Photoinduced Phase Transition of Ce-UiO-66 to Ce-BDC-OH

Guo, Zhixiong; Luo, Qian‐Cheng; Qin, Lei; Tian, Zhimin; Zheng, Yan‐Zhen; Ma, Yuanyuan; Qu, Yongquan

doi:10.1021/acs.inorgchem.2c00784

Cited by 7 publications

(9 citation statements)

References 36 publications

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“…In contrast with UiO-66(Ce), the absorption peaks at 1243 and 962 cm –1 newly appeared on M-UiO-66(Ce). They belonged to the ν(C–OH) stretching vibration band and the σ(O–H) bending vibration band, respectively, indicating that the −OH functional group formed on M-UiO-66(Ce) . In addition, the peak at 1648 cm –1 assigned to the ν(CO) stretching vibration band of N , N -dimethylformamide (DMF) was significantly weakened, possibly caused by desolvation of the DMF molecules remaining in the pore channel .…”

Section: Resultsmentioning

confidence: 99%

“…They belonged to the ν(C−OH) stretching vibration band and the σ(O−H) bending vibration band, respectively, indicating that the −OH functional group formed on M-UiO-66(Ce). 24 In addition, the peak at 1648 cm −1 assigned to the ν(C�O) stretching vibration band of N,Ndimethylformamide (DMF) was significantly weakened, possibly caused by desolvation of the DMF molecules remaining in the pore channel. 21 Due to this decrease of the remaining DMF in the pore channel of M-UiO-66(Ce), less weight loss of M-UiO-66(Ce) during 200−280 °C than that of UiO-66(Ce) can be observed (Figure S3).…”

Section: Characterization Of M-uio-66(ce)mentioning

confidence: 99%

“…The decreased grain size, specific surface area, and pore volume of M-UiO-66(Ce) might be attributed to the increased crystal defects or some collapse of the structure. 24,25 This difference between M-UiO-66(Ce) and UiO-66(Ce) was probably caused by the transformation from Ce 4+ to Ce 3+ during conversion from UiO-66(Ce) to M-UiO-66(Ce). 24 X-ray photoelectron spectroscopy (XPS) analysis (Figure S2) verified this transformation, and the Ce 3d highresolution XPS results showed a higher content of Ce 4+ /Ce 3+ in UiO-66(Ce) (1.74) than in M-UiO-66(Ce) (1.28) (Figure 2b).…”

Section: Characterization Of M-uio-66(ce)mentioning

confidence: 99%

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Concentration- and Self-Catalysis-Dominated Rapid Synthesis of Multifunctional UiO-66(Ce) for Dual-Mode Sensing of Tetracycline

Shi,

Pu,

et al. 2023

Inorg. Chem.

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Simple and rapid synthesis of multifunctional metal–organic frameworks (MOFs) at room temperature (RT) with their multifunction controllable is still appealing for further expansion of the practical applications of MOFs. Herein, in this work, rapid RT synthesis of a multifunctional UiO-66(Ce) [M-UiO-66(Ce)] with both oxidase-like activity and fluorescence emission properties was facilely achieved within 15 min through a straightforward reactant concentration modulation and self-catalytic postmodification strategy. Appropriate concentrations of cerium ammonium nitrate or 1,4-benzenedicarboxylic acid (BDC) were beneficial for the synthesis of UiO-66(Ce) with better crystallization. During the postmodification process, through regulation of the self-photocatalysis of UiO-66(Ce), a high conversion rate from BDC to BDC-OH of up to 14% can be obtained, resulting in a significantly enhanced fluorescence signal of M-UiO-66(Ce) within 2 min. Moreover, M-UiO-66(Ce) enabled the accurate and reliable detection of tetracycline (TC) in real samples. Besides, the colorimetric and fluorescence modes complemented each other, expanding the linear range of TC detection and exhibiting its great potential for practical applications. This work provides new insights for the convenient and rapid synthesis of multifunctional materials based on MOFs, which is favorable for promoting the large-scale preparation of MOFs and their practical application in on-site environmental pollutant sensing.

