Works about MICROPOROSITY
Results: 644
Water retention in sandy soils of different origins with the addition of biochar.
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- Revista Caatinga, 2024, v. 37, p. 1, doi. 10.1590/1983-21252024v3711792rc
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Hydrosilylation of Alkynes Under Continuous Flow Using Polyurethane‐Based Monolithic Supports with Tailored Mesoporosity.
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- Macromolecular Chemistry & Physics, 2023, v. 224, n. 1, p. 1, doi. 10.1002/macp.202200234
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Carbonization of Carboxylate‐Functionalized Polymers of Intrinsic Microporosity for Water Treatment.
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- Macromolecular Chemistry & Physics, 2020, v. 221, n. 5, p. 1, doi. 10.1002/macp.201900532
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Carbonization of Carboxylate‐Functionalized Polymers of Intrinsic Microporosity for Water Treatment.
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- Macromolecular Chemistry & Physics, 2020, v. 221, n. 5, p. 1, doi. 10.1002/macp.201900532
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Preparation and Gas Separation Properties of Triptycene‐Based Microporous Polyimide.
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- Macromolecular Chemistry & Physics, 2019, v. 220, n. 10, p. N.PAG, doi. 10.1002/macp.201900047
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Fabrication of Thermally Crosslinked Hydrolyzed Polymers of Intrinsic Microporosity (HPIM)/Polybenzoxazine Electrospun Nanofibrous Membranes.
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- Macromolecular Chemistry & Physics, 2019, v. 220, n. 1, p. N.PAG, doi. 10.1002/macp.201800326
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Influence of Branching of Polythiophenes on the Microporosity.
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- Macromolecular Chemistry & Physics, 2018, v. 219, n. 12, p. 1, doi. 10.1002/macp.201800024
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Synthetic Control of Pore Properties in Conjugated Microporous Polymers Based on Carbazole Building Blocks.
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- Macromolecular Chemistry & Physics, 2015, v. 216, n. 5, p. 504, doi. 10.1002/macp.201400508
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Hollow Microporous Organic Capsules Loaded with Highly Dispersed Pt Nanoparticles for Catalytic Applications.
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- Macromolecular Chemistry & Physics, 2014, v. 215, n. 12, p. 1257, doi. 10.1002/macp.201400107
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- Article
Cover Feature: Gas Permeation through Mechanically Resistant Self‐Standing Membranes of a Neat Amorphous Organic Cage (Chem. Eur. J. 56/2023).
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- Chemistry - A European Journal, 2023, v. 29, n. 56, p. 1, doi. 10.1002/chem.202302814
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Gas Permeation through Mechanically Resistant Self‐Standing Membranes of a Neat Amorphous Organic Cage.
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- Chemistry - A European Journal, 2023, v. 29, n. 56, p. 1, doi. 10.1002/chem.202301437
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Polymers of Intrinsic Microporosity Based on Dibenzodioxin Linkage: Design, Synthesis, Properties, and Applications.
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- Chemistry - A European Journal, 2023, v. 29, n. 43, p. 1, doi. 10.1002/chem.202301512
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Relationships Between Defectivity and Porosity in High Surface Area Porous Aromatic Frameworks.
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- Angewandte Chemie, 2024, v. 136, n. 3, p. 1, doi. 10.1002/ange.202314120
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High Gas Permeability in Aged Superglassy Membranes with Nanosized UiO‐66−NH<sub>2</sub>/cPIM‐1 Network Fillers.
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- Angewandte Chemie, 2024, v. 136, n. 1, p. 1, doi. 10.1002/ange.202316356
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Hollow STW‐Type Zeolite Single Crystals with Aluminum Gradient for Highly Selective Production of p‐Xylene from Methanol‐Toluene Alkylation.
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- Angewandte Chemie, 2023, v. 135, n. 41, p. 1, doi. 10.1002/ange.202310419
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Polymers with Intrinsic Microporosity as Solid Ion Conductors for Solid‐State Lithium Batteries.
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- Angewandte Chemie, 2023, v. 135, n. 37, p. 1, doi. 10.1002/ange.202308837
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Covalent Scrambling in Porous Polyarylthioethers through a Stepwise S<sub>N</sub>Ar for Tunable Bandgap and Porosity.
