Beyond the Conventional Limitation of Photocycloaddition Reaction in the Roomy Nanospace of a Metal–Organic Framework

Nakagawa, Misaki; Kusaka, Shinpei; Kiyose, Atsushi; Nakajo, Toshinobu; Iguchi, Hiroaki; Mizuno, Motohiro; Matsuda, Ryotaro

doi:10.1021/jacs.3c01225

Cited by 20 publications

(13 citation statements)

References 44 publications

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“…13 On this basis, other photopolymerization-driven polyvinyl alcohol composite film and stilbene-based Zn 2 ðsdcÞ 2 (sdc =4,4′-stilbenedicarboxylate) MOF film have also been reported by Lang and Gu and others. [89][90][91] As aforementioned, stimuli-responsive fluorescent MOFs have broad application prospects in security protection fields, such as information encryption and anticounterfeiting displays, mainly due to their ability to successfully prevent information or data from being stolen, mimicked, or forged. 92,93 Among them, the biggest advantage of light-responsive MOFs is that their chemical and structural changes can be regulated through light stimulation, providing an alternative way for constructing MOFs with switchable optical absorption and fluorescence properties.…”

Section: Benefits Of Stimuli-responsive Photonic Mofsmentioning

confidence: 99%

Dynamically responsive photonic metal–organic frameworks

Zheng,

Zhang,

Cui

et al. 2023

Adv. Photon.

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Different from single and static photonic materials, dynamically responsive materials possess numerous advantages, such as being multifunctional, dynamically responsive, and able to provide multiple channels within spatially limited platforms, thus exhibiting great potential for application in the color-on-demand areas, including imaging, optical displays, anticounterfeiting, and encoding. Photonic functional metal-organic frameworks (MOFs), with highly designable framework structures and varieties of optical functional building units, possess broad research and application prospects in the field of photonics, which make it possible to design a promising platform with multifunctional and integrated photonic performance. In this review, beyond the preparation strategies of stimuli-responsive photonic MOFs, we also summarize the stimuli-responsive photonic MOFs regarding several most representative types of external stimuli (such as light, gas, pressure, and polarization). As shown, external stimulation endows the stimuli-responsive photonic MOFs with intriguing regulatable photonic properties: intensive and tunable emission, multiphoton-excitable luminescence, nonlinear optical, circularly polarized luminescence, lasing, etc. Furthermore, their advanced representative applications, such as information encryption and anticounterfeiting display, biological imaging, chemosensing, and others, are also reviewed. The challenges are proposed and the prospects are addressed.

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Section: Benefits Of Stimuli-responsive Photonic Mofsmentioning

confidence: 99%

Dynamically responsive photonic metal–organic frameworks

Zheng,

Zhang,

Cui

et al. 2023

Adv. Photon.

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“…Comparing the two structures before and after the [2 + 2] photocycloaddition reaction, the students should observe the formation of the cyclobutane derived from pairs of CC bonds (Figure ). It is important to engage students in the discussion of the potential reason for the cyclobutane formation of the CC bonds, which may be due to the fact that the pedal motion in the crystal structure brings the CC bonds of adjacent 4-npy ligands parallel to each other so that a photochemical [2 + 2] cycloaddition can occur. − …”

Section: Description Of the Experimentsmentioning

confidence: 99%

Synthesis, Structural Characterization, and Photochemical [2 + 2] Cycloaddition of a Coordination Polymer: Multiweek Inorganic–Organic Chemistry Experiments

