Showing total 874 results

1. Dual-response fluorescence sensing of H2PO4− and CO32− using AJP filter paper based on a pH-stable CdII-based luminescent metal–organic framework.

Author

Cao, Xiao-Qin, Li, Qiang, Yao, Shu-Li, Zhong, Li-qin, Cao, Lei, Chen, Yong-Qiang, and Liu, Sui-Jun

Subjects

*METAL-organic frameworks, *FILTER paper, *FLUORESCENCE, *LIGHT emitting diodes, *DUAL fluorescence

Abstract

A new CdII-based luminescent metal–organic framework (LMOF) with the formula {[Cd(BIBT)(NDC)]·solvents}n (JXUST-32, BIBT = 4,7-bi(1H-imidazol-1-yl)benzo-[2,1,3]thiadiazole and H2NDC = 2,6-naphthalenedicarboxylic acid) was successfully synthesized by a solvothermal method. JXUST-32 shows a two-dimensional (4,4)-connected network and exhibits significant fluorescence red shift and slight enhancement for H2PO4− and CO32− sensing with detection limits of 0.11 and 0.12 μM, respectively. In addition, JXUST-32 has good thermal stability, chemical stability and recyclability. Significantly, JXUST-32 represents a fluorescence red-shift dual response MOF sensor for H2PO4− and CO32− detection and the analytes can be identified by the naked eye, aerosol jet printing filter paper, light-emitting diode beads and luminescent films. [ABSTRACT FROM AUTHOR]

Published

2023

2. Seamless integration of a nickel-based metal-organic framework with three-dimensional substrates for nonenzymatic glucose sensing.

Author

Haonan Ren, Fan Yang, Meng Cao, Bin Shan, and Rong Chen

Subjects

METAL-organic frameworks, GLUCOSE, ELECTROCHEMICAL electrodes, ELECTRON transport, NICKEL oxides, CARBON paper

Abstract

The effective integration of nanomaterials with underlying current collectors is a key factor affecting the performance of nonenzymatic glucose sensors, where an inappropriate integration structure often leads to poor electron transport and instability. In this work, a seamless integrated electrode was constructed by the in situ immobilizing of a nickel-based metal-organic framework (Ni-MOF) on a three-dimensional (3D) conductive nickel foam (NF) for highly sensitive and durable glucose sensing. Facilitated by a rapid microwave-assisted reaction, a robust interfacial interaction between the Ni-MOF and the substrate was established through in situ conversion from nickel oxide (NiO). The fabricated Ni-MOF/NF electrode exhibits an excellent limit of detection (LOD) of 2.65 μM and an impressive sensitivity (14.31 mA cm-2 mM-1) within the linear range (4-576 μM), which is significantly boosted compared with that of an electrode prepared by a typical drop-casting method (3.56 mA cm-2 mM-1 in 4-1836 μM). Characterization and electrochemical tests reveal that this integrated structure on the one hand contributes to fast electron transport and thus has enhanced sensitivity and on the other hand leads to exceptional durability with its structural integrity maintained under bending, shaking, and ultrasonication. Moreover, this seamless integration method was also employed to immobilize the Ni-MOF converted from the pre-chemically deposited NiO layer on another type of substrate, 3D carbon paper (CP), demonstrating the versatility of this facile strategy in creating diverse electrochemical electrodes for applications beyond glucose sensing. [ABSTRACT FROM AUTHOR]

Published

2024

3. A series of isopolymolybdate–viologen hybrids with photo-, thermo- and electro-chromic properties.

Author

Shuang Yu, Tao Liu, Jun Ying, Aixiang Tian, Mengle Yang, and Xiuli Wang

Subjects

HYBRID materials, METAL-organic frameworks, FILTER paper, COORDINATION polymers, DIMETHYLAMINE, LIGANDS (Chemistry), COPPER

Abstract

The combination of electron-deficient viologen ligands with electron-rich POMs is a typical acceptor–donor system that has recently received much attention. Under solvothermal and hydrothermal conditions, by introducing three symmetric viologen ligands into POM-based hybrid materials, we successfully constructed four POMs–viologen inorganic–organic hybrid compounds, namely (1,3-bcbpy)2·(δ-Mo8O26) (1) (1,3-bcbpy·2Cl = 1,1′-bis(3-carboxybenzyl)-4,4′-bipyridine dichloride), {CoII(1,4-bcbpy)2(H2O)2[H2(β-Mo8O26)]}·2H2O·2CH2O (2), (1,4-bcbpy)2·(δ-Mo8O26)·2H2O (3) (1,4-bcbpy·2Cl = 1,1′-bis(4-carboxybenzyl)-4,4′-bipyridine dichloride, CH2O = formaldehyde), and {CuII(1,1-pmbby)2(H2O)[H2(β-Mo8O26)2]}·5H2O·C2H7N (4) (1,1-pmbby·2Cl = 1,1′-[1,4-phenylbis(methylene)]bis-(4,4′-bipyridine)dichloride, C2H7N = dimethylamine). These four compounds exhibit different fascinating structures, especially compound 4 is a typical metal–organic framework. Compounds 1–4 exhibit good discoloration behaviors under various external stimuli. For example, compounds 1–4 showed a positive response to the irradiation from a 300 W Xe lamp. When a positive voltage was applied to the ECD based on compounds 1–4, 1/2/3/4-ECD underwent a significant color conversion. What's more, compound 4 also showed obvious discoloration results after heating. In a word, 1–4 are multifunctional discoloration materials under different external stimuli. In addition, the coated filter paper prepared based on compound 3 can be used as a new printing material medium and can be successfully applied in erasable inkless printing and dual anti-counterfeiting. [ABSTRACT FROM AUTHOR]

Published

2023

4. Pyrolysis of metal–organic framework (CuBTC) decorated filter paper as a low-cost and highly active catalyst for the reduction of 4-nitrophenol.

Author

Zhi, Lihua, Liu, Hua, Xu, Youyuan, Hu, Dongcheng, Yao, Xiaoqiang, and Liu, Jiacheng

Subjects

*PYROLYSIS, *METAL-organic frameworks, *CATALYTIC reduction, *NITROPHENOLS, *MICROFABRICATION, *METAL catalysts

Abstract

The fabrication of noble metal free catalysts with excellent performance and high stability by a simple, efficient, general and low-cost approach remains an urgent task for solving the problem of resource shortage. Herein, Cu-based metal organic frameworks (MOFs) immobilized on commercial filter papers were used as pyrolysis precursors to synthesize CuxO@C at various calcination temperatures. Notably, the resultant CuxO@C-400 exhibits an excellent catalytic performance toward the reaction of reducing 4-nitrophenol (4-NP) to 4-aminophenol (4-AP). By virtue of the large specific surface area, well-developed porosity, good stability and high dispersity of CuxO nanoparticles, the obtained CuxO@C-400 could complete the reduction reaction within 11 min with a large apparent rate constant κapp value (4.8 × 10−3 s−1). Our strategy therefore opens a new avenue for the preparation of low-cost and high-performance noble metal free catalysts. [ABSTRACT FROM AUTHOR]

Published

2018

5. Contents list.

Subjects

CAREER development, THIOPHOSPHATES, SCIENTIFIC community, INORGANIC chemistry, METAL-organic frameworks, COPPER

Abstract

The document is a contents list for the journal "Dalton Transactions: An International Journal of Inorganic Chemistry." It includes the titles and authors of various articles published in the journal, covering topics such as DNA-functionalized nanoparticles, nanomaterials for electrocatalytic reactions, and the synthesis of various compounds. The journal is published by The Royal Society of Chemistry, a leading chemistry community. The document also mentions approved training courses offered by the society. The given document is a list of papers published in the journal Dalton Transactions. The papers cover a range of topics in chemistry, including catalysts for hydroxylation reactions, drug complexes with potential anti-COVID-19 and anticancer activities, luminescent complexes, metal nanoparticles as catalysts, coordination chemistry, and more. The document provides a comprehensive overview of the research articles published in the journal. [Extracted from the article]

Published

2024

6. Turn-off luminescence sensing, white light emission and magnetic studies of two-dimensional lanthanide MOFs.

Author

Manna, Krishna, Sutter, Jean-Pascal, and Natarajan, Srinivasan

Subjects

RARE earth metals, TERBIUM, METAL-organic frameworks, LUMINESCENCE, TEREPHTHALIC acid, MAGNETIC properties

Abstract

The lanthanide metal organic framework compounds [Ln(BPTA)1.5(Bpy)]·0.5DMF (Ln = Y, Eu, Gd, Tb, Dy; 1a–5a) and [Ln(BPTA)1.5(Phen)]·0.5DMF (Ln = Y, Eu, Gd, Tb, Dy; 1b–5b) were prepared by employing 2,5-bis(prop-2-yn-1-yloxy)terephthalic acid (2,5-BPTA) as the primary ligand and 2,2′-bipyridine (1a–5a) and 1,10-phenanthroline (1b–5b) as the secondary ligands. Single-crystal structural studies on [Gd(BPTA)1.5(Bpy)]·0.5DMF (3a) and [Dy(BPTA)1.5(Phen)]·0.5DMF (5b) indicated that the compounds have a two-dimensional structure. The Y compound exhibits blue emission, and the other compounds exhibit emission in the expected regions (λex = 350 nm). White light emission was achieved by careful mixing of the red (Eu3+) and green (Tb3+) components in the blue emitting Y compound. Thus, Y0.96Tb0.02Eu0.02 (bpy) and Y0.939Tb0.06Eu0.001 (phen) were found to show white emission when excited using a wavelength of 350 nm. The introduction of N–N-containing ancillary ligands (i.e., bpy and phen) increased the overall quantum yield (QY) of white light emission to 31% and 43%, respectively. The high QY observed for the Tb and Eu compounds was found to be sensitive and selective for the fluorometric detection of azinphos-methyl pesticide and trinitrophenol (TNP) in an aqueous medium at the ppb level. The same behaviour was observed when utilising the compounds as onsite paper strip sensors. Their magnetic properties were also studied, revealing for the Tb and Dy derivatives slow relaxation of the magnetisation at low temperature. The present study highlights the usefulness of rigid π-conjugated molecules such as 2,2′-bipyridine and 1,10-phenanthroline in enhancing the many utilities of rare-earth-containing MOFs towards white light emission, the sensing of harmful and dangerous substances and magnetic properties. [ABSTRACT FROM AUTHOR]

Published

2023

7. A highly stable chain-based EuIII metal–organic framework as a turn-on and blue-shift luminescent sensor for dipicolinic acid.

