Sensing mechanism elucidation of a europium(III)metal-organicframework selective to aniline: A theoretical insight by means of multiconfigurational calculations

Hidalgo-Rosa, Yoan; Treto-Suarez, Manuel A.; Schott, Eduardo; Zarate, Ximena; Paez-Hernandez, Dayan

Abstract

A theoretical procedure, via quantum chemical computations, to elucidate the detection principle of the turn-off luminescence mechanism of an Eu-based Metal-Organic Framework sensor (Eu-MOF) selective to aniline, is accomplished. The energy transfer channels that take place in the Eu-MOF, as well as understanding the luminescence quenching by aniline, were investigated using the well-known and accurate multiconfigurational ab initio methods along with sTD-DFT. Based on multireference calculations, the sensitization pathway from the ligand (antenna) to the lanthanide was assessed in detail, that is, intersystem crossing (ISC) from the S(1)to the T(1)state of the ligand, with subsequent energy transfer to the(5)D(0)state of Eu3+. Finally, emission from the(5)D(0)state to the(7)F(J)state is clearly evidenced. Otherwise, the interaction of Eu-MOF with aniline produces a mixture of the electronic states of both systems, where molecular orbitals on aniline now appear in the active space. Consequently, a stabilization of the T(1)state of the antenna is observed, blocking the energy transfer to the(5)D(0)state of Eu3+, leading to a non-emissive deactivation. Finally, in this paper, it was demonstrated that the host-guest interactions, which are not taken frequently into account by previous reports, and the employment of high-level theoretical approaches are imperative to raise new concepts that explain the sensing mechanism associated to chemical sensors.

Más información

Título según WOS: ID WOS:000541170100001 Not found in local WOS DB
Título de la Revista: JOURNAL OF COMPUTATIONAL CHEMISTRY
Volumen: 41
Número: 22
Editorial: WILEY-BLACKWELL
Fecha de publicación: 2020
Página de inicio: 1956
Página final: 1963
DOI:

10.1002/jcc.26365

Notas: ISI