Chemical Engineering of Photoactivity in Heterometallic Titanium–Organic Frameworks by Metal Doping

Javier Castells-Gil; Natalia M. Padial; Neyvis Almora-Barrios; Josep Albero; A. Rabdel Ruiz-Salvador; Javier González-Platas; Hermenegildo García; Carlos Martí-Gastaldo

doi:10.1002/anie.201802089

Chemical Engineering of Photoactivity in Heterometallic Titanium–Organic Frameworks by Metal Doping

Javier Castells-Gil
, Natalia M. Padial
, Neyvis Almora-Barrios
, Josep Albero
, A. Rabdel Ruiz-Salvador
, Javier González-Platas
, Hermenegildo García
, Carlos Martí-Gastaldo^*

^*Corresponding author for this work

Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

We report a new family of titanium–organic frameworks that enlarges the limited number of crystalline, porous materials available for this metal. They are chemically robust and can be prepared as single crystals at multi-gram scale from multiple precursors. Their heterometallic structure enables engineering of their photoactivity by metal doping rather than by linker functionalization. Compared to other methodologies based on the post-synthetic metallation of MOFs, our approach is well-fitted for controlling the positioning of dopants at an atomic level to gain more precise control over the band-gap and electronic properties of the porous solid. Changes in the band-gap are also rationalized with computational modelling and experimentally confirmed by photocatalytic H₂ production.

Original language	English
Pages (from-to)	8453-8457
Number of pages	5
Journal	Angewandte Chemie - International Edition
Volume	57
Issue number	28
DOIs	https://doi.org/10.1002/anie.201802089
Publication status	Published - 9 Jul 2018

Bibliographical note

Publisher Copyright:
© 2018 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim

Keywords

band-gap engineering
metal doping
metal–organic frameworks
photocatalysis
titanium

ASJC Scopus subject areas

Catalysis
General Chemistry

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10.1002/anie.201802089

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abstract = "We report a new family of titanium–organic frameworks that enlarges the limited number of crystalline, porous materials available for this metal. They are chemically robust and can be prepared as single crystals at multi-gram scale from multiple precursors. Their heterometallic structure enables engineering of their photoactivity by metal doping rather than by linker functionalization. Compared to other methodologies based on the post-synthetic metallation of MOFs, our approach is well-fitted for controlling the positioning of dopants at an atomic level to gain more precise control over the band-gap and electronic properties of the porous solid. Changes in the band-gap are also rationalized with computational modelling and experimentally confirmed by photocatalytic H2 production.",

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doi = "10.1002/anie.201802089",

language = "English",

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AU - Castells-Gil, Javier

AU - Padial, Natalia M.

AU - Almora-Barrios, Neyvis

AU - Albero, Josep

AU - Ruiz-Salvador, A. Rabdel

AU - González-Platas, Javier

AU - García, Hermenegildo

AU - Martí-Gastaldo, Carlos

PY - 2018/7/9

Y1 - 2018/7/9

N2 - We report a new family of titanium–organic frameworks that enlarges the limited number of crystalline, porous materials available for this metal. They are chemically robust and can be prepared as single crystals at multi-gram scale from multiple precursors. Their heterometallic structure enables engineering of their photoactivity by metal doping rather than by linker functionalization. Compared to other methodologies based on the post-synthetic metallation of MOFs, our approach is well-fitted for controlling the positioning of dopants at an atomic level to gain more precise control over the band-gap and electronic properties of the porous solid. Changes in the band-gap are also rationalized with computational modelling and experimentally confirmed by photocatalytic H2 production.

AB - We report a new family of titanium–organic frameworks that enlarges the limited number of crystalline, porous materials available for this metal. They are chemically robust and can be prepared as single crystals at multi-gram scale from multiple precursors. Their heterometallic structure enables engineering of their photoactivity by metal doping rather than by linker functionalization. Compared to other methodologies based on the post-synthetic metallation of MOFs, our approach is well-fitted for controlling the positioning of dopants at an atomic level to gain more precise control over the band-gap and electronic properties of the porous solid. Changes in the band-gap are also rationalized with computational modelling and experimentally confirmed by photocatalytic H2 production.

KW - band-gap engineering

KW - metal doping

KW - metal–organic frameworks

KW - photocatalysis

KW - titanium

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Chemical Engineering of Photoactivity in Heterometallic Titanium–Organic Frameworks by Metal Doping

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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