Author

Wang, Li, Zhu, Yu-Lian, Zheng, Teng-Fei, Zhu, Zi-Hao, Peng, Yan, Wu, Yong-Quan, Chen, Jing-Lin, Liu, Sui-Jun, and Wen, He-Rui

Subjects

METAL-organic frameworks, BACILLUS anthracis, ULTRAVIOLET lamps, DETECTION limit, CHEMICAL stability

Abstract

The development of a rapid and selective method for the identification of dipicolinic acid (DPA), a specific biomarker in Bacillus anthracis spores, is of great importance for the avoidance of anthrax infection. Herein, a chain-based EuIII metal–organic framework with the formula {[Eu3(BTDB)3(μ3-OH)3(H2O)]·solvents}n (JXUST-38, H2BTDB = (benzo[c][1,2,5]thiadiazole-4,7-diyl)dibenzoic acid) was obtained using 2-fluorobenzoic acid as the pH regulator. JXUST-38 exhibits good chemical and thermal stability and can specifically recognize DPA in N,N-dimethylformamide solution through luminescence enhancement and blue-shift effects with a detection limit of 0.05 μM. Furthermore, the significant luminescence enhancement and blue shift under UV lamps are obviously observable by the naked eye. The luminescence sensing mechanism is attributed to absorbance-induced enhancement between JXUST-38 and DPA. Test paper and mixed-matrix membrane based on JXUST-38 are designed for DPA detection. In addition, the feasibility of using JXUST-38 in biosensing is discussed in detail. [ABSTRACT FROM AUTHOR]

Published

2023

8. Fabrication of carbon-based materials derived from a cobalt-based organic framework for enhancing photocatalytic degradation of dyes.

Author

Ma, Wan-Lin, Zhang, Ya-Qian, Li, Wen-Ze, Li, Jing, and Luan, Jian

Subjects

CARBON-based materials, PHOTODEGRADATION, IRRADIATION, PHOTOCATALYSTS, CHARGE transfer, METAL-organic frameworks, DYES & dyeing, TRICHLOROPHENOL

Abstract

The pyrolysis of metal–organic frameworks (MOFs) has emerged as a promising route to synthesize carbon/metal oxide-based materials with diverse phase compositions, morphologies, sizes and surface areas. In this paper, 1,3,5-benzoic acid (BTC) and 2,4,6-tri(4-pyridinyl)-1-pyridine (TPP) were used as ligands to prepare a novel cobalt-based MOF (Co-MOF) which was used as a precursor to obtain five carbon-based materials at different temperatures (Co-C200/400/600/800/1000). Furthermore, five dyes were used as degradation targets to investigate the photocatalytic degradation performance of the title materials under UV light irradiation. Co-C1000 exhibited the best photocatalytic degradation performance for methyl orange (MO), and the degradation rate could reach 99.21%. The enhanced photocatalytic activity was attributed to narrower band-gaps and a synergistic effect originating from the well-aligned straddling band structures between Co/CoO/Co3O4 and C, also resulting in a faster interfacial charge transfer during the photocatalytic reaction. This study will aid in the development of photocatalysts generated from carbon-based materials via the pyrolysis transformation of MOFs, therefore greatly enhancing the photocatalytic performance. [ABSTRACT FROM AUTHOR]

Published

2024

9. 2-Methylimidazole-modulated 2D Cu metal–organic framework for 5-hydroxymethylfurfural hydrodeoxygenation.

Author

Li, Zhuo-Fei, Li, Yan-Ting, Zhang, Qiang, and Hu, Tong-Liang

Subjects

METAL-organic frameworks, COPPER, TEREPHTHALIC acid, NICKEL phosphide, HYDROGENOLYSIS, GROUP rings

Abstract

Preparation of the high value-added chemical 2,5-dimethylfuran (2,5-DMF) from the biomass-derived platform molecule 5-hydroxymethylfurfural (HMF) is of great significance in the preparation of biofuels. Here, a bottom-up strategy was used to prepare a metal–organic framework (MOF) material with a two-dimensional nanosheet morphology, named CPM, in which an additive 2-methylimidazole was introduced into the hydrothermal process of Cu2+ ions and terephthalic acid. Subsequently, CPM-700 prepared by heat treatment under an inert atmosphere showed excellent catalytic performance in the reaction of HMF hydrodeoxygenation to 2,5-DMF. The materials before and after pyrogenation were characterized by PXRD, XPS, TEM, N2 adsorption and desorption and so on. It was confirmed that compared with the catalyst derived from the cubic MOF material self-assembled by Cu2+ and terephthalic acid, the morphology of 2D nanosheets was beneficial for the reaction of HMF to 2,5-DMF. Combined with the experimental data, the possible reaction path of 2,5-DMF preparation from HMF is that 2,5-dihydroxymethylfuran was formed by hydrogenation of the aldehyde group on the furan ring, and then 2,5-DMF was obtained by hydrogenolysis. This paper provides an effective route for 2D MOF-derived catalytic materials in the selective hydrogenation of HMF. [ABSTRACT FROM AUTHOR]

Published

2024

10. Contents list.

Subjects

CAREER development, INORGANIC chemistry, PLATINUM, COORDINATION polymers, METAL-organic frameworks, THERMOELECTRIC conversion, BISMUTH telluride, RARE earth metals

Abstract

The document is a contents list for the journal "Dalton Transactions: An International Journal of Inorganic Chemistry," published by The Royal Society of Chemistry. It includes articles on various topics such as electrode materials for batteries, compound synthesis, and catalytic activity. The first article discusses the preparation of Au-loaded mesoporous In2O3 nanoparticles and their improved ethanol sensing performance. The second article is a correction notice regarding tubular metal organic frameworks formed from the curvature of 2D-honeycombed metal coordination. The document also mentions approved training courses offered by the Royal Society of Chemistry. [Extracted from the article]

Published

2024

11. Layered double hydroxide-based electrode materials derived from metal–organic frameworks: synthesis and applications in supercapacitors.

Author

Luo, Fujuan, San, Xiaoguang, Wang, Yisong, Meng, Dan, and Tao, Kai

Subjects

HYDROXIDES, METAL-organic frameworks, SUPERCAPACITORS, LAYERED double hydroxides, ELECTRODE potential, ELECTRODES

Abstract

Metal–organic frameworks (MOFs) have emerged as promising electrode materials for supercapacitors (SCs) due to their highly porous structures, tunable chemical compositions, and diverse morphologies. However, their applications are hindered by low conductivity and poor cycling performance. A novel approach for resolving this issue involves the growth of layered double hydroxides (LDHs) using MOFs as efficient templates or precursors for electrode material preparation. This method effectively enhances the stability, electrical conductivity, and mass transport ability of MOFs. The MOF-derived LDH exhibits a well-defined porous micro-/nano-structure, facilitating the dispersion of active sites and preventing the aggregation of LDHs. Firstly, this paper introduces synthesis strategies for converting MOFs into LDHs. Subsequently, recent research progress in MOF-derived LDHs encompassing pristine LDH powders, LDH composites, and LDH-based arrays, along with their applications in SCs, is overviewed. Finally, the challenges associated with MOF-derived LDH electrode materials and potential solutions are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

12. Luminescent and magnetic [TbEu] 2D metal–organic frameworks.

Author

Bartolomé, E., Arauzo, A., Fuertes, S., Navarro-Spreafica, L., Sevilla, P., Fernández Cortés, H., Settineri, N., Teat, S. J., and Sañudo, E. C.

Subjects

METAL-organic frameworks, TERBIUM, MAGNETIC relaxation, SONICATION, ENERGY transfer, ANTENNAS (Electronics)

Abstract

We present the synthesis, through a simple, microwave-assisted method, of lanthanoid-based 2D metal–organic frameworks (MOFs) of general formula [LnxLn′1−x(MeCOO)(PhCOO)2], including homonuclear compounds (x = 1), Ln＝Eu, Tb, and heterometallic compounds, [TbEu]. The crystalline material is formed by neutral nanosheets held together by van der Waals interactions, which can be easily exfoliated by sonication. Photoluminescent emission in the visible range was observed for all of the synthesized 2D MOF compounds via excitation of the ligand, showing benzoates are efficient antenna ligands. Efficient energy transfer from Tb → Eu was observed in the heterometallic [TbEu] compounds, which could potentially perform as luminescent thermometers. Inks containing nanosheets of 2D MOFs exfoliated in solution were prepared, and luminescent prints of Tb and Eu 2D MOFs on paper were made to show the possible application for anticounterfeiting. Frequency-dependent ac susceptibility results show the occurrence of slow magnetic relaxation in [TbEu] compounds through direct relaxation mechanisms, affected by bottleneck effect. A slowing down of the relaxation time is observed as the Eu/Tb ratio increases. [ABSTRACT FROM AUTHOR]

Published

2023

13. A turn-on fluorescent Zn(II) metal–organic framework sensor for quantitative anthrax biomarker detection.

Author

Hong, Chao, Li, Ling, Zou, Ji-Yong, Zhang, Li, and You, Sheng-Yong

Subjects

CHEMORECEPTORS, METAL-organic frameworks, ANTHRAX, DICARBOXYLIC acids, DETECTORS, WASTE recycling

