Investigation of the hydrogen bonded host‧‧‧guest and guest‧‧‧guest interactions present in complexes of a polyaromatic wheel-and-axle host compound with dioxane, morpholine, piperidine and pyridine

Barton, Benita; Caira, Mino R.; Vorgers, Jarryd; Hosten, Eric C.

doi:10.1007/s10847-023-01210-4

J Incl Phenom Macrocycl Chem

2023

DOI: 10.1007/s10847-023-01210-4

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Investigation of the hydrogen bonded host‧‧‧guest and guest‧‧‧guest interactions present in complexes of a polyaromatic wheel-and-axle host compound with dioxane, morpholine, piperidine and pyridine

Benita Barton,

Mino R. Caira,

Jarryd Vorgers

et al.

Abstract: Abstract1,4-Bis(diphenylhydroxymethyl)benzene (H), a host compound possessing wheel-and-axle geometry, was found to possess host ability for dioxane (DIO), morpholine (MOR) and piperidine (PIP), forming inclusion compounds with each one with 1:2 host:guest ratios. This observation prompted an investigation of the host behaviour in mixtures of these guest compounds but where pyridine (PYR) was also considered (PYR was reported earlier to also form a 1:2 complex with H). In mixtures, H demonstrated significant a… Show more

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The selectivity behaviour of a TADDOL-derived host compound in selected heterocyclic guest solvents

Recchia,

Barton,

Hosten

2024

J Incl Phenom Macrocycl Chem

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TADDOL5 possesses the ability to form complexes with the heterocyclic guest species DIO, PYR, PIP and MOR, and 1:1 (PYR, PIP, MOR) and 2:1 (DIO) H:G inclusion compounds were isolated after host crystallization experiments from these solvents. Guest competition experiments revealed that PIP and MOR were preferred by TADDOL5, while PYR and DIO were less favoured; the selectivity of this host compound for these guests was thus demonstrated to be in the order PIP > MOR > PYR > DIO. SCXRD analyses explained this host preferential order: PIP experienced the shorter and more linear (host)O‒H···N(guest) hydrogen bond with TADDOL5, followed by MOR and PYR. DIO was also retained in the crystal of the complex by means of a hydrogen bond with TADDOL5 of the (host)O‒H···O(guest) type. Hirshfeld surface investigations did not provide further understanding for the host selectivity behaviour when crystallized from mixed guests, but the relative thermal stability of the complex with preferred PIP formed the most stable complex while the inclusion compound with DIO, least favoured, was characterised by the lowest stability. Graphical abstract

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The selectivity behaviour of a TADDOL-derived host compound in selected heterocyclic guest solvents

Recchia,

Barton,

Hosten

2024

J Incl Phenom Macrocycl Chem

View full text Add to dashboard Cite

show abstract

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Investigation of the hydrogen bonded host‧‧‧guest and guest‧‧‧guest interactions present in complexes of a polyaromatic wheel-and-axle host compound with dioxane, morpholine, piperidine and pyridine

Cited by 1 publication

References 14 publications

The selectivity behaviour of a TADDOL-derived host compound in selected heterocyclic guest solvents

The selectivity behaviour of a TADDOL-derived host compound in selected heterocyclic guest solvents

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