Light-Induced Color Switching of Single Metal–Organic Framework Nanocrystals

Kenzhebayeva, Yuliya; Bachinin, Semyon; Solomonov, A. I.; Gilemkhanova, Venera; Шипиловских, С. А.; Kulachenkov, Nikita K.; Фисенко, С. П.; Rybin, Mikhail V.; Milichko, Valentin A.

doi:10.1021/acs.jpclett.1c03630

Cited by 11 publications

(6 citation statements)

References 47 publications

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“…The former occurs for 1 s, with a laser intensity of tens of µW cm −2 (see below), due to laser-induced heating followed by the release of water molecules, as we described recently [26]. This process is characterized by a change in the compound refractive index and absorption coefficient [32], and also requires relatively low laser intensities to be initiated. What is important is that the reversible interference patterning does not have an effect on the inner structure of the MOF; hence, the thin film returns to its initial state after turning off the laser.…”

Section: Resultsmentioning

confidence: 92%

Reversible and Irreversible Laser Interference Patterning of MOF Thin Films

et al. 2022

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Laser interference patterning on top of a thin film and inside a crystal is a powerful tool today to create the desired patterns for optical data processing. Here, we demonstrate reversible and irreversible laser interference patterning on a metal-organic framework (MOF) thin film through the water desorption and thermal decomposition processes, respectively. The irreversible interference pattern with a period of the strips of up to 5 µm has been realized, and its morphology has been characterized using confocal Raman and reflection spectroscopy as well as atomic force microscopy. We revealed that reducing the distance between the interference maxima from 10.5 to a record of 5 µm for MOFs yields a 10-fold increase in the surface roughness of the irreversible pattern; on the other hand, the reversible laser pattern provides a completely non-destructive effect of variable optical contrast. The experimental results obtained open up prospects for the use of MOF crystals as photosensitive materials in the template drawing of the desired patterns for different application scopes.

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Section: Resultsmentioning

confidence: 92%

Reversible and Irreversible Laser Interference Patterning of MOF Thin Films

et al. 2022

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“…Different functionality, adjustable porosity, mechanical strength and thermal stability can be imparted to the framework by changing its constituent parts [22]. Due to these properties MOF appear as promising materials that can be used for the adsorption/storage and separation of gases, in catalysis, biomedicine, and also for the creation of sensor devices [23][24][25][26]. Of particular interest is the further modification of the structure of MOFs, including their intracrystalline space, to create new properties or optimize existing structural/chemical characteristics [27,28].…”

Section: Introductionmentioning

confidence: 99%

Synthesis and characterization of ZnBTC-based MOFs: effect of solvents and salt

Timofeeva

Yankin

2022

Chim.Tech.Acta

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In this work, we studied the optimization of synthetic approaches to creating structurally modified metal-organic frameworks under various synthesis conditions. We investigated the influence of the various solvents and zinc salts on the structural characteristics of the metal-organic framework based on benzene-1,3,5-tricarboxylic acid (H3BTC). The results indicate that the variation of the types of both solvent and salt is a parameter affecting the crystallinity, phase purity, and morphology of the metal-organic framework. This was confirmed by comprehensive structural characterization (SEM, EDX, PXRD).

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“…S16a †), excited with a linearly p-polarized white light at an angle of 65°to the pole axis of the NP. 47 Then, we integrated the scattering light in a 0.7π solid angle corresponding to a 0.42 numerical aperture of the objective (see the ESI †). We also proposed that cubic domains of Au and Fe of 10 nm size formed upon heating, followed by domain wall growth, leading to more pronounced separation of Fe and Au.…”

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confidence: 99%