Abstract

2,6-Pyridine dicarboxylic acid (DPA) is considered one of the main anthrax biomarkers, and the detection of DPA is of great significance. This work presents a Zn(II)-based metal–organic framework (MOF) with the formula {[Zn2(2,6-NBC)2(vlpy)Zn(2,6-NBC)(vlpy)0.5]·0.8(2,6-H2NBC)·H2O}n (1) assembled from 2,6-naphthalenedicarboxylic acid (2,6-H2NBC) and 4,4′-vinylenedipyridine (vlpy) for a photoluminescence sensor matrix for DPA detection. 1 features a 3D pillar–layer framework with nanopore sizes of ca.13.165 Å × 12.731 Å, 12.725 Å × 11.018 Å and 13.114 Å × 13.165 Å along the three directions, occupied by lattice water and disordered 2,6-H2NBC molecules. The obtained 1 can be used as a turn-on fluorescence sensor for the detection of DPA with high selectivity, excellent sensitivity and recyclability. The luminescence of 1 demonstrates an obvious color change from blue to purplish blue as the DPA concentration rises. Furthermore, a linear correlation is presented between the fluorescence and a low DPA concentration of 0–0.3 mM, and the detection limit can reach as low as 128 nM, much lower than that of an infectious dose to a human of anthrax spores (60 μM). A fluorescence test paper is fabricated to detect DPA rapidly through color change. DFT calculations indicate the intermolecular photoinduced electron-transfer transition and hydrogen-bonding interaction between DPA molecules and the skeleton of 1 induces the "turn-on" fluorescence sensing of DPA behavior. [ABSTRACT FROM AUTHOR]

Published

2023

14. A fluorophore anchored MOF for fast and sensitive sensing of Cu(II) and 3-nitrotyrosine in a physiological medium.

Author

Mukherjee, Srijan, Sarkar, Kabita, and Biswas, Shyam

Subjects

COPPER, POLLUTANTS, FLUORESCENCE quenching, METAL-organic frameworks, TEREPHTHALIC acid

Abstract

We report the solvothermal synthesis of a dansyl anchored hafnium based fluorescent metal–organic framework (MOF) having the formula [Hf6O4(OH)4(L)6]·H2O·6DMF (H2L = 2-((5-(dimethylamino)naphthalene)-1-sulfonamido)terephthalic acid). The synthesized material showed high fluorescence emission properties as well as high thermal (stable up to 330 °C) and chemical stability. It also exhibited a wide range of pH tolerance as well as a high BET surface area of 703 m2 g−1. The activated MOF showed ultra-fast (detection time < 10 s) and ultra-sensitive sensing properties towards Cu(II) and the biologically important biomarker 3-nitrotyrosine (3-NTyr) in a HEPES medium at a physiological pH of 7.4. Along with high selectivity, very low detection limits of 229 nM and 539 nM were obtained for Cu(II) and 3-NTyr respectively. Furthermore, this probe was utilised for the detection and quantification of Cu(II) and 3-NTyr in biosamples (urine and serum) with very low RSD values (2.3–4.8%). Additionally, this probe was employed to detect the presence of Cu(II) as a pollutant in various environmental water samples. Furthermore, for rapid economic detection of Cu(II), a MOF coated fluorescent paper strip was demonstrated. Thorough mechanistic investigations displayed that a complexometric interaction between Cu(II) and the probe is the main reason for the quenching of fluorescence intensity. This proposed mechanism was well supported by experimental evidence. On the other hand, the FRET mechanism is proposed based on the experimental observations for dynamic quenching of the fluorescence intensity of the probe in the presence of 3-NTyr. [ABSTRACT FROM AUTHOR]

Published

2023

15. Solvothermal synthesis and device fabrication of a Eu3+-based metal–organic framework as a turn-on and blue-shift fluorescence sensor toward Cr3+, Al3+ and Ga3+.

Author

Li, Yu, Cai, Ding-Gui, Zhu, Zi-Hao, Xu, Hui, Zheng, Teng-Fei, Chen, Jing-Lin, Liu, Sui-Jun, and Wen, He-Rui

Subjects

METAL-organic frameworks, FLUORESCENCE, LIGHT emitting diodes, DETECTORS, DETECTION limit

Abstract

A novel three-dimensional Eu3+-based metal–organic framework with the formula {[(CH3)2NH2][Eu(BTDI)]·H2O·DMF}n (JXUST-25) was prepared by solvothermal method based on Eu3+ and 5,5′-(benzothiadiazole-4,7-diyl)diisophthalic acid (H4BTDI) with benzothiadiazole (BTD) luminescent groups. Due to the presence of Eu3+ and organic fluorescence ligand, JXUST-25 displays turn-on and blue-shift fluorescence toward Cr3+, Al3+ and Ga3+ with limits of detection (LOD) of 0.073, 0.006 and 0.030 ppm, respectively. Interestingly, the alkaline environment can change the fluorescence of JXUST-25 toward Cr3+/Al3+/Ga3+ and the addition of HCl solution realizes the reversible change of the fluorescence of JXUST-25 toward Cr3+/Al3+/Ga3+. It is noteworthy that the fluorescent test paper and light-emitting diode lamp based on JXUST-25 can effectively detect Cr3+, Al3+ and Ga3+ by the visual changes. In addition, the turn-on and blue-shift fluorescence between JXUST-25 and M3+ ions may be caused by the host–guest interaction and the absorbance caused enhancement mechanism. [ABSTRACT FROM AUTHOR]

Published

2023

16. Recent advances and prospects of metal–organic frameworks in cancer therapies.

Author

Luo, Zhiying, Sheng, Yu, Jiang, Chenyi, Pan, Ying, Wang, Xiaoxiong, Nezamzadeh-Ejhieh, Ali, Ouyang, Jie, Lu, Chengyu, and Liu, Jianqiang

Subjects

METAL-organic frameworks, CANCER treatment, PHOTODYNAMIC therapy, THERAPEUTICS, BREAST cancer

Abstract

Metal–organic frameworks (MOFs) have been broadly applied in biomedical and other fields. MOFs have high porosity, a large comparative area, and good biostability and have attracted significant attention, especially in cancer therapies. This paper presents the latest applications of MOFs in chemodynamic therapy (CDT), sonodynamic therapy (SDT), photodynamic therapy (PDT), photothermal therapy (PTT), immunotherapy (IT), and combination therapy for breast cancer. A combination therapy is the combination of two different treatment modalities, such as CDT and PDT combination therapy, and is considered more effective than separate therapies. Herein, we have also discussed the advantages and disadvantages of combination therapy in the treatment of breast cancer. This paper aims to illustrate the potential of MOFs in new cancer therapeutic approaches, discuss their potential advantages, and provide some reflections on the latest research results. [ABSTRACT FROM AUTHOR]

Published

2023

17. Selective recognition of Hg2+ ions in aqueous solution by a CdII-based metal–organic framework with good stability and vacant coordination sites.

Author

Cao, Xiao-Qin, Wu, Wei-Peng, Li, Qiang, Zheng, Teng-Fei, Chen, Yong-Qiang, Chen, Jing-Lin, Liu, Sui-Jun, and Wen, He-Rui

Subjects

METAL-organic frameworks, COORDINATION polymers, AQUEOUS solutions, IONS, LIGHT emitting diodes, DETECTION limit, MERCURY

Abstract

A novel water-stable CdII-based metal–organic framework, namely {[Cd(BIBT)(TDC)]·2H2O}n (JXUST-28, BIBT = 4,7-bi(1H-imidazol-1-yl)benzo-[2,1,3]thiadiazole and H2TDC = 2,5-thiophenedicarboxylic acid), was synthesized using a mixed-ligand strategy. Structural analysis demonstrates that JXUST-28 exhibits a two-dimensional layer structure with 4-connected sql topology. Intriguingly, JXUST-28 presents good stability in boiling water (at least 5 days), common organic solvents and aqueous solutions with different pH values of 2–12 (more than 24 hours). Furthermore, fluorescence experiments revealed that JXUST-28 could sense Hg2+ ions in aqueous solution via a quenching effect with a detection limit of 0.097 μM. Meanwhile, JXUST-28 can also be regenerated at least 5 times to detect Hg2+ ions. In addition, light-emitting diode lamps, luminescent films, and test papers of JXUST-28 have been successfully developed for practical applications. [ABSTRACT FROM AUTHOR]

Published

2023

18. Efficient electrochemical reduction of CO2 to CO in a flow cell device by a pristine Cu5tz6-cluster-based metal–organic framework.

Author

Li, Zijing, Lv, Yingtong, Huang, Haoliang, Li, Zi-Jian, Li, Tao, Zhang, Linjuan, and Wang, Jian-Qiang

Subjects

METAL-organic frameworks, ELECTROLYTIC reduction, CARBON offsetting, COPPER, OXIDATION states, ELECTROCATALYSIS

Abstract

The electrochemical reduction of CO2 to CO is a powerful approach to achieving carbon neutrality. Herein, we report a five-nuclear copper cluster-based metal–azolate framework CuTz-1 as an electrocatalyst for the electrochemical CO2 reduction reaction. It achieved a faradaic efficiency (FE) of 62.7% for yielding CO with a partial current density of −35.1 mA cm−2 in flow cell device, which can be preserved for more than ten hours with negligible changes of the current density and FE(CO). Studies of electrocatalytic mechanism studies revealed that the distance of Cu–N was increased, and the coordination number of the Cu ion was reduced, while the oxidation state of Cu was decreased after the electrocatalysis. These findings offer valuable insights into structural changes that influence the performance of the catalyst during the process of the electrochemical reduction of CO2 process. [ABSTRACT FROM AUTHOR]

Published

2024

19. Co/CeO2/C composites derived from bimetallic metal–organic frameworks for efficient microwave absorption.

Author

Yao, Zhiqian, Xu, Suqiong, Zhang, Xianke, Zhu, Jiawei, Liao, Peng, Yuan, Jujun, Rong, Chuicai, Liu, Xiaoqing, Xiong, Zuzhou, Kang, Shuying, and Kuang, Fangguang

Subjects

METAL-organic frameworks, SEMICONDUCTOR materials, N-type semiconductors, MAGNETIC flux leakage, MICROWAVES

Abstract

CeO2, an n-type semiconductor material, has been widely used in microwave absorption (MA) due to its unique structural features such as oxygen vacancies and interstitial atoms. In this paper, Co/CeO2/C composites were prepared by a hydrothermal method followed by a pyrolysis process. The effect of different pyrolysis temperatures (650–950 °C) on the MA property of the composites was investigated. When the pyrolysis temperature was 850 °C, the Co/CeO2/C-850 composite exhibited outstanding MA behavior in the frequency range of 2–18 GHz, displaying a minimum reflection loss (RLmin) of −45.22 dB and an effective absorption bandwidth (EAB) of 4.61 GHz at a thin thickness of 1.75 mm. The MA performance of the Co/CeO2/C composites is mainly attributed to the dielectric loss due to interfacial polarization originating from different interfaces and dipole polarization caused by the oxygen vacancies in CeO2. In addition, the introduction of Co nanoparticles not only provides the magnetic loss but also modulates impendence matching for the current magnetoelectric coupling system. [ABSTRACT FROM AUTHOR]

Published

2023

20. 2D iron/cobalt metal–organic frameworks with an extended ligand for efficient oxygen evolution reaction.