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- Angewandte Chemie, 2023, v. 135, n. 28, p. 1, doi. 10.1002/ange.202304378
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Self‐Accelerating Diels–Alder Reaction for Preparing Polymers of Intrinsic Microporosity.
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- Angewandte Chemie, 2023, v. 135, n. 24, p. 1, doi. 10.1002/ange.202302527
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Beyond Microporosity in Porous Organic Molecular Materials (POMMs).
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- Angewandte Chemie, 2023, v. 135, n. 14, p. 1, doi. 10.1002/ange.202217729
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Dibenzomethanopentacene‐Based Polymers of Intrinsic Microporosity for Use in Gas‐Separation Membranes.
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- Angewandte Chemie, 2023, v. 135, n. 8, p. 1, doi. 10.1002/ange.202215250
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Graphene Nanoribbon Hybridization of Zeolitic Imidazolate Framework Membranes for Intrinsic Molecular Separation.
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- Angewandte Chemie, 2022, v. 134, n. 49, p. 1, doi. 10.1002/ange.202214269
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Hierarchical Assembly of a Micro‐ and Macroporous Hydrogen‐Bonded Organic Framework with Tailored Single‐Crystal Size.
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- Angewandte Chemie, 2022, v. 134, n. 47, p. 1, doi. 10.1002/ange.202208677
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2,2′‐Biphenol‐based Ultrathin Microporous Nanofilms for Highly Efficient Molecular Sieving Separation.
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- Angewandte Chemie, 2022, v. 134, n. 46, p. 1, doi. 10.1002/ange.202212816
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A Zeolitic Octahedral Metal Oxide with Ultra‐Microporosity for Inverse CO<sub>2</sub>/C<sub>2</sub>H<sub>2</sub> Separation at High Temperature and Humidity.
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- Angewandte Chemie, 2022, v. 134, n. 37, p. 1, doi. 10.1002/ange.202209121
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Microporous Carbon Nitride (C<sub>3</sub>N<sub>5.4</sub>) with Tetrazine based Molecular Structure for Efficient Adsorption of CO<sub>2</sub> and Water.
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- Angewandte Chemie, 2021, v. 133, n. 39, p. 21412, doi. 10.1002/ange.202108605
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Tailoring the Microporosity of Polymers of Intrinsic Microporosity for Advanced Gas Separation by Atomic Layer Deposition.
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- Angewandte Chemie, 2021, v. 133, n. 33, p. 18019, doi. 10.1002/ange.202016901
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A Covalent Black Phosphorus/Metal–Organic Framework Hetero‐nanostructure for High‐Performance Flexible Supercapacitors.
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- Angewandte Chemie, 2021, v. 133, n. 18, p. 10454, doi. 10.1002/ange.202101648
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Rational Construction of Borromean Linked Crystalline Organic Polymers.
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- Angewandte Chemie, 2021, v. 133, n. 6, p. 3011, doi. 10.1002/ange.202012504
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Rapid Generation of Hierarchically Porous Metal–Organic Frameworks through Laser Photolysis.
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- Angewandte Chemie, 2020, v. 132, n. 28, p. 11445, doi. 10.1002/ange.202003636
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Acid–Base Interaction Enhancing Oxygen Tolerance in Electrocatalytic Carbon Dioxide Reduction.
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- Angewandte Chemie, 2020, v. 132, n. 27, p. 11010, doi. 10.1002/ange.202003093
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Microporosity of a Guanidinium Organodisulfonate Hydrogen‐Bonded Framework.
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- Angewandte Chemie, 2020, v. 132, n. 5, p. 2013, doi. 10.1002/ange.201911861
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Phase Transformation Behavior of a Two‐Dimensional Zeolite.
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- Angewandte Chemie, 2019, v. 131, n. 30, p. 10336, doi. 10.1002/ange.201904825
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A Coordinative Solubilizer Method to Fabricate Soft Porous Materials from Insoluble Metal–Organic Polyhedra.
