about
Ceria/silicon carbide core-shell materials prepared by miniemulsion technique.New-Generation Graphene from Electrochemical Approaches: Production and Applications.Few-layer graphene shells and nonmagnetic encapsulates: a versatile and nontoxic carbon nanomaterial.Monitoring adsorption-induced switching by (129)Xe NMR spectroscopy in a new metal-organic framework Ni(2)(2,6-ndc)(2)(dabco).Metal-organic framework (MOF) aerogels with high micro- and macroporosity.Nanoporous and highly active silicon carbide supported CeO₂-catalysts for the methane oxidation reaction.Scalable Fabrication and Integration of Graphene Microsupercapacitors through Full Inkjet Printing.Ultrafast Delamination of Graphite into High-Quality Graphene Using Alternating Currents.A Delamination Strategy for Thinly Layered Defect-Free High-Mobility Black Phosphorus Flakes.Regulation and standardization of data protection in cloud computingFlexible All-Solid-State Supercapacitors with High Volumetric Capacitances Boosted by Solution Processable MXene and Electrochemically Exfoliated GrapheneVertically oriented cobalt selenide/NiFe layered-double-hydroxide nanosheets supported on exfoliated graphene foil: an efficient 3D electrode for overall water splittingHopcalite nanoparticle catalysts with high water vapour stability for catalytic oxidation of carbon monoxideSpeeding Up Chemisorption Analysis by Direct IR-Heat-Release Measurements (Infrasorp Technology): A Screening Alternative to Breakthrough MeasurementsA hard-templating route towards ordered mesoporous tungsten carbide and carbide-derived carbonsA new route for the preparation of mesoporous carbon materials with high performance in lithium–sulphur battery cathodesElectroless copper deposition on (3-mercaptopropyl)triethoxysilane-coated silica and alumina nanoparticlesHighly porous nitrogen-doped polyimine-based carbons with adjustable microstructures for CO2 captureImine-Linked Polymer-Derived Nitrogen-Doped Microporous Carbons with Excellent CO2 Capture PropertiesMagnetic mesoporous bioactive glass scaffolds: preparation, physicochemistry and biological propertiesPreparation of cubic ordered mesoporous silicon carbide monoliths by pressure assisted preceramic polymer nanocastingOrdered mesoporous carbide-derived carbons prepared by soft templatingFine tuning of the metal–organic framework Cu3(BTC)2 HKUST-1 crystal size in the 100 nm to 5 micron rangeFungi-based porous carbons for CO2 adsorption and separationStructural flexibility and intrinsic dynamics in the M2(2,6-ndc)2(dabco) (M = Ni, Cu, Co, Zn) metal–organic frameworksSynthesis, characterization, and hydrogen storage capacities of hierarchical porous carbide derived carbon monolithTransition metal loaded silicon carbide-derived carbons with enhanced catalytic propertiesA highly porous flexible Metal–Organic Framework with corundum topologyHeating and separation using nanomagnet-functionalized metal–organic frameworksA Highly Porous Metal-Organic Framework with Open Nickel SitesCarbon Nanoparticles' Impact on Processability and Physical Properties of Epoxy Resins-A Comprehensive Study Covering Rheological, Electrical, Thermo-Mechanical, and Fracture Properties (Mode I and II)Wet-Chemical Assembly of 2D Nanomaterials into Lightweight, Microtube-Shaped, and Macroscopic 3D NetworksOxidation promoted osmotic energy conversion in black phosphorus membranes
P50
Q38672205-DF535A3F-E3D7-498E-A6FA-235A525C6A96Q38913130-5075EBA2-1D14-4842-B709-54B208B1B3F5Q39064682-8F60DE49-B961-4D6D-8C97-E6AFA6755169Q42943145-B67FC9C8-6172-476F-A5BD-54E4D1BEC27BQ43266000-EFEDB87E-A00C-4D46-906A-F54656CF6C25Q45199756-db584026-474b-7800-8491-941e1ae9bbb6Q48166594-0835665A-5A5D-46CD-ACBC-6D109F0AD45EQ48200867-05D4BE99-E844-43D6-89DC-2A4B9A543ED8Q52688224-00AE5424-189B-4944-93BE-8CD2E03F23D8Q57917412-72e1807e-48f8-84a5-8ac8-66a009470e0eQ58338122-c5015a11-464c-28bd-bd07-60fe0ae4f535Q58338232-e55999fd-4a1c-ab29-c87c-1021443c77a6Q58371763-537b2d73-4299-b6e1-65c6-af9e61ce3fffQ58371797-8d4c479b-444e-b286-46c1-2035514d60ceQ58371878-b731db23-4f23-31a1-a8ac-f31a1ce0d4b1Q58371976-c60dac83-43a8-3058-632a-a2c264c877e3Q58371982-1577726f-41ab-c945-1485-1a2374416c94Q58371990-a896323e-401b-2f69-7631-ee93df1ba0efQ58371991-8835c3c9-405f-b561-6064-4459652f8319Q58371995-f9b6938a-4e21-120e-805a-493a0ef3a0d1Q58371998-ad62528e-4e03-1403-a673-84e843c8a370Q58372009-87DEAE64-24C1-4A97-8DE9-4E5DD225DE2BQ58372025-002415d3-4056-cb35-ecb1-8989e86e7363Q58372027-78e5f87e-4ca8-dbd4-0e8e-df4f82726ff7Q58372057-edd6450b-4a31-4a87-ff4e-8160392a15edQ58372060-f4eb0788-4a57-dc41-1321-0da207a70b90Q58372071-11978f5e-4917-4f9d-15c5-4020e98da2b8Q58372100-841abea8-4289-6acc-d47f-70dfa85755e6Q58372116-F2B39B04-949D-4315-A7DB-64C2769B5DC3Q58372162-661caf98-4264-082c-77cf-a12492aab96cQ64265631-C44EA88C-D54C-46A1-A8C0-FB5D70F991C0Q91109823-82846D00-6290-438A-A8A3-5E96FA5327E9Q96229673-9E5B38B6-D44F-4400-8139-92872F58A11A
P50
description
hulumtues
@sq
researcher
@en
ricercatore
@it
scheikundige
@nl
taighdeoir
@ga
հետազոտող
@hy
name
Martin R Lohe
@en
Martin R Lohe
@es
Martin R Lohe
@nl
Martin R Lohe
@sl
Martin Rudolf Lohe
@de
type
label
Martin R Lohe
@en
Martin R Lohe
@es
Martin R Lohe
@nl
Martin R Lohe
@sl
Martin Rudolf Lohe
@de
prefLabel
Martin R Lohe
@en
Martin R Lohe
@es
Martin R Lohe
@nl
Martin R Lohe
@sl
Martin Rudolf Lohe
@de
P214
P227
P1053
K-9269-2017
P19
P21
P214
P227
1050969693
P31
P3829
P496
0000-0001-5458-779X
P569
1986-01-01T00:00:00Z
P735
P7859
viaf-308220582