A covalent organic framework based on BOPHY/TiO2 hybrid photocatalysts for solar driven hydrogen production†
a
Teresa
Naranjo,
*a
Miguel
Gomez-Mendoza,
a
Alejandro
Herrero Pizarro,
a
Laura
Collado,
a
Mariam
Barawi,
a
Felipe
Gándara,
b
Marta
Liras
*a
and
Víctor A.
de la Peña O'Shea
*a
Abstract
The conversion of sunlight into chemical energy to produce solar hydrogen opens the door to one promising solution towards a sustainable alternative in the current energy crisis. Herein, we describe the successful synthesis of the first COF based on BOPHY dye (IEC-2) ever reported in the literature. Its β-ketoenamine linkage confers outstanding chemical stability for light-driven applications. The hybrid photocatalyst based on IEC-2 and TiO2 (10 wt% of COF loading) was studied for solar hydrogen evolution at both the lab-scale, and semi-pilot plant scale under natural sunlight. IEC-2@T-10 achieved a hydrogen production of 180.9 μmol g−1 under 6 h solar illumination, which increased by 36% with respect to that of benchmark TiO2. The high performance of IEC-2@T-10 results in a greater photonic efficiency than that of TiO2 (0.12% and 0.08%, respectively), highlighting the robustness of the BOPHY COF for light-mediated reactions.
- This article is part of the themed collection: Functional Framework Materials
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