Author

Shang, Wenjing, Li, Qiulin, Li, Xiang, Zhang, Ke, Wang, Binghao, Lou, Yongbing, and Chen, Jinxi

Subjects

OXYGEN evolution reactions, METAL-organic frameworks, IRON, ARTIFICIAL seawater, ALKALINE solutions, COBALT

Abstract

The design of an efficient OER catalyst is significant for water splitting. Metal–organic frameworks (MOFs) are emerging as promising electrocatalysts due to their diversity of structure and tunability of function. In this paper, 2D FexCo1−x-MOF1/NF with an extended ligand (biphenyl-4,4′-dicarboxylic acid, BPDC) is constructed on nickel foam by a solvothermal method. Compared with the MOF2 synthesized by using BDC (1,4-bezenedicarboxylate), MOF1 shows excellent performance. Among MOF1, Fe0.5Co0.5-MOF1/NF exhibits outstanding performance with a low overpotential (217 mV) and a small Tafel slope (31.16 mV Dec−1) at 10 mA cm−2 and performs well at a high current density. In addition, the catalyst is remarkable in terms of durability both in alkaline solution and simulated seawater. The synergetic effect between Fe and Co and more active sites exposed play an important role in improving the OER activity. This work provides an effective strategy for the rational design of MOFs as inexpensive electrocatalysts. [ABSTRACT FROM AUTHOR]

Published

2023

21. Diamino group-functionalized Zr-based metal–organic framework for fluorescence sensing of free chlorine in the aqueous phase and Knoevenagel condensation.

Author

Gogoi, Chiranjib, Nagarjun, Nagarathinam, Rana, Abhijeet, Dhakshinamoorthy, Amarajothi, and Biswas, Shyam

Subjects

METAL-organic frameworks, FACE centered cubic structure, ACETAMIDE, FIELD emission electron microscopy, CONDENSATION, X-ray powder diffraction

Abstract

We developed a porous diamino group-functionalized Zr(IV) metal–organic framework (MOF). The synthesized MOF has a similar structure to DUT-52 (DUT = Dresden University of Technology), which has a face-centered cubic structure with an Fm3¯m space group. The synthesized material (DUT-52-(NH2)2-1) was solvent exchanged with methanol (MeOH) and activated at 100 °C overnight. Both the as-synthesized and activated materials (DUT-52-(NH2)2-1′) are thermally stable until 300 °C. The Brunauer–Emmett–Teller (BET) surface area of DUT-52-(NH2)2-1′ was found to be 413 m2 g−1. DUT-52-(NH2)2-1′ showed a significant quenching of fluorescence response after coming in contact with free chlorine (ClO−) in an aqueous medium. The selectivity of DUT-52-(NH2)2-1′ towards ClO− was not significantly hampered in the presence of any competitive ion. The limit of detection (LOD) value was found to be 0.08 μM in phosphate-buffered saline (PBS, pH = 7.4). DUT-52-(NH2)2-1′ is recyclable and very sensitive towards ClO−. Moreover, the paper strip method was developed for onsite identification of ClO−. Furthermore, the catalytic activity of DUT-52-(NH2)2-1′ was tested in the Knoevenagel condensation between benzaldehyde and cyanoacetamide. The experimental results clearly indicate that DUT-52-(NH2)2-1′ exhibits high activity with very high selectivity towards condensation products. The solid was reusable three times with no decay in its activity, as evidenced by powder X-ray diffraction (PXRD), field emission scanning electron microscopy (FE-SEM) and fourier transform infrared (FT-IR). [ABSTRACT FROM AUTHOR]

Published

2022

22. Back cover.

Subjects

CAREER development, INORGANIC chemistry, METAL-organic frameworks, LIGANDS (Chemistry), COPPER, WATER gas shift reactions

Abstract

This document is the back cover of the journal "Dalton Transactions: An International Journal of Inorganic Chemistry." It advertises approved training courses offered by the Royal Society of Chemistry, providing options for professional development in various subject areas and formats. The document also features a research article titled "Enabling a bioinspired N, N, N - copper coordination motif through spatial control in UiO-67: synthesis and reactivity," which explores the incorporation of a ligand into a metal-organic framework and its metalation with copper. The article suggests that spatial separation of the ligands plays a crucial role in reproducing enzymatic active sites. Additionally, the back cover includes information about the volume, number, and date of the journal issue, as well as the ISSN and a paper on the low-temperature synthesis of porous high-entropy (CoCrFeMnNi)3O4 spheres and their application as catalysts for the reverse water-gas shift reaction. [Extracted from the article]

Published

2024

23. A facile morphology tunable strategy of Zn-MOF derived hierarchically carbon materials with enhanced supercapacitive performance through the solvent effect.

Author

Miao, Rui, Sun, Chaohua, Li, Jipeng, Sun, Yanzhi, Chen, Yongmei, Pan, Junqing, Tang, Yang, and Wan, Pingyu

Subjects

SUPERCAPACITOR electrodes, PORE size (Materials), POROSITY, POROUS materials, ENERGY density, METAL-organic frameworks, DEIONIZATION of water, SOLVENTS

Abstract

Metal–organic framework (MOF) derived porous carbon materials have been widely applied as active materials for supercapacitors due to their large specific surface area and ordered pore structure. This paper presents a facile and effective strategy to regulate the morphology of a zinc-based metal–organic framework (Zn-trimesic acid, Zn-BTC) by adjusting the ethanol content in a solvent, which can effectively change the pore structure of Zn-BTC derived porous carbon (PC). The optimal PC prepared in 50% ethanol displays a rodlike structure with a large specific surface area (SSA) of 1930 m2 g−1 and an average pore size of 2.9 nm. This material shows an excellent rate performance with 78.8% capacitance retention when the current density increases from 1 A g−1 to 100 A g−1 and outstanding electrochemical stability with only 2.2% decline of capacitance after 200 000 cycles at 50 A g−1. Moreover, the assembled symmetrical capacitor shows a high energy density of 16.09 W h kg−1 at 698 W kg−1 and 11.89 W h kg−1 at a high power density of 41.56 kW kg−1. This method would provide a new pathway for the preparation of carbon materials with an adjustable pore size for high-performance supercapacitors. [ABSTRACT FROM AUTHOR]

Published

2022

24. Two novel zinc-based MOFs as luminescence sensors to detect phenylglyoxylic acid.

Author

Song, Dongxue, Ji, Xiaoxi, Li, Yong, Wu, Shuangyan, Zhang, Ying, Wang, Xiaofeng, Sun, Yaguang, Gao, Enjun, and Zhu, Mingchang

Subjects

TEREPHTHALIC acid, LUMINESCENCE, COORDINATION polymers, DETECTORS, METAL-organic frameworks, HUMAN body, AUTOMOBILE emissions

Abstract

Automobile exhaust gases, plastic pollutants, smoking, and other harmful substances can cause serious harm to human beings and the environment. Styrene, as a common airborne toxin, enters the human body through breathing or the skin and is discharged in the form of phenylglyoxylic acid (PGA). Therefore, specific, sensitive and trace detection of PGA is particularly important. Here, two zinc-based metal–organic frameworks {[Zn2L1(DMF)2H2O](DMF)2H2O}n, {[Zn4(L2)2(DMF)2(H2O)3](DMF)8}n (L1 = 2,5-bis((3-carboxylphenyl)amino)terephthalic acid, L2 = 2,5-bis((4-carboxyphenyl)amino)terephthalic acid) have been reported as 1 and 2, respectively. Both 1 and 2 present 3D structures, which can both be simplified as 4,4,4-c net topology. It is worth mentioning that 2 has two different kinds of Zn SBUs as connecting nodes in the structure. Besides, compared with the other materials for the detection of PGA, 1 and 2 exhibit relatively low detection limits (LODs), both in water and in urine (where the LODs for 1 in water and urine were 0.33 μM and 0.43 μM in the range of 0–0.39 mM, and those for 2 were 0.28 μM and 0.49 μM in the range of 0–0.59 mM, respectively). In addition, the sensors have excellent anti-interference ability, high stability, rapid response, and can easily distinguish between different concentrations of PGA with the naked eye. The developed paper probes were suitable for practical sensing applications for portable detection of PGA in urine. [ABSTRACT FROM AUTHOR]

Published

2022

25. A series of naphthalenediimide-based metal–organic frameworks: synthesis, photochromism and inkless and erasable printing.

Author

Zhong, Xiao-Feng, Luo, Guo-Jun, Li, Wen-Bin, Chen, Xiong-Hai, Wu, Ying, Chen, Yi-Hui, Ye, Jia-Wen, Bai, Jie, Mo, Zong-Wen, and Chen, Xiao-Ming

Subjects

METAL-organic frameworks, DIARYLETHENE, PHOTOCHROMISM

Abstract

Three new three-dimensional metal–organic frameworks were synthesized based on a naphthalenediimide derivative ligand, all of which exhibit photochromic behaviour due to the presence of the naphthalenediimide core. Interestingly, two of them possess significant colour changes under light, excellent stability, and appropriate photochromic lifetimes, thus showing potential for application in inkless and erasable printing media. [ABSTRACT FROM AUTHOR]

Published

2022

26. Optimizing post-synthetic metal incorporation in mixed-linker MOFs: insights from metalation studies on bipyridine-containing UiO-67 single crystals.