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Section: Resultsmentioning

confidence: 99%

Section: Characterization Of M-uio-66(ce)mentioning

confidence: 99%

Section: Characterization Of M-uio-66(ce)mentioning

confidence: 99%

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Concentration- and Self-Catalysis-Dominated Rapid Synthesis of Multifunctional UiO-66(Ce) for Dual-Mode Sensing of Tetracycline

Shi,

Pu,

et al. 2023

Inorg. Chem.

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“…A popular organic linker used in MOFs is terephthalic acid (BDC), ,,,,, with various functionalized BDC derivatives used as linkers in UiO-66 and MOF-74 structures. ,,− Functionalization of BDC has allowed UiO-66 to be incorporated in a porous liquid and to allow for secondary reactions between the linker and molecules inside the MOF pores. For instance, UiO-66 with mixed BDC-NH 2 and BDC-NO 2 functionalized linkers increased extraction of environmental pollutants by 60% .…”

Section: Introductionmentioning

confidence: 99%

Effect of Linker Structure and Functionalization on Secondary Gas Formation in Metal–Organic Frameworks

2023

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Rare-earth terephthalic acid (BDC)-based metal−organic frameworks (MOFs) are promising candidate materials for acid gas separation and adsorption from flue gas streams. However, previous simulations have shown that acid gases (H 2 O, NO 2 , and SO 2 ) react with the hydroxyl on the BDC linkers to form protonated acid gases as a potential degradation mechanism. Herein, gas-phase computational approaches were used to identify the formation energies of these secondary protonated acid gases across multiple BDC linker molecules. Formation energies for secondary protonated acid gases were evaluated using both density functional theory (DFT) and correlated wave function methods for varying BDC−gas reaction mechanisms. Upon validation of DFT to reproduce wave function calculation results, rotated conformational linkers and chemically functionalized BDC linkers with −OH, −NH 2 , and −SH were investigated. The calculations show that the rotational conformation affects the molecule stability. Double-functionalized BDC linkers, where two functional groups are substituted onto BDC, showed varied reaction energies depending on whether the functional groups donate or withdraw electrons from the aromatic system. Based on these results, BDC linker design must balance adsorption performance with degradation via linker dehydrogenation for the design of stable MOFs for acid gas separations.

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“…It is ubiquitous in nature and useful in our daily life; commonly encountered examples include ice melting upon heating and supercritical fluid extraction. [1][2][3][4] One of the most frequently studied branches is crystal-to-crystal transition, which involves the phase transition of crystalline materials. [5][6][7][8][9] Metal-organic frameworks (MOFs), as a class of crystalline polymers composed of organic linkers and metal nodes, have captured the interest of researchers owing to their large specific surface area, rich functionality, tunable porosity and found applications in various areas, such as heterogeneous catalysis, [10][11][12][13][14][15] sensing, [16][17][18][19][20] gas separation, [21][22][23][24] and drug delivery.…”

mentioning

confidence: 99%

Elucidating phase transformation of Eu-based metal organic framework with intermediate isolation and theoretical calculations

Liu

Zhong

et al. 2023

CrystEngComm

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Photoinduced Phase Transition of Ce-UiO-66 to Ce-BDC-OH

Cited by 7 publications

References 36 publications

Concentration- and Self-Catalysis-Dominated Rapid Synthesis of Multifunctional UiO-66(Ce) for Dual-Mode Sensing of Tetracycline

Concentration- and Self-Catalysis-Dominated Rapid Synthesis of Multifunctional UiO-66(Ce) for Dual-Mode Sensing of Tetracycline

Effect of Linker Structure and Functionalization on Secondary Gas Formation in Metal–Organic Frameworks

Elucidating phase transformation of Eu-based metal organic framework with intermediate isolation and theoretical calculations

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