Hong,

Wang,

et al. 2023

J. Chem. Educ.

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The [2 + 2] photocycloaddition reaction of olefins is an effective, atom-economical approach to produce cyclobutane compounds in organic synthetic chemistry, and they usually exhibit high regioselectivity and stereoselectivity. Here we devised a solid-state [2 + 2] photocycloaddition experiment that introduces senior undergraduate students with the principles of coordination chemistry, organic chemistry, structural chemistry, and supramolecular chemistry, which have been widely used in material chemistry, catalysis, nanotechnology, and other fields. The experiment employs coordination interactions that act as templates to directing the [2 + 2] photocycloaddition reaction. A photoreactive coordination polymer [Zn(oba)(4-npy)] 2 •(4-npy) 0.25 (1, 4-npy = (E)-4-(2-(naphthalen-1-yl)vinyl)pyridine, H 2 oba = 4,4′-oxidibenzoic acid) is solvothermally prepared and undergoes a [2 + 2] photocycloaddition reaction, affording the new compound [Zn 2 (oba) 2 (HTpncb)](4-npy) 0.25 (1a, HT-pncb = rctt−1,3-bis(4-pyridyl)-2,4-bis(1-naphthyl)cyclobutane; HT = head-to-tail) upon UV light illumination. The experiments will strengthen the students' experimental skills while the diverse characterization experiments will allow them to experience the contribution of each method and their complementarity in monitoring the structural changes that occur upon photoreaction. This comprehensive project will help students broaden the research horizon, cultivate research skills, follow strict scientific procedures, and promote rigorous thinking in a laboratory course.

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“…Olefinic coordination polymers (CPs) have received extensive attention due to their intriguing photochemical reactivity − and their potential applications in fluorescence, − molecular/ion sensing, − gas adsorption, , magnetism, − molecular switch − and so on. By means of coordination-bond templates, a large number of mono/di/tri/tetra-olefinic CPs with different topological structures have been constructed and researched for [2 + 2] photocycloaddition reactions to date.…”

Section: Introductionmentioning

confidence: 99%

“…53 However, not all of these CPs can favorably S2). Upon exposure to the visible light (495 nm) within or above 48 h (Table S2), 1 H NMR spectra revealed that these photoreactive CPs got dimerized into the cyclobutane photoproducts with different conversion ratios of 48% (1, Figure S19), 32.4% (2, Figure S21), 87.5% (5, Figure S23), and 45.6% (6, Figure S25). There were different conversions into monocyclobutane products for these four CPs due to structural differences.…”

Section: ■ Introductionmentioning

confidence: 99%

Regulation of Crystal Structures and Solid-State Photoreactivity of Diolefin Coordination Polymers by Carboxylate Ligands

Zhang,

Wang,

et al. 2023

Inorg. Chem.

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Olefinic coordination polymers (CPs) have recently drawn more attention, owing to the many possibilities in conformational conversions and photochemical reactivity that olefin molecules offer. In the presence of different carboxylic acids, we utilize one diolefin ligand 4,4′-((1E,1′E)-(2,5-dimethoxyl-1,4-phenylene)bis(ethene-2,1-diyl))dipyridine (OCH3-bpeb) and Cd(II) to assemble six different crystalline CPs (1–6). By fine-tuning the substituent size, carboxyl group number, and geometrical configuration of carboxylate ligands, these diolefin CPs show quite different crystal architecture models, from one-dimensional intersecting stacking to one-dimensional parallel stacking to three-dimensional interpenetrated structure. Of these, four kinds of CPs (1, 2, 5, and 6) are demonstrated to be photoreactive for [2 + 2] cycloaddition reactions, as confirmed by proton nuclear magnetic resonance and single-crystal X-ray diffraction. Both 2 and 5 can be dimerized into different cyclobutane products in a single-crystal-to-single-crystal manner under visible light, and remarkably, the photocycloaddition reaction of 5 involves a rare phase transition with structural symmetry enhancement from P 1̅ to P2/n. This work demonstrates the power of carboxylate ligands in tuning single crystal structures and photocycloaddition reactions of CPs, which provides important references for the further exploration of other physicochemical properties of functionalized olefin-containing complexes.

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Beyond the Conventional Limitation of Photocycloaddition Reaction in the Roomy Nanospace of a Metal–Organic Framework

Cited by 20 publications

References 44 publications

Dynamically responsive photonic metal–organic frameworks

Dynamically responsive photonic metal–organic frameworks

Synthesis, Structural Characterization, and Photochemical [2 + 2] Cycloaddition of a Coordination Polymer: Multiweek Inorganic–Organic Chemistry Experiments

Regulation of Crystal Structures and Solid-State Photoreactivity of Diolefin Coordination Polymers by Carboxylate Ligands

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