Krit Setthakarn scite author profile

Organocatalysis has emerged as a powerful synthetic tool in organic chemistry in the last few decades. Among various classes of organocatalysis, chiral diol-based scaffolds, such as BINOLs, VANOLs, and tartaric acid derivatives, have been widely used to induce enantioselectivity due to the ability of the hydroxyls to coordinate with the Lewis acidic sites of reagents or substrates and create a chiral environment for the transformation. In this review, we will discuss the applications of these diol-based catalysts in different types of reactions, including the scopes of reactions and the modes of catalyst activation. In general, the axially chiral aryl diol BINOL and VANOL derivatives serve as the most competent catalyst for most examples, but examples of exclusive success using other scaffolds, herein, suggests that they should not be overlooked. Lastly, the examples, to date, are mainly from tartrate and biaryl diol catalysts, suggesting that innovation may be available from new diol scaffolds.

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Rhodamine B-based “turn-on” fluorescent and colorimetric chemosensors for highly sensitive and selective detection of mercury (II) ions

Wanichacheva

Setthakarn

Prapawattanapol

et al. 2012

Journal of Luminescence

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A Binaphthyl-Based Scaffold for a Chiral Dirhodium(II) Biscarboxylate Ligand with α-Quaternary Carbon Centers

2017

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A chiral dirhodium(II) paddlewheel complex has been synthesized from biscarboxylate ligands derived from BINOL, and the resulting complex has been used in enantioselective carbene/alkyne cascade reactions. The ligand design was guided by requirements of α,α-dimethyl substituted carboxylates and bidentate ligands to ensure high levels of catalytic activity. Previously disclosed chiral complexes lack these features, resulting in low product yields. The design successfully replicated or exceeded the yields of the unusually effective achiral catalyst for the cascade reaction, Rh 2 (esp) 2 , which often shows unique reactivity. Promising enantioselectivity was observed for aldehyde-derived hydrazone substrates (29−96% ee), showing that the new scaffold has significant potential.

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Oxyallyl Cation Capture via Electrophilic Deborylation of Organoboronates: Access to α,α′-Substituted Cyclic Ketones

2019

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An umpolung strategy to synthesize α,α′-substituted cyclic ketones through the nucleophilic addition of organoboronates to α-hydroxyl silyl enol ethers is described. The reaction proceeds via the trapping of in situ generated oxyallyl cations via the electrophilic deborylation of C(sp 2 ) and C(sp) borates. This efficient and straightforward method provides direct access to α-substituted silyl enol ethers in high yield with complete regioselectivity. Desilylation in a one-pot procedure provides the corresponding α,α′-disubstituted ketones with high diastereoselectivity.

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Novel near-infrared Aza-BODIPY-based fluorescent and colorimetric sensor for highly selective detection of Au3+ in aqueous media, human skin and brain cells

Plaisathit

Setthakarn

Sirirak

et al. 2023

Journal of Photochemistry and Photobiology A: Chemistry

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Krit Setthakarn

Chiral Diol-Based Organocatalysts in Enantioselective Reactions

Rhodamine B-based “turn-on” fluorescent and colorimetric chemosensors for highly sensitive and selective detection of mercury (II) ions

A Binaphthyl-Based Scaffold for a Chiral Dirhodium(II) Biscarboxylate Ligand with α-Quaternary Carbon Centers

Oxyallyl Cation Capture via Electrophilic Deborylation of Organoboronates: Access to α,α′-Substituted Cyclic Ketones

Novel near-infrared Aza-BODIPY-based fluorescent and colorimetric sensor for highly selective detection of Au3+ in aqueous media, human skin and brain cells

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