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Literature DB >> 31418497

Tight Xenon Confinement in a Crystalline Sandwich-like Hydrogen-Bonded Dimeric Capsule of a Cyclic Peptide.

Andrea Pizzi¹, Haxel Lionel Ozores², Martín Calvelo², Rebeca García-Fandiño², Manuel Amorín², Nicola Demitri³, Giancarlo Terraneo¹, Silvia Bracco⁴, Angiolina Comotti⁴, Piero Sozzani⁴, Charl X Bezuidenhout⁴, Pierangelo Metrangolo¹, Juan R Granja².

Abstract

A cyclic hexapeptide with three pyridyl moieties connected to its backbone forms a hydrogen-bonded dimer, which tightly encapsulates a single xenon atom, like a pearl in its shell. The dimer imprints its shape and symmetry to the captured xenon atom, as demonstrated by 129 Xe NMR spectroscopy, single-crystal X-ray diffraction, and computational studies. The dimers self-assemble hierarchically into tubular structures to form a porous supramolecular architecture, whose cavities are filled by small molecules and gases.

Entities: Chemical

Keywords: cyclic peptides; gas confinement; host--guest systems; self-assembly; xenon

Year: 2019 PMID： 31418497 DOI： 10.1002/anie.201906599

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

3 in total

Tight Xenon Confinement in a Crystalline Sandwich-like Hydrogen-Bonded Dimeric Capsule of a Cyclic Peptide.

Review 1. Molecular Self-Assembly and Supramolecular Chemistry of Cyclic Peptides.

2. Reversible Encapsulation of Xenon and CH₂ Cl₂ in a Solid-State Molecular Organometallic Framework (Guest@SMOM).

3. Xenon binding by a tight yet adaptive chiral soft capsule.

Tight Xenon Confinement in a Crystalline Sandwich-like Hydrogen-Bonded Dimeric Capsule of a Cyclic Peptide.

Review 1. Molecular Self-Assembly and Supramolecular Chemistry of Cyclic Peptides.

2. Reversible Encapsulation of Xenon and CH2 Cl2 in a Solid-State Molecular Organometallic Framework (Guest@SMOM).

3. Xenon binding by a tight yet adaptive chiral soft capsule.

2. Reversible Encapsulation of Xenon and CH₂ Cl₂ in a Solid-State Molecular Organometallic Framework (Guest@SMOM).