Multifunctional Ln-MOF Luminescent Probe for Efficient Sensing of Fe3+, Ce3+, and Acetone.
暂无分享,去创建一个
Jun Wang | Ran Fang | Wei Dou | Cailing Xu | Lizi Yang | Weisheng Liu | Weisheng Liu | Cailing Xu | Cong Xu | Lizi Yang | A. Kirillov | Jun Wang | R. Fang | Qiangsheng Zhang | Alexander M Kirillov | Cong Xu | W. Dou | Qiangsheng Zhang
[1] Y. Li,et al. An Efficient Blue-Emissive Metal-Organic Framework (MOF) for Lanthanide-Encapsulated Multicolor and Stimuli-Responsive Luminescence. , 2017, Inorganic chemistry.
[2] F. Zhang,et al. A Lanthanide MOF Thin-Film Fixed with Co3 O4 Nano-Anchors as a Highly Efficient Luminescent Sensor for Nitrofuran Antibiotics. , 2017, Chemistry.
[3] Weisheng Liu,et al. Novel double layer lanthanide metal-organic networks for sensing applications. , 2018, Dalton transactions.
[4] Jie‐Peng Zhang,et al. Encapsulating Pyrene in a Metal–Organic Zeolite for Optical Sensing of Molecular Oxygen , 2015 .
[5] Z. Chai,et al. Hydrolytically Stable Luminescent Cationic Metal Organic Framework for Highly Sensitive and Selective Sensing of Chromate Anions in Natural Water Systems. , 2017, ACS applied materials & interfaces.
[6] Lan-sun Zheng,et al. Synthesis of porous Cu2O/CuO cages using Cu-based metal–organic frameworks as templates and their gas-sensing properties , 2015 .
[7] Xing Meng,et al. Single‐Crystal‐to‐Single‐Crystal Transformation of a Europium(III) Metal–Organic Framework Producing a Multi‐responsive Luminescent Sensor , 2014 .
[8] Yulin Yang,et al. 3D Lanthanide Metal–Organic Frameworks Based on Mono-, Tri-, and Heterometallic Tetranuclear Clusters as Highly Selective and Sensitive Luminescent Sensor for Fe3+ and Cu2+ Ions , 2016 .
[9] Jigang Li,et al. Abnormal pinocytosis and valence-variable behaviors of cerium suggested a cellular mechanism for plant yield reduction induced by environmental cerium. , 2017, Environmental pollution.
[10] Jing Li,et al. Metal-organic frameworks: functional luminescent and photonic materials for sensing applications. , 2017, Chemical Society reviews.
[11] Bin Zhao,et al. Coordination polymers containing 1D channels as selective luminescent probes. , 2004, Journal of the American Chemical Society.
[12] Hegen Zheng,et al. Two Lanthanide Metal-Organic Frameworks as Remarkably Selective and Sensitive Bifunctional Luminescence Sensor for Metal Ions and Small Organic Molecules. , 2017, ACS applied materials & interfaces.
[13] Bin Zhao,et al. Lanthanide organic framework as a regenerable luminescent probe for Fe(3+). , 2015, Inorganic chemistry.
[14] Zhan Shi,et al. Cation sensing by a luminescent metal-organic framework with multiple Lewis basic sites. , 2013, Inorganic chemistry.
[15] K. Müller‐Buschbaum,et al. Engineering metal-based luminescence in coordination polymers and metal-organic frameworks. , 2013, Chemical Society reviews.
[16] Tianfu Liu,et al. Conjugated ligands modulated sandwich structures and luminescence properties of lanthanide metal-organic frameworks. , 2011, Inorganic chemistry.
[17] B. Yan,et al. A Luminescent 3d-4f-4d MOF Nanoprobe as a Diagnosis Platform for Human Occupational Exposure to Vinyl Chloride Carcinogen. , 2017, Inorganic chemistry.
[18] Gregory S. Day,et al. Luminescent sensors based on metal-organic frameworks , 2018 .
[19] Shengqian Ma,et al. Applications of metal-organic frameworks featuring multi-functional sites , 2016 .
[20] Hong-Cai Zhou,et al. Metal-organic frameworks for separations. , 2012, Chemical reviews.
[21] Dohoung Kim,et al. Ceria nanoparticles that can protect against ischemic stroke. , 2012, Angewandte Chemie.
[22] Coordination polymers for energy transfer: Preparations, properties, sensing applications, and perspectives , 2015 .
[23] Zhonghua Zhu,et al. Uncommon Pyrazoyl-Carboxyl Bifunctional Ligand-Based Microporous Lanthanide Systems: Sorption and Luminescent Sensing Properties. , 2016, Inorganic chemistry.
