Anthony I. Day scite author profile

The acid-catalyzed synthesis of cucurbit[n]urils from formaldehyde and glycoluril is poorly understood. In this paper, we examine a wide range of reaction conditions that include the effects of acid type, acid concentration, reactant concentrations, and temperature to both probe the mechanism and optimize the yields of isolated cucurbit[n]urils, where n = 5-10. A mechanism for the formation of these cucurbit[n]urils is presented. Individual cucurbit[n]urils were unambiguously identified in reaction mixtures using ESMS and (13)C NMR.

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A Cucurbituril-Based Gyroscane: A New Supramolecular Form

Day¹,

Blanch²,

Arnold³

et al. 2002

Angew. Chem.

241

601

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Konzentrische rotierende und präzedierende Makrocyclen: Einer Kristallstrukturanalyse des Einschlusskomplexes von Cucurbit[5]uril in Cucurbit[10]uril zufolge sind die beiden Makrocyclen konzentrisch, aber nicht koaxial, und ganz im Innern befindet sich ein Chloridion (siehe Bild). Beide Ringe bewegen sich in Lösung relativ zueinander, wie NMR‐spektroskopisch gezeigt wurde. Die Rotation und Präzession des inneren Rings im äußeren lässt das Bild eines „molekularen Gyroskops“ zu.

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Toxicity of cucurbit[7]uril and cucurbit[8]uril: an exploratory in vitro and in vivo study

et al. 2010

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Cucurbit[n]urils (CB[n]) are potential stabilizing, solubilizing, activating, and delivering agents for drugs. The toxicity of the macrocyclic host molecules cucurbit[7]uril (CB[7]), the most water-soluble homologue, as well as cucurbit[8]uril (CB[8]) has been evaluated. In vitro studies on cell cultures revealed an IC(50) value of 0.53 +/- 0.02 mM for CB[7], corresponding to around 620 mg of CB[7] per kg of cell material. Live-cell imaging studies performed on cells treated with subtoxic amounts of CB[7] showed no detrimental effects on the cellular integrity as assessed by mitochondrial activity. For CB[8], no significant cytotoxicity was observed within its solubility range. The bioadaptability of the compounds was further examined through in vivo studies on mice, where intravenous administration of CB[7] showed a maximum tolerated dosage of 250 mg kg(-1), while oral administration of a CB[7]/CB[8] mixture showed a tolerance of up to 600 mg kg(-1). The combined results indicate a sufficiently low toxicity to encourage further exploration of CB[n] as additives for medicinal and pharmaceutical use.

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A Method for Synthesizing Partially Substituted Cucurbit[n]uril

2003

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A novel approach to cucurbituril synthesis is described where partial substitution is introduced into cucurbit[n]uril. The identification of homologues (and their substitution) in reaction mixtures is achieved by a combination of ESMS and the use of the molecular probes (guests) 1,4-dioxane and 1,9-octanediamine. A unique symmetrical hexamethylcucurbit[3,3]uril, the major product, was isolated and characterized.

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Anthony I. Day

Controlling Factors in the Synthesis of Cucurbituril and Its Homologues

A Cucurbituril-Based Gyroscane: A New Supramolecular Form

Toxicity of cucurbit[7]uril and cucurbit[8]uril: an exploratory in vitro and in vivo study

A Method for Synthesizing Partially Substituted Cucurbit[n]uril

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