Author

Gschwind, Wanja, Nagy, Gyula, Primetzhofer, Daniel, and Ott, Sascha

Subjects

RUTHERFORD backscattering spectrometry, IONIC interactions, SINGLE crystals, METAL-organic frameworks, BINDING sites

Abstract

The postsynthetic metalation (PSM) of metal-organic frameworks (MOFs) with intrinsic metal binding sites is an intriguing strategy to introduce catalytic function into MOFs. The spatial distribution of the catalytic sites within the MOF crystal will affect the efficiency of the material, but the factors that govern depth distribution of the introduced metal sites are often not well understood. Herein, we employ Rutherford backscattering spectrometry (RBS) to investigate the metal distribution in a series of post-synthetically metalated mixed linker bpdc/BPY UiO-67 (UiO = Universitet i Oslo, bpdc = biphenyl-dicarboxylate, BPY = 2,2'-bipyridine-5,5'-dicarboxylate) single crystals as a function of linker ratio and metalation time. The RBS spectra reveal large differences in the depth distribution of inserted Ni2+ ions, and core/shell architectures are observed in high BPY materials at shorter incubation times. The incubation times to achieve uniform metal incorporation increases with increasing BPY ratios in the materials, suggesting that the presence of the BPY linkers slow down metal uptake. We propose a combination of ionic interactions and pore clogging, where coordinated ions reduce the available pore space for further ions to diffuse deeper into the framework as reasons for the observed trends. The observations are likely relevant for other mixed-linker MOF systems, and understanding the effect that linker ratios have on PSM and cation distribution will aid in future optimizations of catalytic MOFs. [ABSTRACT FROM AUTHOR]

Published

2024

27. Room-temperature synthesis of a Zr–UiO-66 metal–organic framework via mechanochemical pretreatment for the rapid removal of EDTA-chelated copper from water.

Author

Wu, Yi-nan, Cai, Junyi, Hou, Shuliang, Chen, Rui, Wang, Ziqi, Kabtamu, Daniel Manaye, Zelekew, Osman Ahmed, and Li, Fengting

Subjects

COPPER, METAL-organic frameworks, HEAVY metal toxicology, COMMODITY futures, MICROWAVE heating, ADSORPTION kinetics, WATER purification

Abstract

Treatment of heavy metal pollution in complexed states within water bodies presents significant challenges in the current water treatment field. Adsorption as a means for the removal of heavy metals is characterized by its simplicity of operation, stable effluent, and minimal equipment requirements. Metal–organic frameworks (MOFs) as adsorbents hold significant interest for applications in water treatment. In this study, we investigated a green synthesis approach for the ball-milling pretreated synthesis of UiO-66(Zr) at room temperature, abbreviated as UiO-66(Zr)-rm. Besides having the same thermal stability and crystal structure as the product from microwave-assisted synthesis (UiO-66(Zr)-mw), the resulting UiO-66(Zr)-rm features smaller particle size and superior mesoporous structure. The adsorption efficiency and mechanism for removing EDTA-chelated copper (EDTA–CuII), a complexed heavy metal in water, were extensively analyzed. UiO-66(Zr)-rm presented a maximum adsorption capacity over EDTA–CuII of 43 mg g−1 and a much higher adsorption rate (0.16 g (mg h)−1) than UiO-66(Zr)-mw (0.06 g (mg h)−1). Hierarchically mesostructured defects allow the sorbate to have more effective diffusion in a shorter time to achieve faster adsorption kinetics. Benefiting from the mild synthesis conditions and nontoxic solvents, UiO-66(Zr) has the potential to be produced at a scaled-up level, thereby exhibiting excellent adsorption performance for the removal of complexed heavy metals in the future. [ABSTRACT FROM AUTHOR]

Published

2024

28. Nitrogen-enriched flexible metal–organic framework for CO2 adsorption.

Author

Lancheros, Andrés, Goswami, Subhadip, Zarate, Ximena, Schott, Eduardo, and Hupp, Joseph T.

Subjects

METAL-organic frameworks, X-ray powder diffraction, SCANNING electron microscopy, ADSORPTION isotherms, ADSORPTION capacity

Abstract

A novel MOF named [Zn2(L)(DMF)] was synthesized using solvothermal methods from the reaction of the new linker (4,4′,4′′-(4,4′,4′′-(benzene-1,3,5-triyltris(methylene))tris(3,5-dimethyl-1H-pyrazole-4,1-diyl))tribenzoic acid) and Zn(NO3)2·6H2O. This new MOF was characterized by means of different techniques: powder X-ray diffraction, N2 adsorption and desorption isotherms, thermogravimetric analysis, and scanning electron microscopy. Furthermore, suitable crystals were obtained, which allowed us to perform the X-Ray structure determination of this MOF. The capability of these new MOF to adsorb CO2 at different temperatures was measured and its isosteric enthalpy of adsorption was calculated. The novel MOF shows an uncommon node composed of a Zn3(–COO)6(DMF)2, and the asymmetric unit contains one crystallographically independent linker, one DMF molecule, and two Zn atoms. The [Zn2(L)(DMF)] MOF is a microporous material with high crystallinity and stability up to 250 °C. The multiple nitrogenated pyrazole linkers in its framework enhance its CO2 adsorption capabilities. This material exhibits a low CO2 isosteric enthalpy of adsorption (Hads), comparable to previously reported values for similar nitrogenated materials. All the observed CO2 adsorption capacities were further supported by DFT calculations. [ABSTRACT FROM AUTHOR]

Published

2024

29. Synthesis and characterisation of antimicrobial metal–organic frameworks as multi-drug carriers.

Author

Ahmed, Ahmed, Kelly, Aileen, Leonard, Dayle, Saleem, Waleed, Bezrukov, Andrey, Efthymiou, Constantinos G., Zaworotko, Michael J., Tiana, Davide, Boyd, Aoife, and Papatriantafyllopoulou, Constantina

Subjects

METAL-organic frameworks, TUBERCULOSIS, ESCHERICHIA coli, DRUG absorption, ANTI-infective agents, BACTERIAL diseases

Abstract

Antibiotic resistance is a significant global concern, necessitating the development of either new antibiotics or advanced delivery methods. With this in mind, we report on the synthesis and characterisation of a new family of Metal–Organic Frameworks (MOFs), OnG6 MOFs, designed to act as multi-drug carriers for bacterial infection treatment. OnG6 is based on the pro-drug 4,4′-azodisalicylic acid (AZDH4), which in vivo produces two equivalents of para-aminosalicylic acid (ASA), a crucial drug for M. tuberculosis treatment. X-ray and computational studies revealed that OnG6 MOFs are mesoporous MOFs with etb topology and an [M2(AZD)] formula (M = Zn, OnG6-Zn; Mg, OnG6-Mg; Cu, OnG6-Cu; and Co, OnG6-Co), featuring 1-dimensional channel type pores of 25 Å diameter. OnG6 MOFs are the first reported MOFs bearing the ligand AZDH4, joining the family of mesoporous MOFs arranged in a honeycomb pattern. They absorb isoniazid (INH) and ciprofloxacin (CIPRO) with the former being a specific antibiotic for M. tuberculosis, and the latter being a broader-spectrum antibiotic. The stability of the MOFs and their capacity for antibiotic uptake depend on the nature of the metal ion, with OnG6-Mg demonstrating the highest drug absorption. The antimicrobial activity of these species was assessed against S. aureus and E. coli, revealing that the carriers containing CIPRO displayed optimal efficacy. [ABSTRACT FROM AUTHOR]

Published

2024

30. Cerium(III) and 5-methylisophthalate-based MOFs with slow relaxation of magnetization and photoluminescence emission.

Author

Pajuelo-Corral, Oier, Contreras, MCarmen, Rojas, Sara, Choquesillo-Lazarte, Duane, Seco, José M., Rodríguez-Diéguez, Antonio, Salinas-Castillo, Alfonso, Cepeda, Javier, Zabala-Lekuona, Andoni, and Vitorica-Yrezabal, Iñigo J.

Subjects

METAL-organic frameworks, MAGNETIC relaxation, PHOTOLUMINESCENCE, MAGNETIZATION, CERIUM, PHOSPHORESCENCE

Abstract

Two novel Ce(III) metal organic frameworks (MOFs) with formulas [Ce(5Meip)(H-5Meip)]nGR-MOF-17 and [CeCl(5Meip)(DMF)]nGR-MOF-18 (5Meip = 5-methylisophthalate, DMF = N,N-dimethylformamide) have been synthesized, forming 3-dimensional frameworks. Magnetic measurements show that both compounds present field-induced slow magnetic relaxation under a small applied dc field. For GR-MOF-17, the temperature dependence of relaxation times is best described by a Raman mechanism, whereas for GR-MOF-18, relaxation occurs through a combination of Raman and local-mode pathways. Moreover, when avoiding short Ce⋯Ce interactions by magnetic dilution in GR-MOF-17@La and GR-MOF-18@La, only the local-mode mechanism is responsible for magnetic relaxation. Photophysical studies show the occurrence of ligand-centred luminescence in both compounds and phosphorescence emission at low temperature for GR-MOF-17. [ABSTRACT FROM AUTHOR]

Published

2024

31. Immobilization of europium and terbium ions with tunable ratios on a dispersible two-dimensional metal–organic framework for ratiometric photoluminescence detection of D2O.