[24] Lihua Wang,et al. Straightforward Loading of Imidazole Molecules into Metal-Organic Framework for High Proton Conduction. , 2017, Journal of the American Chemical Society.
[25] Shuangquan Zang,et al. Syntheses, structures, tunable emission and white light emitting Eu3+ and Tb3+ doped lanthanide metal-organic framework materials. , 2013, Dalton transactions.
[26] Pengyan Wu,et al. Multifunctional Luminescent Eu(III)-Based Metal-Organic Framework for Sensing Methanol and Detection and Adsorption of Fe(III) Ions in Aqueous Solution. , 2016, Inorganic chemistry.
[27] Song Dang,et al. Lanthanide metal-organic frameworks showing luminescence in the visible and near-infrared regions with potential for acetone sensing. , 2013, Chemistry.
[28] Zhiyu Wang,et al. Dual‐Emitting MOF⊃Dye Composite for Ratiometric Temperature Sensing , 2015, Advanced materials.
[29] G. Ning,et al. A Water-Stable Dual-Channel Luminescence Sensor for UO22+ Ions Based on an Anionic Terbium(III) Metal-Organic Framework. , 2017, Chemistry.
[30] Soumya Mukherjee,et al. Highly selective detection of nitro explosives by a luminescent metal-organic framework. , 2013, Angewandte Chemie.
[31] Z. Su,et al. Stable luminescent metal-organic frameworks as dual-functional materials to encapsulate ln(3+) ions for white-light emission and to detect nitroaromatic explosives. , 2015, Inorganic chemistry.
[32] Veli-Matti Mukkala,et al. Correlation between the lowest triplet state energy level of the ligand and lanthanide(III) luminescence quantum yield , 1997 .
[33] Nathaniel L Rosi,et al. Near-infrared luminescent lanthanide MOF barcodes. , 2009, Journal of the American Chemical Society.
[34] C. L. Teoh,et al. Development of a Highly Selective, Sensitive, and Fast Response Upconversion Luminescent Platform for Hydrogen Sulfide Detection , 2016 .
[35] Cong Xu,et al. A Multi-responsive Regenerable Europium-Organic Framework Luminescent Sensor for Fe3+ , CrVI Anions, and Picric Acid. , 2016, Chemistry.
[36] Dong‐sheng Li,et al. Pore Space Partition in Metal-Organic Frameworks. , 2017, Accounts of chemical research.
[37] Zhigang Xie,et al. Fast response and high sensitivity europium metal organic framework fluorescent probe with chelating terpyridine sites for Fe³⁺. , 2013, ACS applied materials & interfaces.
[38] Demin Liu,et al. Nanomedicine Applications of Hybrid Nanomaterials Built from Metal-Ligand Coordination Bonds: Nanoscale Metal-Organic Frameworks and Nanoscale Coordination Polymers. , 2015, Chemical reviews.
[39] S. Natarajan,et al. Highly luminescent and thermally stable lanthanide coordination polymers designed from 4-(dipyridin-2-yl)aminobenzoate: efficient energy transfer from Tb3+ to Eu3+ in a mixed lanthanide coordination compound. , 2012, Inorganic chemistry.
[40] J. Verhoeven,et al. The emission spectrum and the radiative lifetime of Eu3+ in luminescent lanthanide complexes , 2002 .
[41] Chun He,et al. Flexible, Luminescent Metal-Organic Frameworks Showing Synergistic Solid-Solution Effects on Porosity and Sensitivity. , 2016, Angewandte Chemie.
[42] Dirk De Vos,et al. Adsorptive separation on metal-organic frameworks in the liquid phase. , 2014, Chemical Society reviews.
[43] Aamod V. Desai,et al. Guest-Responsive Metal-Organic Frameworks as Scaffolds for Separation and Sensing Applications. , 2017, Accounts of chemical research.
[44] Bin Zhao,et al. Unique (3,4,10)-Connected Lanthanide-Organic Framework as a Recyclable Chemical Sensor for Detecting Al(3.). , 2016, Inorganic chemistry.
[45] B. Yan. Lanthanide-Functionalized Metal-Organic Framework Hybrid Systems To Create Multiple Luminescent Centers for Chemical Sensing. , 2017, Accounts of chemical research.
[46] Ying‐Hui Zhang,et al. A Water-Stable Metal-Organic Framework with a Double-Helical Structure for Fluorescent Sensing. , 2016, Inorganic chemistry.
[47] Xing Meng,et al. Lanthanide Ion Codoped Emitters for Tailoring Emission Trajectory and Temperature Sensing , 2015 .
[48] John F. Callan,et al. Iron(III) selective molecular and supramolecular fluorescent probes. , 2012, Chemical Society reviews.