Litcius/Paper detail

Isoreticular Expansion and Linker-Enabled Control of Interpenetration in Titanium–Organic Frameworks

Natalia M. Padial, Clara Chinchilla‐Garzón, Neyvis Almora‐Barrios, Javier Castells‐Gil, Javier González‐Platas, Sergio Tatay, Carlos Martí‐Gastaldo

2023Journal of the American Chemical Society27 citationsDOIOpen Access PDF

Abstract

Titanium–organic frameworks offer distinctive opportunities in the realm of metal–organic frameworks (MOFs) due to the integration of intrinsic photoactivity or redox versatility in porous architectures with ultrahigh stability. Unfortunately, the high polarizing power of Ti 4+ cations makes them prone to hydrolysis, thus preventing the systematic design of these types of frameworks. We illustrate the use of heterobimetallic cluster Ti 2 Ca 2 as a persistent building unit compatible with the isoreticular design of titanium frameworks. The MUV-12(X) and MUV-12(Y) series can be all synthesized as single crystals by using linkers of varying functionalization and size for the formation of the nets with tailorable porosity and degree of interpenetration. Following the generalization of this approach, we also gain rational control over interpenetration in these nets by designing linkers with varying degrees of steric hindrance to eliminate stacking interactions and access the highest gravimetric surface area reported for titanium(IV) MOFs (3000 m 2 g –1 ).

Topics & Concepts

ChemistryMetal-organic frameworkLinkerPorosityTitaniumNanotechnologyRealmRedoxOrganic chemistryLawMaterials sciencePolitical scienceOperating systemAdsorptionComputer scienceMetal-Organic Frameworks: Synthesis and ApplicationsCovalent Organic Framework ApplicationsNanoplatforms for cancer theranostics