Expanding the horizons of porphyrin metal–organic frameworks <i>via</i> catecholate coordination: exploring structural diversity, material stability and redox properties

De, Siddhartha; Mouchaham, Georges; Liu, Fangbing; Affram, Maame; Abeykoon, Brian; Guillou, Nathalie; Jeanneau, Erwann; Grenèche, Jean-Marc; Khrouz, Lhoussain; Martineau-Corcos, Charlotte; Boudjema, Lotfi; Salles, Fabrice; Salcedo-Abraira, Pablo; Valente, Gonçalo; Souto, Manuel; Fateeva, Alexandra; Devic, Thomas

doi:10.1039/d3ta04490d

J. Mater. Chem. A

2023

DOI: 10.1039/d3ta04490d

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Expanding the horizons of porphyrin metal–organic frameworks via catecholate coordination: exploring structural diversity, material stability and redox properties

Siddhartha De,

Georges Mouchaham,

Fangbing Liu

et al.

Abstract: Three novel MOF phases based on catecholate porphyrin and M(iii) cations are isolated. Their properties are elucidated through comprehensive structural and physical analyses, and a high surface area and reversible redox activity are evidenced.

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2024

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Synthesis of Stable 2D Conductive Lanthanide Organic Frameworks (Lu‐HHTP) for High‐Performance Humidity Sensors

Jiang,

Mo,

Zhao

et al. 2024

Analysis & Sensing

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Two‐dimensional conductive metal‐organic frameworks (MOFs) featuring structural diversity and high porosity represent promising platforms for chemiresistive humidity sensing. The precise control of the structure of lanthanide‐based MOFs and an exploration of its impact on charge transport and sensing applications have consistently been focal points for researchers. In this study, we present the synthesis and characterization of Lu‐HHTP (HHTP = 2,3,6,7,10,11‐hexahydroxytriphenylene) as highly crystalline and conductive porous materials. The polymeric framework of Lu‐HHTP encompasses 1D hexagonal channels and exhibits interlayer π‐π stacking, resulting in a material with a high surface area and uniform rod‐like microstructure. Benefiting from its elevated electrical conductivity, the Lu‐HHTP‐based humidity sensor exhibited commendable sensing properties within the relative humidity range of 33% to 95% at room temperature (25°C), achieving a response value as high as 19 at 95% relative humidity. Furthermore, the sensor displayed superior repeatability, characterized by rapid response and recovery speeds in the presence of moisture. These findings indicate that Lu‐HHTP holds substantial promise as a material for humidity sensors.

show abstract

Synthesis of Stable 2D Conductive Lanthanide Organic Frameworks (Lu‐HHTP) for High‐Performance Humidity Sensors

Jiang,

Mo,

Zhao

et al. 2024

Analysis & Sensing

View full text Add to dashboard Cite

show abstract

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Expanding the horizons of porphyrin metal–organic frameworks via catecholate coordination: exploring structural diversity, material stability and redox properties

Abstract: Three novel MOF phases based on catecholate porphyrin and M(iii) cations are isolated. Their properties are elucidated through comprehensive structural and physical analyses, and a high surface area and reversible redox activity are evidenced.

Cited by 1 publication

References 120 publications

Synthesis of Stable 2D Conductive Lanthanide Organic Frameworks (Lu‐HHTP) for High‐Performance Humidity Sensors

Synthesis of Stable 2D Conductive Lanthanide Organic Frameworks (Lu‐HHTP) for High‐Performance Humidity Sensors

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