Controlling macro- and mesostructures with hierarchical porosity through combined hard and soft templating.
about
Solid-state synthesis of ordered mesoporous carbon catalysts via a mechanochemical assembly through coordination cross-linkingFreeze-drying of "pearl milk tea": A general strategy for controllable synthesis of porous materials.Structure Evolution of Ordered Mesoporous Carbons Induced by Water Content of Mixed Solvents Water/EthanolChemical phase separation strategies towards silica monoliths with hierarchical porosity.Current status and future developments in preparation and application of colloidal crystals.Ordered mesoporous materials based on interfacial assembly and engineering.Amphiphiles in aqueous solution: well beyond a soap bubble.Surface tuning for oxide-based nanomaterials as efficient photocatalysts.Gated supramolecular chemistry in hybrid mesoporous silica nanoarchitectures: controlled delivery and molecular transport in response to chemical, physical and biological stimuli.Scaling up self-assembly: bottom-up approaches to macroscopic particle organization.Hierarchically Structured Nanomaterials for Electrochemical Energy Conversion.Sol-gel synthesis of monolithic materials with hierarchical porosity.Graphene and its derivatives as versatile templates for materials synthesis and functional applications.Graphene Emerges as a Versatile Template for Materials Preparation.Applications of hierarchically structured porous materials from energy storage and conversion, catalysis, photocatalysis, adsorption, separation, and sensing to biomedicine.Templating for hierarchical structure control in carbon materials.Macroporous materials: microfluidic fabrication, functionalization and applications.Ceramic Nanocomposites from Tailor-Made Preceramic Polymers.Neutron, fluorescence, and optical imaging: An in situ combination of complementary techniques.Ordered micro/macro porous K-OMS-2/SiO2 nanocatalysts: Facile synthesis, low cost and high catalytic activity for diesel soot combustion.Design and fabrication of Ni nanowires having periodically hollow nanostructures.Visible-light-driven Ag/AgCl plasmonic photocatalysts via a surfactant-assisted protocol: enhanced catalytic performance by morphology evolution from near-spherical to 1D structures.Dendrimer-like hybrid particles with tunable hierarchical pores.Biosourced nitrogen-doped microcellular carbon monoliths.Free-Standing and Self-Crosslinkable Hybrid Films by Core-Shell Particle Design and Processing.Multiscale Phase Separations for Hierarchically Ordered Macro/Mesostructured Metal Oxides.Molten Salt Assisted Self-Assembly: Synthesis of Mesoporous LiCoO2 and LiMn2 O4 Thin Films and Investigation of Electrocatalytic Water Oxidation Performance of Lithium Cobaltate.Controlled preparation of amphiphilic triblock-copolyether in a metal- and solvent-free approach for tailored structure-directing agents.Precision Construction of 2D Heteropore Covalent Organic Frameworks by a Multiple-Linking-Site Strategy.Ultralight mesoporous magnetic frameworks by interfacial assembly of Prussian blue nanocubes.Growth of Single-Layered Two-Dimensional Mesoporous Polymer/Carbon Films by Self-Assembly of Monomicelles at the Interfaces of Various Substrates.The effects of amine/nitro/hydroxyl groups on the benzene rings of redox additives