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Exploring the Photodynamics of a New 2D-MOF Composite: Nile Red@Al-ITQ-HB.


ABSTRACT: In this work, we unravel the photodynamics of Nile Red (NR) interacting with Al-ITQ-HB nanostructure, a new layer-type metal-organic framework (MOF) with potential catalytic and photonic applications. Steady-state spectroscopy reveals the presence of NR monomers and aggregates when interacting with the MOF structure. Time-resolved experiments provide emission lifetimes of the interacting monomers, H- and J-type aggregates. We observed contributions from two monomer populations having different environments. One monomer species emits from the local-excited state and another from a photoproduced charge-separated state resulting from an ultrafast intramolecular charge transfer (ICT). Femtosecond fluorescence experiments reveal that the ICT process occurs in ?1 ps. Fluorescence microscopy on single crystals and agglomerates of the composites shows a homogenous distribution of the dye lifetimes within the material. This study shows that the photobehavior of NR in Al-ITQ-HB MOF is dictated by its location within the material. The reported findings using a well-known polarity probe and a new two-dimensional MOF provide information on the microenvironment of this material, which may help for designing smart MOFs with potential applications in photonics and nanocatalysis.

SUBMITTER: Caballero-Mancebo E 

PROVIDER: S-EPMC6641383 | biostudies-literature | 2018 Feb

REPOSITORIES: biostudies-literature

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Exploring the Photodynamics of a New 2D-MOF Composite: Nile Red@Al-ITQ-HB.

Caballero-Mancebo Elena E   Cohen Boiko B   Moreno José María JM   Corma Avelino A   Díaz Urbano U   Douhal Abderrazzak A  

ACS omega 20180207 2


In this work, we unravel the photodynamics of Nile Red (NR) interacting with Al-ITQ-HB nanostructure, a new layer-type metal-organic framework (MOF) with potential catalytic and photonic applications. Steady-state spectroscopy reveals the presence of NR monomers and aggregates when interacting with the MOF structure. Time-resolved experiments provide emission lifetimes of the interacting monomers, H- and J-type aggregates. We observed contributions from two monomer populations having different e  ...[more]

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