about
A stable lithiated silicon-chalcogen battery via synergetic chemical coupling between silicon and seleniumHierarchical micro- and mesoporous carbide-derived carbon as a high-performance electrode material in supercapacitors.Confinement Effects for Lithium Borohydride: Comparing Silica and Carbon ScaffoldsPreparation and application of cellular and nanoporous carbides.Gold Aerogels: Three-Dimensional Assembly of Nanoparticles and Their Use as Electrocatalytic Interfaces.Ceria/silicon carbide core-shell materials prepared by miniemulsion technique.Carbon Materials for Lithium Sulfur Batteries-Ten Critical Questions.Interaction of electrolyte molecules with carbon materials of well-defined porosity: characterization by solid-state NMR spectroscopy.Advanced structural analysis of nanoporous materials by thermal response measurements.Effects of the Functionalization of the Ordered Mesoporous Carbon Support Surface on Iron Catalysts for the Fischer-Tropsch Synthesis of Lower Olefins.Bioinspired carbide-derived carbons with hierarchical pore structure for the adsorptive removal of mercury from aqueous solution.Hydrophilic non-precious metal nitrogen-doped carbon electrocatalysts for enhanced efficiency in oxygen reduction reaction.Influence of precursor porosity on sodium and sulfur promoted iron/carbon Fischer-Tropsch catalysts derived from metal-organic frameworks.Nanocasting hierarchical carbide-derived carbons in nanostructured opal assemblies for high-performance cathodes in lithium-sulfur batteries.Nickel cobalt oxide hollow nanosponges as advanced electrocatalysts for the oxygen evolution reaction.Stretchable and semitransparent conductive hybrid hydrogels for flexible supercapacitors.Synthesis of Ordered Mesoporous Carbon Materials by Dry Etching.Direct prediction of the desalination performance of porous carbon electrodes for capacitive deionizationEnhancing performance of Li–S cells using a Li–Al alloy anode coatingCarbide-derived carbon aerogels with tunable pore structure as versatile electrode material in high power supercapacitorsInteractions Between Electrolytes and Carbon-Based Materials—NMR Studies on Electrical Double-Layer Capacitors, Lithium-Ion Batteries, and Fuel CellsNanostructure characterization of carbide-derived carbons by morphological analysis of transmission electron microscopy images combined with physisorption and Raman spectroscopySelf-Supporting Hierarchical Porous PtAg Alloy Nanotubular Aerogels as Highly Active and Durable ElectrocatalystsTailoring Commercially Available Raw Materials for Lithium-Sulfur Batteries with Superior Performance and Enhanced Shelf LifePreparation of hierarchical porous biomorphic carbide-derived carbon by polycarbosilane impregnation of woodEmulsion soft templating of carbide-derived carbon nanospheres with controllable porosity for capacitive electrochemical energy storageIn Situ Formation of Protective Coatings on Sulfur Cathodes in Lithium Batteries with LiFSI-Based Organic ElectrolytesKinetically Controlled Synthesis of PdNi Bimetallic Porous Nanostructures with Enhanced Electrocatalytic ActivityMicro- and Mesoporous Carbide-Derived Carbon-Selenium Cathodes for High-Performance Lithium Selenium BatteriesZnO Hard Templating for Synthesis of Hierarchical Porous Carbons with Tailored Porosity and High Performance in Lithium-Sulfur