A Zn (II)-viologen MOF material: photochromic, photoswitchable luminescent properties and UV sensing

[1]  Yamin Cheng,et al.  Photochromic crystalline hybrid materials with switchable properties: Recent advances and potential applications , 2023, Coordination Chemistry Reviews.

[2]  Yuanyuan Li,et al.  Two new Zinc (II)-viologen coordination polymers: syntheses, structures, and photochromic behaviors , 2022, Journal of Molecular Structure.

[3]  Xiang-Jun Zheng,et al.  A UV and X-ray dual photochromic Zn (II) metal-organic framework based on viologen: Photo-controlled luminescence and temperature-dependent phosphorescence , 2022, Dyes and Pigments.

[4]  Guo-Dong Zhang,et al.  Smart fire-warning materials and sensors: Design principle, performances, and applications , 2022, Materials Science and Engineering: R: Reports.

[5]  Xinyu Shi,et al.  A Multifunctional Coordination Polymer Constructed by Viologen Derivatives: Photochromism, Chemochromism, and MnO4- Sensing. , 2022, Inorganic chemistry.

[6]  Xiao-Fei Liu,et al.  Photochromic and electrochromic properties of a viologen-based multifunctional Cd-MOF. , 2022, Chemical communications.

[7]  Tao Chen,et al.  Recent Progress in Smart Polymeric Gel‐Based Information Storage for Anti‐Counterfeiting , 2022, Advanced materials.

[8]  Jialun Fu,et al.  The effect of dicarboxylic acid isomer on the photochromism of naphthalenediimide-based metal-organic frameworks , 2022, Journal of Molecular Structure.

[9]  Song‐De Han,et al.  Recent advances in crystalline hybrid photochromic materials driven by electron transfer , 2022, Coordination Chemistry Reviews.

[10]  Jian‐Jun Liu,et al.  A viologen-derived host-guest MOF material: Photochromism, photoswitchable luminescence, and inkless and erasable printing , 2022, Journal of Solid State Chemistry.

[11]  Liangyan Yu,et al.  Encapsulating viologen derivatives in anionic MOFs: Photochromism and photocontrolled luminescence , 2022, Journal of Solid State Chemistry.

[12]  S. Elleuch,et al.  Optical and charge transfer properties of a new Cadmium based Metal-Organic-Framework material , 2022, Materials Research Bulletin.

[13]  A. Schenning,et al.  Hydrogen-Bonded Supramolecular Liquid Crystal Polymers: Smart Materials with Stimuli-Responsive, Self-Healing, and Recyclable Properties , 2021, Chemical reviews.

[14]  Yiyun Cheng,et al.  Stimuli-responsive polydopamine-based smart materials. , 2021, Chemical Society reviews.

[15]  Mei-Jin Lin,et al.  Photochromism- and Photoluminescence-Tunable Heterobimetallic Supramolecular Hybrid Isomers , 2021 .

[16]  Jian‐Qiang Wang,et al.  Achieving UV and X-ray Dual Photochromism in a Metal-Organic Hybrid via Structural Modulation. , 2021, ACS applied materials & interfaces.

[17]  Zhiliang Liu,et al.  Two new coordination polymers constructed by two viologen-derived ligands: Structure and photochromism , 2020 .

[18]  Yide Han,et al.  Ionothermal synthesis of a photochromic inorganic–organic complex for colorimetric and portable UV index indication and UVB detection , 2020, RSC advances.

[19]  Jian‐Qiang Wang,et al.  Visible colorimetric dosimetry of UV and ionizing radiations by a dual-module photochromic nanocluster , 2020, Nature Communications.

[20]  Xiaodong Wang,et al.  Temperature and pH dual-stimuli-responsive phase-change microcapsules for multipurpose applications in smart drug delivery. , 2020, Journal of colloid and interface science.

[21]  Yi Du,et al.  Liquid metals and their hybrids as stimulus–responsive smart materials , 2020, Materials Today.

[22]  Yan-Qing Li,et al.  Recent advances in organic light-emitting diodes: toward smart lighting and displays , 2020, Materials Chemistry Frontiers.

[23]  Shubiao Xia,et al.  Naphthalimide-containing coordination polymer with mechanoresponsive luminescence and excellent metal ion sensing properties. , 2020, Dalton transactions.

[24]  Hongbo Suo,et al.  The Influence of Anions on Electron-Transfer Photochromism of Bipyridinium-Derived Metal–Organic Materials , 2020 .

[25]  Madoori Mrinalini,et al.  Recent Advances on Stimuli-Responsive Smart Materials and their Applications. , 2019, ChemPlusChem.

[26]  M. Sugimoto,et al.  Multicomponent Molecular Puzzles for Photofunction Design: Emission Color Variation in Lewis Acid-Base Pair Crystals Coupled with Guest-to-Host Charge Transfer Excitation. , 2015, Journal of the American Chemical Society.

[27]  Bin Tan,et al.  Mechanical grinding of a single-crystalline metal-organic framework triggered emission with tunable violet-to-orange luminescence. , 2014, Chemical communications.

[28]  Jihong Yu,et al.  Multifunctional open-framework zinc phosphate |C12H14N2|[Zn6(PO4)4(HPO4)(H2O)2]: photochromic, photoelectric and fluorescent properties. , 2013, Chemical communications.

[29]  Yanfeng Yue,et al.  Luminescent functional metal-organic frameworks. , 2012, Chemical Reviews.

[30]  Xing Li,et al.  Blue photoluminescent 3D Zn(II) metal-organic framework constructing from pyridine-2,4,6-tricarboxylate , 2008 .

[31]  S. Qiu,et al.  Synthesis, structure and luminescent properties of rare earth coordination polymers constructed from paddle-wheel building blocks. , 2005, Inorganic chemistry.

[32]  Xiangjun Zheng,et al.  Two multifunctional stimuli-responsive materials with room-temperature phosphorescence and their applications in multiple dynamic encryption , 2022, Materials Chemistry Frontiers.

[33]  Guo-zheng Zhao,et al.  Three Mn–viologen complexes containing 1-carboxyethyl-4,4′-bipyridinium: crystal structures, photochromism and theoretical calculations , 2021 .