about
In-situ Quasi-Instantaneous e-beam Driven Catalyst-Free Formation Of Crystalline Aluminum Borate NanowiresIn situ observations of fullerene fusion and ejection in carbon nanotubesMicroscopic insight into the bilateral formation of carbon spirals from a symmetric iron core.Confined crystals of the smallest phase-change material.Novel catalysts, room temperature, and the importance of oxygen for the synthesis of single-walled carbon nanotubes.Preparation of organovermiculites using HDTMA: structure and sorptive properties using naphthalene.Atomic structure of interconnected few-layer graphene domains.Direct Chemical Vapor Deposition-Derived Graphene Glasses Targeting Wide Ranged Applications.Growing Uniform Graphene Disks and Films on Molten Glass for Heating Devices and Cell Culture.Stranski-Krastanov and Volmer-Weber CVD Growth Regimes to Control Stacking Order in Bilayer Graphene.Unravelling the mechanisms behind mixed catalysts for the high yield production of single-walled carbon nanotubes.The polycyclic aromatic hydrocarbon concentrations in soils in the Region of Valasske Mezirici, the Czech Republic.High-performance field effect transistors from solution processed carbon nanotubes.Electron paramagnetic resonance investigation of purified catalyst-free single-walled carbon nanotubes.Understanding the growth of amorphous SiO2 nanofibers and crystalline binary nanoparticles produced by laser ablation.Direct in situ observations of single Fe atom catalytic processes and anomalous diffusion at graphene edges.A cheap and quickly adaptable in situ electrical contacting TEM sample holder design.Low voltage transmission electron microscopy of graphene.Synthesis of carbon nanotubes with and without catalyst particlesSilicon carbide-free graphene growth on silicon for lithium-ion battery with high volumetric energy density.High Power Q-Switched Thulium Doped Fibre Laser using Carbon Nanotube Polymer Composite Saturable Absorber.Electron-Driven Metal Oxide Effusion and Graphene Gasification at Room Temperature.Two-dimensional membrane as elastic shell with proof on the folds revealed by three-dimensional atomic mapping.CVD growth of large area smooth-edged graphene nanomesh by nanosphere lithographyDispersibility of vapor phase oxygen and nitrogen functionalized multi-walled carbon nanotubes in various organic solvents.Twinned growth behaviour of two-dimensional materialsCVD-grown horizontally aligned single-walled carbon nanotubes: synthesis routes and growth mechanisms.Ultrafast Self-Limited Growth of Strictly Monolayer WSe2 Crystals.Current Progress in the Chemical Vapor Deposition of Type-Selected Horizontally Aligned Single-Walled Carbon Nanotubes.Electron-beam induced synthesis of nanostructures: a review.Few-layer graphene shells and nonmagnetic encapsulates: a versatile and nontoxic carbon nanomaterial.Synthesis and toxicity characterization of carbon coated iron oxide nanoparticles with highly defined size distributions.Graphene: Piecing it together.Graphene Coating of Silicon Nanoparticles with CO2 -Enhanced Chemical Vapor Deposition.Controllable Sliding Transfer of Wafer-Size Graphene.Growth of all-carbon horizontally aligned single-walled carbon nanotubes nucleated from fullerene-based structures.Monitoring microbial metabolites using an inductively coupled resonance circuit.High-mobility graphene on liquid p-block elements by ultra-low-loss CVD growth.Dispersion and diameter separation of multi-wall carbon nanotubes in aqueous solutions.Atomic resolution imaging and topography of boron nitride sheets produced by chemical exfoliation.
P50
Q27334612-29B3C700-AC32-4145-A887-DAB561F25E1DQ28290708-5F8BA12D-A698-4AD5-A2E5-AC0EF040BF8FQ30539761-D05AD6A8-6627-495F-A61B-56933BFE11B4Q30548793-3991B531-B3AA-4579-9BAF-B4A909807473Q33223776-FB3F157F-D51A-4CA6-BA89-68F0194C5837Q33369256-1497D83D-7BDD-40DF-B07E-5303ADFA04E7Q33451458-A4F63867-7053-48BC-B627-B32EB39EF8A9Q33465897-ABB13EA9-5C19-4EB3-A344-04B5E05CCF00Q33466377-7A41C6DA-7845-4675-9FF9-3FDE6453A069Q33468880-D8CA8388-00DD-4D61-A4CA-265DC4B99525Q33514531-24E25413-03B9-466E-ABC2-C1F0AB705E73Q33517981-1A80E76C-991E-4F8F-A996-611170A6DEC5Q33722379-DD4AA094-813D-4F26-AC8A-39C05E3E3C7EQ33748780-E3835876-05A1-487C-896F-291571F97E76Q34102406-06F2F72C-63E5-4CE2-BC66-A586F9854566Q34480839-AA509A97-03CE-4CE0-B764-C01642F1D8DAQ35089419-64986624-98E6-458F-AF2D-6100C028BE34Q35435322-77E58109-DC04-4C5B-92A8-C74B4DA2AFBDQ35536908-351FE48C-7601-49BF-861A-3B797FE82D14Q35816650-EABF2BC7-3CC4-4CC4-A3BD-CE7520ED940EQ35985216-81BF4FAA-7CF5-4C15-AF40-303AC1CC8D12Q36027855-3B494E74-5326-44DD-B456-8FD56BD9D3C5Q36358105-287207F1-C11E-47B3-90A6-46F92D47A3D8Q36593397-6D2EFD47-581C-4089-8C4C-A229785E6558Q36910753-DD7BDCB6-7EF4-4BA9-81FC-62792720E700Q37533337-13FBE7A3-2774-4F15-A04C-61449C3391D3Q38012428-664C0A7D-8F32-47F3-9F9D-A3191B9852F1Q38801015-476FE821-B69E-4370-A42A-DA84D24CEE3CQ38840790-43FFA23F-DE6A-4D8A-8541-2B6A2D85C992Q38841205-BBF3DBDB-5891-4E32-A64B-477620E921A4Q39064682-B5C49860-3C82-4BD1-A8AC-95E1D0E0767FQ39355064-3CE864FB-5D18-46F2-B025-099B840CD2D7Q39684714-D4259057-F6CB-4688-AEA1-B1482547F105Q40337380-87CDAB6C-965E-43D8-8135-E389A03DF5D9Q41205005-C3C3001F-F2A3-40EF-962C-8C123D3587D8Q41839009-8E078F22-5790-4EE5-A7C6-5778A02521DCQ42434434-E1770A0A-9CF5-4A19-8524-56712A08537AQ42618043-D3FF9FFE-11CC-4CAB-9BE4-054B5A69CD7FQ43155869-DF90605C-0763-48B2-971B-D2195E1D4D1FQ43165603-80AB74AB-0739-42A8-89D0-3C824A0CB00A
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Mark H. Rümmeli
@ast
Mark H. Rümmeli
@en
Mark H. Rümmeli
@es
Mark H. Rümmeli
@nl
Mark H. Rümmeli
@sl
type
label
Mark H. Rümmeli
@ast
Mark H. Rümmeli
@en
Mark H. Rümmeli
@es
Mark H. Rümmeli
@nl
Mark H. Rümmeli
@sl
prefLabel
Mark H. Rümmeli
@ast
Mark H. Rümmeli
@en
Mark H. Rümmeli
@es
Mark H. Rümmeli
@nl
Mark H. Rümmeli
@sl
P108
P106
P1153
8377135100
P21
P31
P496
0000-0003-3736-6439