BatteryZnPd/ZnO Aerogels as Potential Catalytic MaterialsDesign of Functional Nanostructured Carbons for Advanced Heterogeneous Catalysts: A ReviewA hard-templating route towards ordered mesoporous tungsten carbide and carbide-derived carbonsDirect synthesis of carbide-derived carbon monoliths with hierarchical pore design by hard-templatingEvolution of porosity in carbide-derived carbon aerogelsHierarchical Carbide-Derived Carbon Foams with Advanced Mesostructure as a Versatile Electrochemical Energy-Storage MaterialHydrogen production from catalytic decomposition of methane over ordered mesoporous carbons (CMK-3) and carbide-derived carbon (DUT-19)In-Depth Investigation of the Carbon Microstructure of Silicon Carbide-Derived Carbons by Wide-Angle X-ray ScatteringKroll-carbons based on silica and alumina templates as high-rate electrode materials in electrochemical double-layer capacitorsMicro- and mesoporous carbide-derived carbon prepared by a sacrificial template method in high performance lithium sulfur battery cathodes
P50
Q28817500-3E68D5B9-4CEC-4A98-8A79-9976A66E1D07Q34174277-F29066BF-67EF-4D6F-B60B-C5D2780D9D36Q37681837-55AF5856-3861-440D-AE12-6908A8378FE2Q37985594-E39BE9A9-6313-4D65-BC94-31911F65B603Q38642091-C3EAC390-06FF-42C6-A5A9-401C3D615D09Q38672205-33C52F9A-C720-44D1-BC9C-4050AA9A55B9Q38784293-728802AA-9BD1-402E-97D4-5B2A677B0EB5Q39370609-1DF1E456-E10E-489F-85B8-5410741FE8CFQ41216869-A4F6FB8A-B908-4476-82B4-36E5E0ED1EA1Q42320104-73FC6548-D468-497D-BD0C-3484F1515108Q46381121-A1AB8271-87DE-48EA-B081-B387C5EBE42AQ50242040-7449B987-8463-4649-A01D-B51BEE926543Q50250932-F80FD7B9-D1B9-4663-9D88-A170FA59104AQ50608485-BB8DE8A6-B653-4EDB-BF49-5583C70475F1Q50991331-73D8CB9F-39AC-4FFC-8614-0C3466F1C4F6Q51071242-B7C7E86E-AA24-4A0C-BDFB-E92CD7BFE5B5Q53372787-E044E9EC-F2F7-476D-9988-31ED3FC2D902Q57275866-4F9AAF0A-7432-46EA-8EC7-4B05E4194880Q57360828-CBF44F3C-99B4-4305-8437-2254593237CBQ58232251-7012E9C3-547E-4954-B83E-30F106EA521EQ58371765-BC83F927-A69C-42CA-8277-2B8871E9E288Q58371767-730C49C0-BE9A-46B0-B282-3D3EEEA02E2EQ58371774-B2D7B27E-1599-41F6-8E5D-AF587DECCC91Q58371792-D6B96848-A203-40A9-AC23-EAC2E97022A6Q58371799-ACE91F55-348F-4597-B85F-7313B694D9C8Q58371824-169B24DF-461E-4249-B69D-4E1A05D8D0A3Q58371829-2113C287-9F27-463D-9DB4-8BEC8CA7E2DDQ58371832-C8BA0404-0DDE-42EE-AA27-495F5AFA3A17Q58371834-16B65E22-3C32-4541-8BDF-45874641BCF1Q58371854-1F39A296-2270-4A2C-A0DE-04A3ABA630ACQ58371856-9BB3A763-EE41-46BB-94A2-E7E7C6D6A770Q58371868-1CAA0C3F-1A70-482B-974B-513C6D22A99FQ58371878-A6C7794F-AE93-4C47-8F6C-F3782C43AB97Q58371901-5659D06B-580B-44D9-9E12-E6DAB136D93FQ58371903-5514C92D-6AFF-457A-BA38-7678C3443C7DQ58371909-65AA0EDC-3087-49D2-B896-AF2E9DFA20CFQ58371912-56ADFAF8-7B3C-4F78-A98D-C8D919F23A88Q58371918-12F98053-A7C2-4DCF-B10E-7FBCAAC4AEDDQ58371929-547DE089-8C21-45C5-B9E5-FAE8A9878228Q58371937-8A440CE4-AFFF-47F3-8EDE-D083153052D2
P50
description
researcher, ORCID id # 0000-0003-2377-1214
@en
wetenschapper
@nl
name
Martin Oschatz
@ast
Martin Oschatz
@en
Martin Oschatz
@es
Martin Oschatz
@nl
type
label
Martin Oschatz
@ast
Martin Oschatz
@en
Martin Oschatz
@es
Martin Oschatz
@nl
altLabel
M. Oschatz
@en
prefLabel
Martin Oschatz
@ast
Martin Oschatz
@en
Martin Oschatz
@es
Martin Oschatz
@nl
P214
P1053
B-1239-2015
P106
P21
P214
P31
P3829
P496
0000-0003-2377-1214
P734
P735
P7859
viaf-315581678