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- Angewandte Chemie, 2019, v. 131, n. 19, p. 6413, doi. 10.1002/ange.201901668
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BN-Graphene Composites Generated by Covalent Cross-Linking with Organic Linkers.
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- Advanced Functional Materials, 2015, v. 25, n. 37, p. 5910, doi. 10.1002/adfm.201502166
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Self-Directed Localization of ZIF-8 Thin Film Formation by Conversion of ZnO Nanolayers.
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- Advanced Functional Materials, 2014, v. 24, n. 30, p. 4804, doi. 10.1002/adfm.201400559
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Ultrathin Polymer Films with Intrinsic Microporosity: Anomalous Solvent Permeation and High Flux Membranes.
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- Advanced Functional Materials, 2014, v. 24, n. 30, p. 4729, doi. 10.1002/adfm.201400400
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Polystyrene-derived carbon with hierarchical macro-meso-microporous structure for high-rate lithium-ion batteries application.
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- Journal of Materials Science, 2015, v. 50, n. 20, p. 6649, doi. 10.1007/s10853-015-9214-7
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Investigating possible correlations between the porosimetry and insoluble residue content of Malta's Lower Globigerina Limestone.
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- Bulletin of Engineering Geology & the Environment, 2017, v. 76, n. 1, p. 59, doi. 10.1007/s10064-015-0817-7
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Study on the permeability evolution law and the micro-mechanism of CCL in a landfill final cover under the dry-wet cycle.
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- Bulletin of Engineering Geology & the Environment, 2014, v. 73, n. 4, p. 1089, doi. 10.1007/s10064-014-0604-x
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显微缩松对 Ag-28Cu-0.75Ni 合金性能影响研究.
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- Precious Metals / Guijinshu, 2022, v. 43, n. 2, p. 36
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Comparison of samplers in the evaluation of soil physical properties.
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- Investigación Agraria, 2021, v. 23, n. 1, p. 17, doi. 10.18004/investig.agrar.2021.junio.2301662
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Carbon Monoliths with Hierarchical Porous Structure for All-Vanadium Redox Flow Batteries.
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- Batteries, 2021, v. 7, n. 3, p. 1, doi. 10.3390/batteries7030055
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Hierarchically‐Ordered Zeolites: A Critical Assessment.
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- Advanced Materials Interfaces, 2021, v. 8, n. 4, p. 1, doi. 10.1002/admi.202001841
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Carbon Aerogel Based Thin Electrodes for Zero‐Gap all Vanadium Redox Flow Batteries – Quantifying the Factors Leading to Optimum Performance.
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- ChemElectroChem, 2022, v. 9, n. 5, p. 1, doi. 10.1002/celc.202101617
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Cover Feature: Polymers of Intrinsic Microporosity in Triphasic Electrochemistry: Perspectives (ChemElectroChem 17/2019).
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- ChemElectroChem, 2019, v. 6, n. 17, p. 4327, doi. 10.1002/celc.201901243
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Polymers of Intrinsic Microporosity in Triphasic Electrochemistry: Perspectives.
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- ChemElectroChem, 2019, v. 6, n. 17, p. 4332, doi. 10.1002/celc.201900717
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Polymer of Intrinsic Microporosity (PIM‐7) Coating Affects Triphasic Palladium Electrocatalysis.
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- ChemElectroChem, 2019, v. 6, n. 16, p. 4307, doi. 10.1002/celc.201801359
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New Carbon Monoliths for Supercapacitor Electrodes. Looking at the Double Layer.
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- ChemElectroChem, 2017, v. 4, n. 5, p. 1016, doi. 10.1002/celc.201600848
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Reagentless Electrochemiluminescence from a Nanoparticulate Polymer of Intrinsic Microporosity (PIM-1) Immobilized onto Tin-Doped Indium Oxide.
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- ChemElectroChem, 2016, v. 3, n. 12, p. 2160, doi. 10.1002/celc.201600419
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CHARACTERIZATION OF THE REACTIVITY OF MINERAL ADDITIONS BY DIFFERENT MICROSTRUCTURAL AND MECHANICAL APPROACHES.
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- Mining Science, 2018, v. 25, p. 129, doi. 10.5277/msc182510
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