| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1002/TCR.201600109 |
| P698 | PubMed publication ID | 27775860 |
| P2093 | author name string | Gang Xu | |
| Zhihua Fu | |||
| P2860 | cites work | Hydrogen storage in metal-organic frameworks | Q28242060 |
| Tunable electrical conductivity in metal-organic framework thin-film devices | Q28303412 | ||
| Thin Film Thermoelectric Metal-Organic Framework with High Seebeck Coefficient and Low Thermal Conductivity | Q30300024 | ||
| Reticular synthesis and the design of new materials | Q34205294 | ||
| Interfacial growth of large-area single-layer metal-organic framework nanosheets | Q34366468 | ||
| Functional porous coordination polymers | Q35758845 | ||
| Hybrid porous solids: past, present, future | Q37057876 | ||
| Tunable coordinative defects in UHM-3 surface-mounted MOFs for gas adsorption and separation: A combined experimental and theoretical study | Q58278307 | ||
| Large-Area, Free-Standing, Two-Dimensional Supramolecular Polymer Single-Layer Sheets for Highly Efficient Electrocatalytic Hydrogen Evolution | Q58338267 | ||
| Intercalation in Layered Metal–Organic Frameworks: Reversible Inclusion of an Extended π-System | Q58809972 | ||
| Step-by-step growth of highly oriented and continuous seeding layers of [Cu2(ndc)2(dabco)] on bare oxide and nitride substrates | Q58809987 | ||
| Step-by-Step Route for the Synthesis of Metal−Organic Frameworks | Q58810011 | ||
| Magnetic metal-organic frameworks | Q37454428 | ||
| Thin films of metal-organic frameworks | Q37454449 | ||
| Metal-organic framework materials as catalysts | Q37454461 | ||
| Mechanical properties of hybrid inorganic-organic framework materials: establishing fundamental structure-property relationships. | Q37827359 | ||
| MOF thin films: existing and future applications. | Q37827707 | ||
| Metal-organic framework thin films: from fundamentals to applications | Q37934898 | ||
| Metal-organic frameworks for separations | Q37942996 | ||
| Metal-organic framework materials as chemical sensors | Q37954384 | ||
| Metal-organic framework growth at functional interfaces: thin films and composites for diverse applications. | Q37969886 | ||
| MOF-based electronic and opto-electronic devices | Q38209849 | ||
| Metal-organic framework membranes: from synthesis to separation application | Q38223445 | ||
| Metal-organic framework materials for light-harvesting and energy transfer | Q38314225 | ||
| Facile "modular assembly" for fast construction of a highly oriented crystalline MOF nanofilm. | Q39543461 | ||
| Step-by-step fabrication of a highly oriented crystalline three-dimensional pillared-layer-type metal-organic framework thin film confirmed by synchrotron X-ray diffraction | Q39609785 | ||
| Highly crystalline nanofilm by layering of porphyrin metal-organic framework sheets | Q39766146 | ||
| Steam-Stable Zeolitic Imidazolate Framework ZIF-90 Membrane with Hydrogen Selectivity through Covalent Functionalization | Q42852991 | ||
| Oriented growth of the functionalized metal-organic framework CAU-1 on -OH- and -COOH-terminated self-assembled monolayers | Q43100595 | ||
| Elaboration and properties of hierarchically structured optical thin films of MIL-101(Cr). | Q43240078 | ||
| Zeolitic imidazolate framework membrane with molecular sieving properties by microwave-assisted solvothermal synthesis. | Q43258315 | ||
| The liquid phase epitaxy method for the construction of oriented ZIF-8 thin films with controlled growth on functionalized surfaces | Q43534740 | ||
| Binary Janus porous coordination polymer coatings for sensor devices with tunable analyte affinity | Q44904754 | ||
| High flux thin film nanocomposite membranes based on metal-organic frameworks for organic solvent nanofiltration. | Q45936357 | ||
| Cation-triggered drug release from a porous zinc-adeninate metal-organic framework. | Q45986271 | ||
| The chemistry and applications of metal-organic frameworks. | Q46013433 | ||
| Metal-organic framework thin films: crystallite orientation dependent adsorption | Q46069723 | ||
| Construction of highly oriented crystalline surface coordination polymers composed of copper dithiooxamide complexes | Q46265543 | ||
| Stress-induced chemical detection using flexible metal-organic frameworks | Q46326304 | ||
| Bottom-up assembly of ultrathin sub-micron size metal-organic framework sheets | Q47208911 | ||
| Enantioselective adsorption in homochiral metal-organic frameworks: the pore size influence. | Q47389354 | ||
| High-Quality Metal-Organic Framework Ultrathin Films for Electronically Active Interfaces. | Q50883295 | ||
| Advanced Fabrication Method for the Preparation of MOF Thin Films: Liquid-Phase Epitaxy Approach Meets Spin Coating Method. | Q51249253 | ||
| Controlled incorporation of nanoparticles in metal-organic framework hybrid thin films. | Q51748074 | ||
| Crystalline coordination framework endowed with dynamic gate-opening behaviour by being downsized to a thin film. | Q52879214 | ||
| Photoinduced Charge-Carrier Generation in Epitaxial MOF Thin Films: High Efficiency as a Result of an Indirect Electronic Band Gap? | Q53240099 | ||
| A three-dimensional accordion-like metal-organic framework: synthesis and unconventional oriented growth on a surface. | Q54037904 | ||
| Fabrication of highly uniform gel coatings by the conversion of surface-anchored metal-organic frameworks. | Q54456165 | ||
| Chemistry of SURMOFs: layer-selective installation of functional groups and post-synthetic covalent modification probed by fluorescence microscopy. | Q54582505 | ||
| Design and synthesis of an exceptionally stable and highly porous metal-organic framework | Q56885140 | ||
| Oriented Circular Dichroism Analysis of Chiral Surface-Anchored Metal-Organic Frameworks Grown by Liquid-Phase Epitaxy and upon Loading with Chiral Guest Compounds | Q57528335 | ||
| Transparent films of metal-organic frameworks for optical applications | Q57548907 | ||
| Remarkable Lattice Shrinkage in Highly Oriented Crystalline Three-Dimensional Metal–Organic Framework Thin Films | Q58193059 | ||
| MOF-on-MOF heteroepitaxy: perfectly oriented [Zn2(ndc)2(dabco)]n grown on [Cu2(ndc)2(dabco)]n thin films | Q58193195 | ||
| Surface nano-architecture of a metal–organic framework | Q58193240 | ||
| Controlling interpenetration in metal–organic frameworks by liquid-phase epitaxy | Q58203202 | ||
| Directed Growth of Electroactive Metal-Organic Framework Thin Films Using Electrophoretic Deposition | Q58230882 | ||
| P433 | issue | 5 | |
| P921 | main subject | thin film | Q1137203 |
| P304 | page(s) | 518-534 | |
| P577 | publication date | 2016-10-24 | |
| P1433 | published in | The Chemical Record | Q3520251 |
| P1476 | title | Crystalline, Highly Oriented MOF Thin Film: the Fabrication and Application | |
| P478 | volume | 17 |
| Q93199991 | Metal-Organic Framework for Transparent Electronics |
| Q92373492 | The Growth of Photoactive Porphyrin-Based MOF Thin Films Using the Liquid-Phase Epitaxy Approach and their Optoelectronic Properties |
| Q41667088 | The Tuning of Optical Properties of Nanoscale MOFs-Based Thin Film through Post-Modification |
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