on the electrochemical performance of carbon-based supercapacitors.Toward Scalable Fabrication of Hierarchical Silica Capsules with Integrated Micro-, Meso-, and Macropores.Incorporation of well-dispersed sub-5-nm graphitic pencil nanodots into ordered mesoporous frameworks.Bottom-up Formation of Carbon-based Structures with Multilevel Hierarchy from MOF-guest Polyhedra.Ultrahigh volatile iodine uptake by hollow microspheres formed from a heteropore covalent organic framework.Three-dimensionally ordered macro-/mesoporous Ni as a highly efficient electrocatalyst for the hydrogen evolution reactionGentle reduction of SBA-15 silica to its silicon replica with retention of morphologyIonothermal confined self-organization for hierarchical porous magnesium borate superstructures as highly efficient adsorbents for dye removalPorous Carbon Composites for Next Generation Rechargeable Lithium Batteries
P2860
Q33815692-1CB35EE2-3602-4824-BC3E-9C482809A016Q36914962-1027D844-FA1E-48E6-BC76-6C38A1D7D06EQ37181287-A80C0334-0838-4C30-AEB0-574EEA303E82Q38091625-D65A1227-F01E-428C-B01E-700C2983C2FEQ38120205-F86410BF-BEE4-4D94-9CE7-3B458F67E3C0Q38122633-7187F527-23ED-477F-B45A-B3E297F088A4Q38123965-F37088D0-A612-48EC-9BE9-23BEDEB55907Q38139221-0DC95BA8-F424-4BF7-8B22-20397DB53F4CQ38353035-DE936CC0-8060-4343-AAB6-006C6FC57AB3Q38462817-C933100F-DBC2-4C2C-A3A8-C2678A761332Q38628260-EC0BCE16-5512-4B4F-81F8-75BB8E221906Q38632093-25FA3371-4F15-4BD6-916E-30D3D320E828Q38762290-E4F32C4E-235B-4262-B9D9-D00ED863DE90Q38802296-83320274-0ED2-471B-9802-24ABB0C2BBA5Q38851878-41AA0250-4C5A-409E-B3C9-F13AE161FB62Q39003647-6C66A5BE-A495-48C8-9204-F7069FED419AQ39096020-F70714FB-CD12-40A1-B5E7-891685761E37Q39202647-3571399C-1C27-414D-9277-6568EC850FD7Q40475056-EFD20F71-E77C-40DD-AA2C-AA254C8960C2Q41820181-C9B85254-F65A-4DFF-BFB5-444B27FC8FC3Q44572246-76853CF0-5902-407F-83D1-A7819D9E6AF1Q46672339-76E7B776-BF18-44E1-B32B-D2F441E501E0Q46759349-2844563B-9F9B-420D-A9A0-BFD493C381E2Q46943393-66CB1B63-9972-4F07-9409-C5691ED2CD92Q47130568-5074C879-9F66-479E-959F-81C03AD26322Q47225030-497AB358-3FD0-4C93-B75A-51EEB8E564FBQ47792794-49D03CF8-8F6A-4CB9-B7CB-F1045565C4EFQ48297406-97EC56A1-D9FB-4DFC-9FE2-A3D8ED487338Q48957912-113177F6-6A70-484F-92B8-0E94FB01F467Q50225410-C043075A-A19B-4125-9B3E-435648D75247Q50962009-80B91F46-927F-444B-A6EE-BB8B8ED87F56Q51405681-4804D6FC-D56C-4DBA-9E35-847F8EC5A188Q51529779-43DB104A-E0A0-4A05-9101-05AA6D81AC7EQ51552904-C0199E59-711C-43D2-8121-BC73B67C3A13Q52312379-A57B629D-3241-490C-B782-56276C4947E4Q53459862-A88ED4A3-EA5D-419D-97DC-BEE2BD1F0D6DQ57536056-0F66E568-75F7-487B-8782-14A5983B55D5Q57731378-E000359F-E5A0-4BC8-9E90-6E444C7F5AA2Q57754771-B17FC03E-698C-4982-9B5E-03C042AB9960Q58353043-82D5B505-95AF-4F33-AE85-0DE9B7170BAC
P2860
Controlling macro- and mesostructures with hierarchical porosity through combined hard and soft templating.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Controlling macro- and mesostr ...... ined hard and soft templating.
@en
type
label
Controlling macro- and mesostr ...... ined hard and soft templating.
@en
prefLabel
Controlling macro- and mesostr ...... ined hard and soft templating.
@en
P356
P1476
Controlling macro- and mesostr ...... ined hard and soft templating.
@en
P2093
Andreas Stein
Nicholas D Petkovich
P304
P356
10.1039/C2CS35308C
P577
2012-10-16T00:00:00Z