MOF-based colorimetric sensor for rapid and visual readout of trace acetylene

Hu, Jieying; chen, song; Liu, Zhiqing; Lǐ, Jiànróng; Huang, Jia-Hong; Jiang, Zhixin; Ou, Weihui; Liao, Wei‐Ming; Lü, Jian

doi:10.1039/d3ta00582h

J. Mater. Chem. A

2023

DOI: 10.1039/d3ta00582h

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MOF-based colorimetric sensor for rapid and visual readout of trace acetylene

Jieying Hu

song chen

Zhiqing Liu

et al.

Abstract: Amongst the rapidly growing metal-organic frameworks (MOFs)-based sensors, the colorimetric MOF sensor for visual test of analytes is highly desired but rarely reported. Here, we developed such a colorimetric sensor...

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2024

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Cited by 9 publications

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“…The role of [Cu 2 (6mna)(6mn) NH 4 ] n -NO 3 and PEDOT in I 3NO 3 electrode in this study provided its DSSC a higher J SC but a lower FF (TableS2†). This indicates that the presence of PEDOT in the previous FTO/PEDOT/[Cu 2 (6mna)(6mn)NH 4 ] n -NO 3 electrode would enhance the device FF by increasing lm conductivity, but decrease the J SC by lowering the intrinsic electro-catalytic ability.…”

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confidence: 65%

Bi-metallic [Cu/Co(6mna)₂]_n metal organic chalcogenolate frameworks as high-performance electro-catalysts for dye-sensitized solar cells: a ligand-assisted bottom-up synthesis

Lai,

Lee,

Jiang

et al. 2024

J. Mater. Chem. A

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confidence: 65%

Bi-metallic [Cu/Co(6mna)₂]_n metal organic chalcogenolate frameworks as high-performance electro-catalysts for dye-sensitized solar cells: a ligand-assisted bottom-up synthesis

Lai,

Lee,

Jiang

et al. 2024

J. Mater. Chem. A

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Metal‐Organic Framework Based Sensors for Benzene Vapor

Li,

Liang,

Chen

et al. 2024

Chemistry A European J

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Sensing of benzene vapor is a hot spot due to the volatile drastic carcinogen even at trace concentration. However, achieving convenient and rapid detection is still a challenge. As a sort of functional porous materials, metal‐organic frameworks (MOFs) have been developed as detection sensors by adsorbing benzene vapor and converting it into other signals (fluorescence intensity/wavelength, chemiresistive, weight or color, etc.). Supramolecular interaction between benzene molecules and the host framework, aperture size/shape and structural flexibility are influential factors in the performance of MOF‐based sensors. Therefore, enhancing the host‐guest interactions between the host framework and benzene molecules, or regulating the diffusion rate of benzene molecules by changing the aperture size/shape and flexibility of the host framework to enhance the detection signal are effective strategies for constructing MOF‐based sensors. This concept highlights several types of MOF‐based sensors for the detection of benzene vapor.

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MoS₂ Decorated on 1D MoS₂@Co/NC@CF Hierarchical Fibrous Membranes for Enhanced Microwave Absorption

Xing,

Cheng,

et al. 2024

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The design and development of high‐quality electromagnetic waves (EMW) absorbing materials play a vital role in combating the escalating negative effects of microwave radiation and interference. Herein, MoS2@Co/NC@CF fibrous membranes are successfully fabricated by electrospinning technology and carbonization, and a molybdenum disulfide (MoS2) layer is synthesized on the surface of these fibers via hydrothermal method. The seed‐assisted growth method not only effectively avoids the accumulation and improves the loading of ZIF‐67 particles, so as to ensure that the magnetic components in the fibers are evenly distributed in a wider range, rather than only intermittently present in some sites. Meanwhile, the introduction of semiconductor MoS2 as the shell further optimizes the impedance matching and improves the EMW absorption performance of the carbon fibrous membranes: the minimum reflection loss (RLmin) is −67.56 dB, and the maximum effective absorption bandwidth (EABmax) is further expanded to 6.56 GHz (2.1 mm, 11.44–18 GHz). This work provides a feasible method for developing high‐efficient EMW‐absorbing materials.

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MOF-based colorimetric sensor for rapid and visual readout of trace acetylene

Abstract: Amongst the rapidly growing metal-organic frameworks (MOFs)-based sensors, the colorimetric MOF sensor for visual test of analytes is highly desired but rarely reported. Here, we developed such a colorimetric sensor...

Cited by 9 publications

References 45 publications

Bi-metallic [Cu/Co(6mna)₂]_n metal organic chalcogenolate frameworks as high-performance electro-catalysts for dye-sensitized solar cells: a ligand-assisted bottom-up synthesis

Bi-metallic [Cu/Co(6mna)₂]_n metal organic chalcogenolate frameworks as high-performance electro-catalysts for dye-sensitized solar cells: a ligand-assisted bottom-up synthesis

Metal‐Organic Framework Based Sensors for Benzene Vapor

MoS₂ Decorated on 1D MoS₂@Co/NC@CF Hierarchical Fibrous Membranes for Enhanced Microwave Absorption

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MOF-based colorimetric sensor for rapid and visual readout of trace acetylene

Abstract: Amongst the rapidly growing metal-organic frameworks (MOFs)-based sensors, the colorimetric MOF sensor for visual test of analytes is highly desired but rarely reported. Here, we developed such a colorimetric sensor...

Cited by 9 publications

References 45 publications

Bi-metallic [Cu/Co(6mna)2]n metal organic chalcogenolate frameworks as high-performance electro-catalysts for dye-sensitized solar cells: a ligand-assisted bottom-up synthesis

Bi-metallic [Cu/Co(6mna)2]n metal organic chalcogenolate frameworks as high-performance electro-catalysts for dye-sensitized solar cells: a ligand-assisted bottom-up synthesis

Metal‐Organic Framework Based Sensors for Benzene Vapor

MoS2 Decorated on 1D MoS2@Co/NC@CF Hierarchical Fibrous Membranes for Enhanced Microwave Absorption

Contact Info

Product

Resources

About

Bi-metallic [Cu/Co(6mna)₂]_n metal organic chalcogenolate frameworks as high-performance electro-catalysts for dye-sensitized solar cells: a ligand-assisted bottom-up synthesis

Bi-metallic [Cu/Co(6mna)₂]_n metal organic chalcogenolate frameworks as high-performance electro-catalysts for dye-sensitized solar cells: a ligand-assisted bottom-up synthesis

MoS₂ Decorated on 1D MoS₂@Co/NC@CF Hierarchical Fibrous Membranes for Enhanced Microwave Absorption