Keith P. Reber scite author profile

The reactive intermediates known as acylketenes exhibit a rich chemistry and have been extensively utilized for many types of inter- and intramolecular bond-forming reactions within the field of organic synthesis. Characteristic reactions of acylketenes include cycloadditions, carbon–carbon bond-forming reactions, and nucleophilic capture with alcohols or amines to give β-keto acid derivatives. In particular, the intramolecular capture of acylketene intermediates with pendant nucleophiles represents a powerful method for forming both medium-sized rings and macrocycles, often in high yield. This tutorial review examines the history, generation, and reactivity of acylketenes with a special focus on their applications in the synthesis of natural products.

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Reactivity of the Polyamide Membrane Monomer with Free Chlorine: Reaction Kinetics, Mechanisms, and the Role of Chloride

Huang

Reber

Toomey

et al. 2019

Environ. Sci. Technol.

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Aromatic polyamide thin-film composite membranes are widely used in reverse osmosis (RO) and nanofiltration (NF) due to their high water permeability and selectivity. However, these membranes undergo biofouling and can degrade and eventually fail during free chlorine exposure. To better understand this effect, the reactivity of the polyamide monomer (benzanilide (BA)) with free chlorine was tested under varying pH and chloride (Cl − ) conditions. The kinetic results indicated that the current existing mechanisms, especially the Orton rearrangement, were invalid. Revised reaction pathways were proposed where BA chlorination was driven by two independent pathways involving the anilide ring and amide nitrogen moieties. The ability for one moiety to be chosen over the other was highly dependent on the pH, Cl − concentration, and the resulting chlorinating agents (e.g., Cl 2 , HOCl, OCl − , and Cl 2 O) generated. Species-specific rate constants for BA with Cl 2 , OCl − , and HOCl equaled (7.6 ± 0.19) × 10 1 , (1.7 ± 1.5) × 10 1 , (2.1 ± 0.71) × 10 −2 M −1 s −1 , respectively. A similar value for Cl 2 O could not be accurately estimated under the tested conditions. The behavior of these chlorinating agents differed for each reactive site such that OCl − > HOCl for N-chlorination and Cl 2 > HOCl > OCl − for anilide ring chlorination. Experiments with modified monomers indicated that substituent placement largely affected which reactive site was kinetically favorable. Overall, such findings provide a predictive model of how the polyamide monomer degrades during chlorine exposure and guidance on how chlorine-resistant polyamide membranes should be designed.

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Aqueous Chlorination Kinetics of Cyclic Alkenes—Is HOCl the Only Chlorinating Agent that Matters?

Lau

Reber

Roberts

2019

Environ. Sci. Technol.

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Although Cl 2 and Cl 2 O have been recognized as highly reactive constituents of free available chlorine (FAC), robust rate constants for Cl 2 and Cl 2 O remain scarce in the environmental literature. In this work, we explored the chlorination kinetics of three structurally related alkenes (α-ionone, β-ionone, and dehydro-β-ionone), a class of compounds whose reactivities with Cl 2 and Cl 2 O have not been previously investigated. Second-order rate constants for Cl 2 , Cl 2 O, and HOCl were computed from experimental rate constants obtained at various pH values, [Cl − ], and [FAC]. Our results show that while HOCl is the predominant chlorinating agent for the most reactive alkene, Cl 2 and Cl 2 O can dominate the chlorination kinetics of the less reactive alkenes at high [Cl − ] and high [FAC], respectively. The tradeoff between overall reactivity with FAC and selectivity for Cl 2 and Cl 2 O previously observed for aromatic compounds also applies to the alkenes examined. In laboratory experiments in which high [FAC] may be used, omission of Cl 2 O in data modeling could yield second-order rate constants of dubious validity. In chlorinating real waters with elevated [Cl − ], formation of Cl 2 may enhance the formation kinetics of chlorinated disinfection byproducts (DBPs) and exacerbate the burden of DBP control for water utilities.

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A Rapid, Asymmetric Synthesis of the Decahydrofluorene Core of the Hirsutellones

2009

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A tandem ketene-trapping/Diels–Alder cyclization sequence was the pivotal transformation in an efficient, asymmetric synthesis of a decahydrofluorene tricyclic structure possessing eight stereogenic centers and key features of the hirsutellone class of antitubercular natural products. The hirsutellone-like β-keto ester that was fashioned by this sequence (thirteen steps; 6% overall yield) demonstrated significant inhibitory activity against Mycobacterium tuberculosis. The mechanism of action of this antitubercular compound is not yet known.

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1,3,5-Trimethoxybenzene (TMB) as a new quencher for preserving redox-labile disinfection byproducts and for quantifying free chlorine and free bromine

Lau

Dias

Martin-Culet

et al. 2018

Environ. Sci.: Water Res. Technol.

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Keith P. Reber

Bond formations by intermolecular and intramolecular trappings of acylketenes and their applications in natural product synthesis

Reactivity of the Polyamide Membrane Monomer with Free Chlorine: Reaction Kinetics, Mechanisms, and the Role of Chloride

Aqueous Chlorination Kinetics of Cyclic Alkenes—Is HOCl the Only Chlorinating Agent that Matters?

A Rapid, Asymmetric Synthesis of the Decahydrofluorene Core of the Hirsutellones

1,3,5-Trimethoxybenzene (TMB) as a new quencher for preserving redox-labile disinfection byproducts and for quantifying free chlorine and free bromine

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