Author

Lin, Tzu-Chi, Wu, Kuan-Chu, Chang, Jhe-Wei, Chen, You-Liang, Tsai, Meng-Dian, and Kung, Chung-Wei

Subjects

TERBIUM, EUROPIUM, METAL-organic frameworks, PHOTOLUMINESCENCE, ION energy, IONS

Abstract

A two-dimensional zirconium-based metal–organic framework (2D Zr-MOF), ZrBTB (BTB = 1,3,5-tri(4-carboxyphenyl)benzene), is used as a platform to simultaneously immobilize terbium ions and europium ions with tunable ratios on its hexa-zirconium nodes by a post-synthetic modification. The crystallinity, morphology, porosity and photoluminescence (PL) properties of the obtained 2D Zr-MOFs with various europium-to-terbium ratios are investigated. With the energy transfer from the excited BTB linker to the installed terbium ions and the energy transfer from terbium ions to europium ions, a low loading of immobilized europium ions and a high loading of surrounding terbium ions in the 2D Zr-MOF result in the optimal PL emission intensities of europium; this phenomenon is not observable for the physical mixture of both terbium-installed ZrBTB and europium-installed ZrBTB. The role of installed terbium ions as efficient mediators for the energy transfer from the excited BTB linker to the installed europium ion is confirmed by quantifying PL quantum yields. As a demonstration, these materials with modulable PL characteristics are applied for the ratiometric detection of D2O in water, with the use of the stable emission from the BTB linker as the reference. With the strong emission of immobilized europium ions and the good dispersity in aqueous solutions, the optimal bimetal-installed ZrBTB, Eu-Tb-ZrBTB(1 : 10), can achieve the sensing performance outperforming those of the terbium-installed ZrBTB, europium-installed ZrBTB and the physical mixture of both. [ABSTRACT FROM AUTHOR]

Published

2024

32. Adsorption properties of M-UiO-66 (M = Zr(IV); Hf(IV) or Ce(IV)) with BDC or PDC linker.

Author

González, Diego, Pazo-Carballo, Cesar, Camú, Esteban, Hidalgo-Rosa, Yoan, Zarate, Ximena, Escalona, Néstor, and Schott, Eduardo

Subjects

ADSORPTION kinetics, GREENHOUSE effect, ADSORPTION capacity, METAL-organic frameworks, ELECTROSTATIC interaction, METAL ions, ACTIVATED carbon

Abstract

The increasing CO2 emissions and their direct impact on climate change due to the greenhouse effect are environmental issues that must be solved as soon as possible. Metal–organic frameworks (MOFs) are one class of crystalline adsorbent materials that are thought to have enormous potential in CO2 capture applications. In this research, the effect of changing the metal center between Zr(IV), Ce(IV), and Hf(IV), and the linker between BDC and PDC has been fully studied. Thus, the six UiO-66 isoreticular derivatives have been synthesized and characterized by FTIR, PXRD, TGA, and N2 adsorption. We also report the BET surface area, CO2 adsorption capacities, kinetics, and the adsorption isosteric heat (Qst) of the UiO-66 derivatives mentioned family. The CO2 adsorption kinetics were evaluated using pseudo-first order, pseudo-second order, Avrami's kinetic models, and the rate-limiting step with Boyd's film diffusion, interparticle diffusion, and intraparticle diffusion models. The isosteric heats of CO2 adsorption using various MOFs are in the range 20–65 kJ mol−1 observing differences in adsorption capacities between 1.15 and 4.72 mmol g−1 at different temperatures due to the electrostatic interactions between CO2 and extra-framework metal ions. The isosteric heat of adsorption calculation in this report, which accounts for the unexpectedly high heat released from Zr-UiO-66-PDC, is finally represented as an increase in the interaction of CO2 with the PDC linker and an increase in Qst with defects. [ABSTRACT FROM AUTHOR]

Published

2024

33. A novel photochromic metal–organic framework with good anion and amine sensing.

Author

Li, Xiao-Nan, Li, Li, Wang, Hai-Yu, Fu, Chen, Fu, Jia-Wei, Sun, Ya-Nan, and Zhang, Hong

Subjects

METAL-organic frameworks, STRUCTURAL frames, PHOTODETECTORS, ANIONS, AMINES

Abstract

A novel metal–organic hybrid photochromic compound [Zn (CV) (L2)]·2H2O (1) (CV = N,N′-4,4′-bipyridiniodipropionate, H2L2 = isophthalic acid) has been synthesized solvothermally. Compound 1 features a two-dimensional (2D) framework structure, exhibiting photochromic properties under sunlight and UV irradiation with an obvious color change from colorless to dark blue. Meanwhile, the luminescence properties of 1 were investigated, and the results suggested that 1 has good properties of detecting dichromate ions. Furthermore, compound 1 shows different color changes when exposed to different alkyl-amines, and 1 can also be deposited into paper to use as portable test strips. This work can be applied to practical applications as a multifunctional detector against light and chemicals. [ABSTRACT FROM AUTHOR]

Published

2019

34. Constructing MIL-53(Fe)@ZIF-67(Co) binary metal–organic framework hierarchical heterostructure electrodes for efficient oxygen evolution.

Author

Wen, Dan, Ma, Yan, Mu, Guomei, Huang, Qiuping, Luo, Xuefeng, Lin, Dunmin, Xu, Chenggang, Xie, Fengyu, Wang, Guangzhao, and Guo, Wenhan

Subjects

OXYGEN electrodes, METAL-organic frameworks, HYDROGEN evolution reactions, OXYGEN evolution reactions, ELECTRON transport, ENERGY shortages

Abstract

Improving the efficiency of the anodic oxygen evolution reaction (OER) is important to solve the global energy crisis and greenhouse gas emission problems. In this paper, a preparation method for a MIL-53(Fe)@ZIF-67(Co) composite electrode is proposed. The hierarchical structure formed by the combination of MIL-53(Fe) and ZIF-67(Co) provides a rich channel for the transport of electrons and mass in the OER process. XPS analysis and DFT calculations revealed that Fe electrons in MIL-53(Fe) were transferred to Co in ZIF-67(Co) through O, which confirmed the rapid charge transfer effect of this transport channel. The MIL-53(Fe)@ZIF-67(Co) electrode has significant OER performance. When the current density reaches 10 mA cm−2, the overpotential is only 193 mV. This study inaugurates a new way for the rational design of a multiphase interface and the construction of new MOF channel structures. [ABSTRACT FROM AUTHOR]

Published

2023

35. MoP2/C@rGO synthesised by phosphating the molybdenum-based metal organic framework and GO coating with excellent lithium ion storage performance.

Author

Du, Jiakai, He, Changjian, Li, Qingmeng, Chai, Jiali, Zhang, Qianqian, Tang, Bohejin, and Rui, Yichuan

Subjects

METAL-organic frameworks, LITHIUM ions, PHOSPHATE coating, MOLYBDENUM, STRUCTURAL stability, SURFACE coatings

Abstract

With a high specific capacity, MoP2 has been identified as an ideal electrode material for LIBs. However, the specific capacity is negatively affected due to its poor conductivity and severe volume expansion during insertion and extraction of Li+. In this paper, MoP2-C synthesized by using a Mo-MOF as a precursor, with the generation of C, can effectively solve the agglomeration problem in the synthesis process and alleviate serious volume changes during cycling. Due to the lack of carbon sources provided by a Mo-MOF, the conductivity of MoP2-C cannot be greatly improved. Therefore, rGO and PPy are added to improve the conductivity of MoP2 and further increase the stability of the structure. Compared with MoP2/C and MoP2/C@PPy, MoP2/C@rGO exhibits the highest initial discharge specific capacity of 1208 mA h g−1 at a current density of 100 mA g−1 and rate performances of 830, 750, 630, 550, and 430 mA h g−1 with the current density increasing from 100 mA g−1 to 2000 mA g−1. Notably, the specific capacity remains at 640 mA h g−1 at a current density of 100 mA g−1 after 100 cycles. Followed by 200 cycles at a current density of 2000 mA h g−1, the specific capacity remains at 395 mA h g−1 with a capacity retention rate of 80%. [ABSTRACT FROM AUTHOR]

Published

2022

36. Three novel metal–organic frameworks with different coordination modes for trace detection of anthrax biomarkers.

Author

Cong, Zhenzhong, Zhu, Mingchang, Zhang, Ying, Yao, Wei, Kosinova, Marina, Fedin, Vladimir P., Wu, Shuangyan, and Gao, Enjun

Subjects

METAL-organic frameworks, ANTHRAX, BIOMARKERS, DETECTION limit

Abstract

Dipicolinic acid (DPA) is an anthrax biomarker. Its serious consequences make its detection a great need. In this paper, three novel metal–organic frameworks (MOFs) with different coordination modes were synthesized by a simple solvothermal method, which can be used as highly efficient fluorescence sensors for the highly selective and sensitive trace detection of DPA. MOFs 1–3 showed rapid responses to DPA (<30 s), and the limits of detection (LODs) were calculated to be 1.01 × 10−6 M−1 (MOF 1), 1.17 × 10−6 M−1 (MOF 2) and 2.07 × 10−6 M−1 (MOF 3). DPA detection based on MOFs 1–3 in fetal bovine serum is highly reliable based on the high recovery rates (90% to 115%). Hence, the three MOF-based sensors can be used in the real-time detection of DPA. [ABSTRACT FROM AUTHOR]

Published

2022

37. Magnetic properties and magnetocaloric effect of Ln = Dy, Tb carborane-based metal-organic frameworks.

Author

Zhen Li, Arauzo, Ana, Giner Planas, José, and Bartolomé, Elena

Subjects

MAGNETIC entropy, MAGNETOCALORIC effects, TERBIUM, MAGNETIC properties, METAL-organic frameworks, QUANTUM tunneling, MAGNETIC circular dichroism

Abstract

We present the synthesis and magneto-thermal properties of carborane-based lanthanide metal-organic frameworks (MOFs) with the formula {[(Ln)3(mCB-L)4(NO3)(DMF)n]·Solv}, where Ln = Dy or Tb, characterized by dc and ac susceptibility, X-ray absorption spectroscopy (XAS), X-ray magnetic circular dichroism (XMCD) and heat capacity measurements. The MOF structure is formed by polymeric 1D chains of Ln ions with three different coordination environments (Ln1, Ln2, Ln3) running along the b-axis, linked by carborane-based linkers thus to provide a 3D structure. Static magnetic measurements reveal that these MOFs behave at low temperature as a system of S* = 1/2 Ising spins, weakly interacting ferromagnetically along the 1D polymeric chain (J*/kB = +0.45 K (+0.5 K) interaction constant estimated for Dy-MOF (Tb-MOF)) and coupled to Ln ions in adjacent chains through dipolar antiferromagnetic interactions. The Dy MOF exhibits slow relaxation of magnetization through a thermally activated process, transitioning to quantum tunneling of the magnetization at low temperatures, while both compounds exhibit field-induced relaxation through a very slow, direct process. The maximum magnetic entropy changes (-ΔSmaxm) for an applied magnetic field change of 2-0 T are 5.71 J kg-1 K-1 and 4.78 J kg-1 K-1, for Dy and Tb MOFs, respectively, while the magnetocaloric effect (MCE) peak for both occurs at T ~ 1.6 K, approximately double that for the Gd counterpart. [ABSTRACT FROM AUTHOR]

Published

2024

38. Naphthalimide functionalized metal–organic framework for rapid and nanomolar level detection of hydrazine and anti-hypertensive drug nicardipine.

