Portal de investigación
Purely Covalent Molecular Cages and Containers for Guest Encapsulation.
Fecha de publicación:
Fecha Ahead of Print:
Autores de IIS La Fe
Participantes ajenos a IIS La Fe
- Montà-González G
- Martí-Centelles V
Grupos
Abstract
Cage compounds offer unique binding pockets similar to enzyme-binding sites, which can be customized in terms of size, shape, and functional groups to point toward the cavity and many other parameters. Different synthetic strategies have been developed to create a toolkit of methods that allow preparing tailor-made organic cages for a number of distinct applications, such as gas separation, molecular recognition, molecular encapsulation, hosts for catalysis, etc. These examples show the versatility and high selectivity that can be achieved using cages, which is impossible by employing other molecular systems. This review explores the progress made in the field of fully organic molecular cages and containers by focusing on the properties of the cavity and their application to encapsulate guests.
Datos de la publicación
- ISSN/ISSNe:
- 0009-2665, 1520-6890
- Tipo:
- Review
- Páginas:
- 13636-13708
- PubMed:
- 35867555
- Factor de Impacto:
- 18,718 SCImago ℠
- Cuartil:
- Q1 SCImago ℠
Chemical reviews American Chemical Society
Citas Recibidas en Web of Science: 105
Documentos
- No hay documentos
Filiaciones
Keywords
- POROUS ORGANIC CAGE; BONDED SUPRAMOLECULAR CAPSULES; BENZENE CARBON NANOCAGES; BIS(CROWN ETHER) HOST; SYNTHETIC LECTINS; IMINE CAGES; ONE-POT; SELECTIVE SYNTHESIS; MAGNETIC-RESONANCE; BINDING-PROPERTIES
Cita
Montà G,Sancenón F,Martínez R,Martí V. Purely Covalent Molecular Cages and Containers for Guest Encapsulation. CHEM REV. 2022. 122(16):p. 13636-13708. IF:62,100. (1).