SEARCH Articles Figures Tables Applications of Inorganic Membranes Catalytic Inorganic Membrane Reactors Catalytic microporous inorganic membranes Ceramic membranes inorganic Ceramic membranes inorganic binders Characterization of Inorganic Membrane Fouling Characterization of Inorganic Membranes Commercial inorganic membranes Commercially Available Inorganic Membranes Composite membranes inorganic particles Composite membranes with inorganic materials Conductivity, electrical high-temperature inorganic membrane Dehydrogenations with Inorganic Membranes Dense Inorganic Polymer Membranes Dense inorganic membranes Fabrication of Inorganic Membranes Fuel inorganic membranes Fuel inorganic-organic membranes Gas Separations with Inorganic Membranes General Characteristics of Inorganic Membranes High-temperature inorganic membrane Hollow fiber inorganic membranes Hydrogen permeation inorganic membranes Hydrogen production inorganic membrane reactors Hydrophilic organic-inorganic hybrid membrane Hydrophilicity, inorganic membranes Innovations in Catalytic Inorganic Membrane Reactors Inorganic Materials for Gas-separation Membranes Inorganic Membranes A Brief Comparison Inorganic Membranes and Carbon Membrane Inorganic contaminants, removal from membranes Inorganic ion-exchange membran Inorganic membrane reactor Inorganic membrane reactors applications Inorganic membrane reactors characteristics Inorganic membrane reactors classification Inorganic membrane reactors configuration Inorganic membrane reactors dense metallic membranes Inorganic membrane reactors developments Inorganic membrane reactors preparation Inorganic membranes applications Inorganic membranes asymmetric Inorganic membranes ceramic asymmetric membrane Inorganic membranes characterization Inorganic membranes fabrication Inorganic membranes for gas separation Inorganic membranes high-temperature catalytic membrane reactors Inorganic membranes liquid separation Inorganic membranes membrane properties Inorganic membranes modified Inorganic membranes monolithic Inorganic membranes porosity Inorganic membranes preparation Inorganic membranes supported Inorganic membranes supports Inorganic membranes symmetric Inorganic membranes tubular Inorganic membranes types Inorganic nanocomposite membranes Inorganic polymer membrane Inorganic zeolite membranes Inorganic-organic composite membranes Ionic mobility inorganic membrane Membrane hybrid organic—inorganic Membrane inorganic oxide Membrane material selection inorganic phase Membrane reactors inorganic membranes Membranes, chiral inorganic Mesoporous inorganic membranes Microporous inorganic membrane reactors Microporous inorganic membranes Moderate-temperature inorganic membrane Morphology polymer-inorganic hybrid membranes Nafion membranes inorganic additive addition Nafion/inorganic composite membranes Nonporous inorganic membrane Organic-Inorganic Hybrid Membranes and Related Processes Organic-inorganic membranes for fuel Organic-inorganic membranes for fuel cells Organic/inorganic membranes PHYSICAL, CHEMICAL AND SURFACE PROPERTIES OF INORGANIC MEMBRANES POTENTIALS OF INORGANIC MEMBRANE REACTORS Permeation inorganic membranes Phosphonated Inorganic-Organic Membranes Polymer membranes, with inorganic acid Polymer membranes, with inorganic acid impregnation Polymer-inorganic hybrid membranes Polymer-inorganic hybrid membranes characterization Polymer-inorganic hybrid membranes mechanical properties Polymer-inorganic hybrid membranes membrane material selection Polymer-inorganic hybrid membranes preparation Polymer-inorganic hybrid membranes progress Pore size distribution inorganic membranes Porous Inorganic Membrane Reactors Porous inorganic membrane Preparation of Inorganic Membranes Reactions Amenable to Inorganic Membrane Reactors Supported liquid membranes inorganic support Synthesis of Inorganic Membranes The Developing Use of Inorganic Membranes A Historical Perspective The Development of Porous Inorganic Membranes Types of Inorganic Membranes