Author

Hossain, Sk Sakir, Volkmer, Dirk, and Biswas, Shyam

Subjects

METAL-organic frameworks, HYDRAZINES, HYDRAZINE, FLUORESCENCE quenching, HYDRAZINE derivatives, HEART diseases

Abstract

The increasing utilization of hydrazine and its derivatives across diverse sectors highlights the pressing need for efficient detection methods to safeguard human health and the environment. Likewise, nicardipine, a widely used medication for heart diseases, necessitates accurate sensing techniques for clinical research and therapeutic monitoring. Here, we propose a novel approach using a naphthalimide-functionalized Zr-MOF as a fluorometric probe capable of detecting both hydrazine and nicardipine in aqueous medium. Our designed probe exhibited a significant 31-fold increase in fluorescence intensity upon interaction with hydrazine. At the same time, nicardipine induced 86% fluorescence quenching with an exceptionally rapid response time (100 s for hydrazine and 5 s for nicardipine). The designed probe has the ability to detect both analytes at nanomolar concentrations (LOD for hydrazine is 1.11 nM while that for nicardipine is 9.6 nM). Investigation across various wastewater samples and pH conditions further validated its practical utility. The mechanism behind fluorometric sensing of nicardipine was thoroughly investigated using modern instrumentation. Our study presents a versatile and effective approach for detecting hydrazine and nicardipine, addressing crucial needs in both industrial and biomedical contexts. [ABSTRACT FROM AUTHOR]

Published

2024

39. A pillar-layered Ni2P–Ni5P4–CoP array derived from a metal–organic framework as a bifunctional catalyst for efficient overall water splitting.

Author

Ni, Qihang, Zhu, Zixian, Wang, Yan, Jiang, Chengyu, Wang, Min, and Zhang, Xiang

Subjects

METAL-organic frameworks, OXYGEN evolution reactions, HYDROGEN evolution reactions, TRANSITION metals, SUBSTRATES (Materials science), CATALYSTS, PHOSPHORUS in water

Abstract

Interfacial engineering emerges as a potent strategy for regulating the catalytic reactivity of metal phosphides. Developing a facile and cost-effective method to construct bifunctional metal phosphides for highly efficient electrochemical overall water splitting remains an essential and challenging issue. Here, a multiphase transition metal phosphide is constructed through the direct phosphorization of a Ni–Co metal–organic framework grown on nickel foam (Ni–Co-MOF/NF), which is prepared by utilizing nickel foam as conductive substrate and nickel source. The resulting transition metal phosphide manifests a pillar-layered morphology, wherein CoP, Ni2P, and Ni5P4 nanoparticles are embedded within each carbon sheet and these carbon sheets assemble into a pillar-shaped structure on the nickel foam (Ni2P–Ni5P4–CoP–C/NF). The heterogeneous Ni2P-Ni5P4–CoP–C/NF with multiple interfaces serves as a highly efficient bifunctional electrocatalyst with overpotentials of −100 mV and 293 mV in the hydrogen evolution reaction and oxygen evolution reaction, respectively, at 50 mA cm−2 in alkaline media. This superior catalytic performance should mainly be ascribed to its enriched active centers and multiphase synergy. When directly applied for alkaline overall water splitting, the Ni2P–Ni5P4–CoP–C/NF couple demonstrates satisfactory activity (1.55 V @10 mA cm−2) along with sustained durability over 18 hours. This method brings fresh enlightenment to the economical and controllable preparation of multi-metal phosphides for energy conversion. [ABSTRACT FROM AUTHOR]

Published

2024

40. Transition metal and lanthanide modified MOF-808 for barcode design.

Author

Marquardt, Nele, von der Haar, Frederike, and Schaate, Andreas

Subjects

POLYVINYLIDENE fluoride, METAL-organic frameworks, TRANSITION metals, COBALT, FLUORESCENCE, EUROPIUM

Abstract

This study explores the utilization of metal–organic frameworks (MOFs), particularly those incorporating lanthanide-based elements for their fluorescence capabilities, to create an advanced barcode system. By exploiting the modular nature of MOFs, we have developed a material capable of dynamic information encoding and robust against counterfeiting efforts. We introduce a novel barcode prototype that exhibits visible color shifts and fluorescence modulation when exposed to a specific sequence of chemical and thermal stimuli. The barcode is composed of MOF-808, which is modified with transition metals like iron or cobalt, and europium cations. These components are embedded within polyvinylidene fluoride (PVDF) to form a composite. This embedding process ensures that the MOF particles remain reactive to specific trigger molecules, enabling a distinct read-out sequence. The decoding process, involving exposure to ammonia, heating at 120 °C, and treatment with HCl, triggers observable changes in fluorescence and color, depending on the transition metal used. Our investigations with Eu,Co-MOF-808, and Eu,Fe-MOF-808 composites have resulted in the creation of a barcode prototype that demonstrates the feasibility of using europium-modified and unmodified transition metal modified MOF-808@PVDF composites for enhanced security applications. [ABSTRACT FROM AUTHOR]

Published

2024

41. Enabling a bioinspired N,N,N-copper coordination motif through spatial control in UiO-67: synthesis and reactivity.

Author

Gerz, Isabelle, Aunan, Erlend S., Finelli, Valeria, Abu Rasheed, Mouhammad, Deplano, Gabriele, Cortez S. P., Rafael, Schmidtke, Inga L., Wragg, David S., Signorile, Matteo, Hylland, Knut T., Borfecchia, Elisa, Lillerud, Karl Petter, Bordiga, Silvia, Olsbye, Unni, and Amedjkouh, Mohamed

Subjects

COPPER, LIGANDS (Chemistry), X-ray absorption, INFRARED spectroscopy, METAL-organic frameworks

Abstract

Metal–organic frameworks (MOFs) featuring zirconium-based clusters are widely used for the development of functionalized materials due to their exceptional stability. In this study, we report the synthesis of a novel N,N,N-ligand compatible with a biphenyl dicarboxylic acid-based MOF. However, the resulting copper(I) complex exhibited unexpected coordination behaviour, lacking the intended trifold coordination motif. Herein, we demonstrate the successful immobilization of a bioinspired ligand within the MOF, which preserved its crystalline and porous nature while generating a well-defined copper site. Comprehensive spectroscopic analyses, including X-ray absorption, UV/Vis, and infrared spectroscopy, were conducted to investigate the copper site and its thermal behaviour. The immobilized ligand exhibited the desired tridentate coordination to copper, providing access to a coordination motif otherwise unattainable. Notably, water molecules were also found to coordinate to copper. Upon heating, the copper centre within the MOF exhibited reversible dehydration, suggesting facile creation of open coordination sites. Furthermore, the copper site displayed reduction at elevated temperatures and subsequent susceptibility to oxidation by molecular oxygen. Lastly, both the molecular complexes and the MOF were evaluated as catalysts for the oxidation of cyclohexane using hydrogen peroxide. This work highlights the successful immobilization of a bioinspired ligand in a zirconium-based MOF, shedding light on the structural features, thermal behaviour, and catalytic potential of the resulting copper sites. [ABSTRACT FROM AUTHOR]

Published

2024

42. Enhanced photoreduction efficiency of Cr(VI) driven by visible light in a new Zr-based metal–organic framework modified by hydroxyl groups.

Author

Nguyen, Duc T., Nguyen, Khang M. V., Duong, Huy K., Nguyen, Binh T., Nguyen, Mai D. K., Tran, Dang B., Tran, Quang-Hieu, Doan, Tan L. H., and Nguyen, My V.

Subjects

VISIBLE spectra, METAL-organic frameworks, PHOTOREDUCTION, HYDROXYL group, X-ray photoelectron spectroscopy, DIFFERENTIAL scanning calorimetry, FLOCCULANTS

Abstract

While metal–organic framework (MOF) photocatalysts have demonstrated a unique Cr(VI) photoreduction capability in recent decades, their performance is still insufficient for practical applications because of their low Cr(VI) uptake and poor visible light response. To cope with these drawbacks, a new OH-modified Zr-based MOF, termed HCMUE-1, was successfully prepared via a solvothermal method in this work. The complete characterization of HCMUE-1 was performed through various techniques, including powder X-ray diffraction (PXRD), Raman spectroscopy, Fourier transform infrared (FT-IR), thermogravimetric analysis and differential scanning calorimetry (TGA-DSC), scanning electron microscopy combined with energy-dispersive X-ray (SEM-EDX), and X-ray photoelectron spectroscopy (XPS). The obtained data exhibited the excellent Cr(VI) photoreduction efficiency of HCMUE-1, reaching up to 98% after 90 min and almost 100% after 120 min under visible light illumination in a low acidic medium. Noteworthily, HCMUE-1 retained the same Cr(VI) removal rate for at least seven cycles without considerable loss. Further experimental investigations demonstrated that the structural stability and surface morphology of HCMUE-1 were retained after photoreduction. Moreover, the photocatalytic reduction mechanism of Cr(VI) to Cr(III) was interpreted through a series of systematic experimental measurements. These results indicate that HCMUE-1 possesses potential as an efficient photocatalyst for reducing toxic Cr(VI) species from wastewater in real-life conditions. [ABSTRACT FROM AUTHOR]

Published

2024

43. Hydrophobic functionalization of a metal–organic framework as an ammonia visual sensing material under high humidity conditions.

Author

Wang, Yuxin, Song, Zhengxuan, Liu, Yutao, Chen, Yang, Li, Jinping, Li, Libo, and Yao, Jia

Subjects

METAL-organic frameworks, HUMIDITY, KIDNEY diseases, LIVER diseases, SENSES

Abstract

Since exhaled ammonia (NH3) is one of the metabolic markers of liver and kidney diseases, ammonia visual sensing materials in humid environments have received extensive attention and investigation. Herein, through a tailor-made pore environment provided by metal–organic framework (MOF) materials (CH3-Cu(BDC)), we achieved NH3 anti-interference sensing with apparent color changing under humid conditions. With methyl (CH3–) functionalization, CH3-Cu(BDC) demonstrated a strong response for trace ammonia and showed high selectivity under a humid environment. Grand canonical Monte Carlo (GCMC) simulations indicated that CH3-Cu(BDC) showed stronger attraction towards NH3 molecules than H2O. Benefiting from the target changing coordination environment, CH3-Cu(BDC) showed a rapid response and simple analysis properties for patients' exhaled air. The strategy used in this study not only provides a demonstration case for NH3 colorimetric sensing with high humidity and anti-interference but also introduces a new method for painless and quick exhaled breath analysis for diagnosis of patients with kidney and liver diseases. [ABSTRACT FROM AUTHOR]

Published

2024

44. Ionic liquid post-modified carboxylate-rich MOFs for efficient catalytic CO2 cycloaddition under solvent-free conditions.

