y 7 eslabones con buenos rendimientos. A su vez, también fue posible llevar a cabo la síntesis de diferentes compuestos heterocíclicos benzocondensados a través de reacciones de N-arilación intramolecular, catalizadas bien por compuestos de Cu o de Pd, en compuestos nitrogenados que portan anillos aromáticos orto-bromo sustituidos. - Síntesis estereoselectiva de alcaloides 2–alquiltetrahidroquinolínicos. Se llevó a cabo la síntesis de los productos naturales (–)-angustureína y (–)-cuspareína, siendo el primer paso de reacción en ambos casos la adición de reactivos organomagnesianos a las tBS-aldiminas 8p y ent-8p. Las síntesis se completaron tras 3 etapas adicionales: desulfinilación, N-arilación intramolecular y N-metilación, siendo los rendimientos globales del 49% y 17% respectivamente. También se preparó de manera alternativa la (–)-angustureína a partir de la N-metil-2-aliltetrahidroquinolina (23p) tras metátesis cruzada con (E)-3-hexeno e hidrogenación catalítica posterior del doble enlace olefínico. Por último y a partir del compuesto 23p, tras acoplamiento tipo Heck con 4-bromoveratrol, se llevó a cabo la síntesis de un derivado (24p) de la (–)-cuspareína.