Homochiral bifunctional <i>L</i>‐prolinamide‐ and <i>L‐</i>bis‐prolinamide‐catalyzed asymmetric aldol reactions performed in wet solvent‐free conditions

Huelgas, Gabriela; Somanathan, Ratnasamy; Hernández-Pérez, Julio M.; Cabrera, Haydee Rojas; Macias, Maximiliano De La Higuera; Dominguez‐Huerta, Alejandra; Sabala, Rocio; Parrodi, Cecilia Anaya de

doi:10.1002/chir.23283

Cited by 5 publications

(1 citation statement)

References 38 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This property raises the pKa value, placing proline ahead of other amino acids in terms of nucleophilicity [6]. The earliest discovery reported that proline is a "microaldolase", which is capable of activating the electrophile by its proton donor group, and also activating the nucleophile by its amine group [7]. This permits proline to take part in bifunctional asymmetric catalysis, which has been a successful laboratory strategy for enhancing chemical transformations [8].…”

Section: Introduction 11 Prolinementioning

confidence: 99%

Synthesis of Trans-4-Hydroxyprolineamide and 3-Ketoproline Ethyl Ester for Green Asymmetric Organocatalysts

Noraishah Abdullah,

Zurina Shaameri,

Ahmad Sazali Hamzah

et al. 2024

ARASET

View full text Add to dashboard Cite

Organocatalysts have become one of the three pillars in asymmetric reactions, along with metal catalysis and enzyme catalysis. Organocatalysis is widely acknowledged in both academia and industry as a practical and advantageous synthetic method owing to its operational ease, readily available catalyst, environmentally friendly, and minimal toxicity. Much attention has been focused on the organocatalyst for its superior properties as an efficient and clean catalyst. In this work, a series of green organocatalysts of trans-4-hydroxyprolineamide were efficiently obtained in a two-step reaction utilizing EDC.HCl and HOBT as coupling reagents via a condensation reaction. The yield furnished in 93% to 97% yields. These organocatalysts have big potential in asymmetric reactions such as aldol and Michael addition reactions.

show abstract

Section: Introduction 11 Prolinementioning

confidence: 99%

Synthesis of Trans-4-Hydroxyprolineamide and 3-Ketoproline Ethyl Ester for Green Asymmetric Organocatalysts

Noraishah Abdullah,

Zurina Shaameri,

Ahmad Sazali Hamzah

et al. 2024

ARASET

View full text Add to dashboard Cite

show abstract

Surface Decoration of Cellulose With Trifluoromethylphenyl Substituted Thiourea: A Robust Hydrogen‐Bonding Catalyst in Conjunction With L‐Proline for the Asymmetric Direct Mannich Reaction

Poslu,

Koz

2024

Biopolymers

View full text Add to dashboard Cite

Cellulose is one of the most abundant biopolymers in nature. Despite being the subject of research in various fields, it is not as famous as chitosan in catalyst design. Herein, a novel thiourea‐functionalized cellulose (CTU‐6) was synthesized as a robust hydrogen bonding catalyst with the degree of substitution (DS) of 0.84. CTU‐6 was characterized using Fourier transform infrared spectroscopy (FT‐IR), scanning electron microscope (SEM), x‐ray powder diffraction (XRD), proton nuclear magnetic resonance spectroscopy (1HNMR), solid‐state cross‐polarization magic angle spinning carbon‐13 nuclear magnetic resonance (CP/MAS 13C‐NMR), thermal gravimetric analysis (TGA) and elementel analysis. CTU‐6 catalyzed the direct asymmetric Mannich reaction between acetone, aniline, and various aromatic aldehydes in cooperation with L‐proline. The reaction exhibited excellent enantioselectivity, achieving up to 98% enantiomeric excess (ee) at room temperature. Incorporating trifluoromethylphenyl‐substituted thiourea into the cellulose framework leverages its ability to form hydrogen bonds, thereby enabling precise control over the asymmetric induction. This study highlights the potential of cellulose‐based catalysts in advancing asymmetric synthesis and their versatility in various organic reactions in cooperation with small chiral ligands. This synergy not only facilitates the efficient catalytic process but also improves the stereochemical outcomes of the reactions. This method underscores the importance of utilizing renewable and versatile cellulose materials in combination with chiral auxiliaries to achieve high levels of enantioselectivity.

show abstract

Improvement of bifunctional organocatalysts performance by water as an additive in the Michael addition of carbonyl compounds to maleimides

Vazquez-Chavez,

Luna-Morales,

Díaz-Salazar

et al. 2024

Tetrahedron

View full text Add to dashboard Cite

Homochiral bifunctional L‐prolinamide‐ and L‐bis‐prolinamide‐catalyzed asymmetric aldol reactions performed in wet solvent‐free conditions

Cited by 5 publications

References 38 publications

Synthesis of Trans-4-Hydroxyprolineamide and 3-Ketoproline Ethyl Ester for Green Asymmetric Organocatalysts

Synthesis of Trans-4-Hydroxyprolineamide and 3-Ketoproline Ethyl Ester for Green Asymmetric Organocatalysts

Surface Decoration of Cellulose With Trifluoromethylphenyl Substituted Thiourea: A Robust Hydrogen‐Bonding Catalyst in Conjunction With L‐Proline for the Asymmetric Direct Mannich Reaction

Improvement of bifunctional organocatalysts performance by water as an additive in the Michael addition of carbonyl compounds to maleimides

Contact Info

Product

Resources

About