Author

Wen-Li Bao, Jie Kuai, Hai-Yang Gao, Meng-Qi Zheng, Zhong-Hua Sun, Ming-Yang He, Qun Chen, and Zhi-Hui Zhang

Subjects

RING formation (Chemistry), IONIC liquids, CATALYTIC activity, RARE earth oxides, MANUFACTURING processes, METAL-organic frameworks, BISIMIDES, CARBOXYLATE derivatives

Abstract

The synthesis of cyclic carbonates through cycloaddition reactions between epoxides and carbon dioxide (CO2) is an important industrial process. Metal-Organic Frameworks (MOFs) have functional and ordered pore structures, making them attractive catalysts for converting gas molecules into valuable products. One approach to enhance the catalytic activity of MOFs in CO2 cycloaddition reactions is to create open metal sites within MOFs. In this study, the amino-functionalized rare earth Gd-MOF (Gd-TPTC-NH2) and its ionic liquid composite catalysts (Gd-TPTC-NH-[BMIM]Br) were synthesized using 2'-amino-[1,1':4',1"-terphenyl]-3,3",5,5"-tetracarboxylic acid (H4TPTC-NH2) as the ligand. The catalytic performance of these two catalysts was observed in the cycloaddition reaction of CO2 and epoxides. Under the optimized reaction conditions, Gd-TPTC-NH-[BMIM]Br can effectively catalyze the cycloaddition reaction of a variety of epoxide substrates with good to excellent yields of cyclic carbonate products. Comparatively, epichlorohydrin and epibromohydrin, which possess halogen substituents, promote higher yields of cyclic carbonates due to the electron-withdrawing nature of Cl and Br substituents. Additionally, the Gd-TPTC-NH- [BMIM]Br catalyst demonstrated good recyclability and reproducibility, maintaining its catalytic activity without any changes in its structure or properties after five reuse cycles. [ABSTRACT FROM AUTHOR]

Published

2024

45. Contracting pore channels of a magnesium-based metal–organic framework by decorating methyl groups for effective Xe/Kr separation.

Author

Li, Liangjun, Zhang, Xu, Xu, Wenli, Guo, Mengwei, Liu, Qingying, Li, Fangru, Liu, Tao, Xing, Tao, Li, Zhi, Wang, Mingqing, and Wu, Mingbo

Subjects

METAL-organic frameworks, METHYL groups, KRYPTON, CONTRACTS, LIGANDS (Chemistry)

Abstract

A new magnesium-based metal–organic framework with unprecedented short-chain secondary building units and ultra-micropore channels approaching the kinetic diameters of Xe is fabricated by decorating methyl groups on ligands. Due to the contracted pores, this MOF exhibits very high selectivity values for Xe/Kr, which ranks it among the top porous absorbents. [ABSTRACT FROM AUTHOR]

Published

2024

46. Highly efficient photosynthesis of hydrogen peroxide by a stable Zr(IV)-based MOF with a diamino-functionalized ligand.

Author

Zhai, Qixiang, Ren, Yanwei, Wang, Haosen, Liu, Cheng, Li, Ze, and Jiang, Huanfeng

Subjects

HYDROGEN peroxide, ELECTRON paramagnetic resonance, OXYGEN reduction, OXYGEN in water, VISIBLE spectra, METAL-organic frameworks, PHOTOCATALYSTS

Abstract

Metal–organic frameworks (MOFs) have emerged as a promising class of materials for solar-driven hydrogen peroxide (H2O2) generation due to their porosity, large surface area and designable molecular building blocks; however, producing H2O2 from oxygen and water without sacrificial agents remains a major challenge. Herein, we have constructed two UiO-67-type MOFs, UiO-67-NH2 and UiO-67-(NH2)2, by a solvothermal method using 2-amino-4,4′-biphenyldicarboxylic acid and 2,2′-diamino-4,4′-biphenyldicarboxylic acid as ligands, respectively. A variety of photochemical measurements have shown that the introduction of diamino groups into UiO-67-(NH2)2 not only enhances its absorption ability for visible light, but also facilitates the separation of photogenerated electron/hole pairs. Consequently, compared to monoamino-functionalized UiO-67-NH2, UiO-67-(NH2)2 exhibits a 5.5 times higher H2O2 production rate in pure water for 1 h. A two-step one-electron oxygen reduction reaction pathway for photocatalytic H2O2 production was suggested based on a series of control experiments and active species trapping tests by electron paramagnetic resonance spectra. This work provides new insights into the regulation of functionalized MOF ligands at the molecular level and a catalytic mechanism towards MOF-based photocatalysts for H2O2 production with high activity. [ABSTRACT FROM AUTHOR]

Published

2024

47. Novel metal–organic frameworks assembled from the combination of polynitro-pyrazole and 5-nitroamine-1,2,4-oxadiazole: synthesis, structure and thermal properties.

Author

Yang, Feng, Xu, Yuangang, Wang, Pengcheng, Lin, Qiuhan, and Lu, Ming

Subjects

METAL-organic frameworks, THERMAL properties, FURAZANS, THERMAL stability, HYDROGEN bonding, CRYSTALLOGRAPHY

Abstract

Energetic metal organic frameworks (EMOFs) is a hot topic in the field of energetic materials research. This paper reports two kinds of EMOFs based on methylene-linked polynitropyrazole and nitroamine 1,2,4-oxadiazole. Their structures were fully characterized by crystallography and their detonation performance and stability performance were explored. The results showed that the crystals of compounds 4 and 5 exhibited a 3D stacking phenomenon due to the action of a large number of hydrogen bonds and coordination bonds inside the crystal. In terms of stability, both 4 and 5 showed good thermal stability (TSADT (4) = 204.4 °C and TSADT (5) = 216.2 °C), but due to the difference in the number of energetic groups (–NO2), the sensitivity of 4 (IS = 6.0 J and FS = 100 N) to mechanical stimuli is significantly lower than that of compound 5 (IS = 1.2 J and FS = 40 N). In terms of energy performance, it is this great advantage in the number of energetic groups that makes compound 5's (Dv = 8.059 km s−1 and P = 30.9 GPa) detonation performance superior to that of 4 (Dv = 7.704 km s−1 and P = 26.9 GPa). This research broadens the horizon for the development of EMOFs based on polynitropyrazole derivatives. [ABSTRACT FROM AUTHOR]

Published

2021

48. Multifunctional MOF-based probes for efficient detection and discrimination of Pb2+, Fe3+ and Cr2O72−/CrO42−.

Author

Wang, Fengqin, Zhang, Fengxiao, Zhao, Zhongrui, Sun, Zhenyu, Pu, Yanyan, Wang, Yanjun, and Wang, Xiaoqing

Subjects

FLUORESCENT probes, METAL-organic frameworks

Abstract

Developing metal–organic framework (MOF)-based fluorescent probes for efficient detection and discrimination of polluting ions in groundwater is vital for environmental protection and human health. In this paper, we prepared two luminescence-active transition MOFs, namely, Zn-MOF and Cd-MOF, and conducted sensing experiments. The results show that they both exhibit multiple-target detection for Fe3+, Pb2+ and Cr(VI) with high sensitivity, good anti-interference ability and good recyclability even with different frameworks. In addition, Eu3+-incorporated samples, Eu3+@MOFs, with dual-emission have been fabricated via efficient encapsulation of Eu3+ ions into the MOF host. As expected, Eu3+@MOF hybrids also act as multi-target and self-calibrated probes to selectively detect Fe3+ and Cr(VI) ions. However, the quenching efficiencies of the original MOFs towards Fe3+ are higher than those of Eu3+@MOFs. Thus, we could differentiate Fe3+, Pb2+ and Cr(VI) ions by comparing the changes of fluorescence emission between Eu3+@MOFs and the original MOFs. The recognition mechanism may be attributed to the competitive energy absorption between MOFs or Eu3+@MOFs and the analytes. [ABSTRACT FROM AUTHOR]

Published

2021

49. A dual-function [Ru(bpy)3]2+ encapsulated metal organic framework for ratiometric Al3+ detection and anticounterfeiting application.

Author

Li, Huijun, Wang, Yanan, Jiang, Fengjiao, Li, Manman, and Xu, Zhouqing

Subjects

METAL-organic frameworks, LUMINESCENCE measurement, METALLIC composites, REDSHIFT, ELECTROSTATIC interaction, COMPOSITE materials

Abstract

In this work, a novel composite material (HPU-24@Ru) has been prepared by combining a blue-emission Cd-based metal-organic framework (MOF, [Cd2(TCPE)(DMF)(H2O)3]n, HPU-24) with a red-emission tris (2,2′-bipyridine) dichlororuthenium(II) hexahydrate ([Ru(bpy)3]2+) molecule for ratiometric fluorescence sensing of Al3+ ions in aqueous medium and high-level dynamic anticounterfeiting application. The luminescence measurement results indicated that the fluorescence intensity of HPU-24 at 446 nm showed a red shift in the presence of Al3+ ions, and the new peak appeared at 480 nm and continued to increase with an increase in Al3+ ion concentration. Meanwhile, the fluorescence intensity of [Ru(bpy)3]2+ almost showed no change. The detection limit was calculated as 11.63 μM, which was better than that for the MOF-based Al3+ ions in some reported examples in aqueous media and achieved through strong electrostatic interactions between HPU-24@Ru and Al3+ ions. Moreover, owing to the particularity of the tetrastyryl structure in HPU-24, HPU-24@Ru showed intriguing temperature-dependent emission behavior. This unique structure provides the composite material HPU-24@Ru with attributes for high-level information encryption that make it difficult for counterfeiters to identify all of the right decryption measures. [ABSTRACT FROM AUTHOR]

Published

2023

50. Contents list.

Subjects

COBALT, COPPER, METAL-organic frameworks, ALLOY plating

Published

2023