about
Two-dimensional GaSe/MoSe2 misfit bilayer heterojunctions by van der Waals epitaxyDirect Measurement of Optical Force Induced by Near-Field Plasmonic Cavity Using Dynamic Mode AFM.Controlled vapor phase growth of single crystalline, two-dimensional GaSe crystals with high photoresponse.Casimir forces on a silicon micromechanical chip.Bias assisted scanning probe microscopy direct write lithography enables local oxygen enrichment of lanthanum cuprates thin films.Probing local bias-induced transitions using photothermal excitation contact resonance atomic force microscopy and voltage spectroscopy.Dimensionality Effects in FeGe2 Nanowires: Enhanced Anisotropic Magnetization and Anomalous Electrical Transport.Optical and infrared properties of glancing angle-deposited nanostructured tungsten films.Ion transport and softening in a polymerized ionic liquid.Space- and time-resolved mapping of ionic dynamic and electroresistive phenomena in lateral devices.Cavitation on deterministically nanostructured surfaces in contact with an aqueous phase: a small-angle neutron scattering study.Elemental analysis of bone: proton-induced X-ray emission testing in forensic cases.Silicon nanopillars as a platform for enhanced fluorescence analysis.Metasurface polarization splitter.Quantification of In-Contact Probe-Sample Electrostatic Forces with Dynamic Atomic Force Microscopy.Shaping the third-harmonic radiation from silicon nanodimers.Thickness-dependent charge transport in few-layer MoS₂ field-effect transistors.Edge States and Topological Phase Transitions in Chains of Dielectric Nanoparticles.Nanoscale pillar arrays for separations.Nonlinear Fano-Resonant Dielectric Metasurfaces.Direct atomic fabrication and dopant positioning in Si using electron beams with active real-time image-based feedback.Differentiating Ferroelectric and Nonferroelectric Electromechanical Effects with Scanning Probe Microscopy.Dielectric meta-reflectarray for broadband linear polarization conversion and optical vortex generation.Nanopillar Based Enhanced-Fluorescence Detection of Surface-Immobilized Beryllium.Exploring local electrostatic effects with scanning probe microscopy: implications for piezoresponse force microscopy and triboelectricity.Performance Characteristics of Bio-Inspired Metal Nanostructures as Surface-Enhanced Raman Scattered (SERS) SubstratesMultilayer Noninteracting Dielectric Metasurfaces for Multiwavelength MetaopticsSurface-Induced Orientation Control of CuPc Molecules for the Epitaxial Growth of Highly Ordered Organic Crystals on GrapheneAtom-by-atom fabrication by electron beam via induced phase transformationsProbing Local Ionic Dynamics in Functional Oxides at the NanoscaleDoping-Based Stabilization of the M2 Phase in Free-Standing VO2 Nanostructures at Room TemperatureDirect Probing of Charge Injection and Polarization-Controlled Ionic Mobility on Ferroelectric LiNbO3SurfacesNonlinear Phenomena in Multiferroic Nanocapacitors: Joule Heating and Electromechanical EffectsSurface Modification of Silicon Pillar Arrays To Enhance Fluorescence Detection of Uranium and DNA.Silicon nanopillars for field-enhanced surface spectroscopyLow-voltage, low-power, organic light-emitting transistors for active matrix displaysOn Field-Effect Photovoltaics: Gate Enhancement of the Power Conversion Efficiency in a Nanotube/Silicon-Nanowire Solar CellAll-dielectric metasurface analogue of electromagnetically induced transparencySlow light Mach-Zehnder interferometer as label-free biosensor with scalable sensitivityRetention in Porous Layer Pillar Array Planar Separation Platforms
P50
Q28834129-82052F7A-6F87-430B-95E5-88C4DD9E5112Q30398066-846252B6-8CCD-41D0-99D5-4ED2C3D6B602Q33820221-84FB0813-B7CF-4DD1-8A7C-45BBE53C8B0FQ34344639-95402199-5B57-493F-819E-4AE951B4D41FQ35710073-3C1498C5-58C2-4E4E-8CEA-CE58F86911F4Q39064505-DAA5F5EA-A8B0-4C05-BF73-FC76FA54AEEDQ41223356-8E01566A-6D15-481C-A718-2FC2F286732AQ41438969-991BE8EF-76AA-47D4-BA89-74F32D83BD05Q41739318-15D6E808-8B21-49CA-BE45-36FF13486419Q44773637-C479B872-D847-4F4E-92E8-63A9A95850A9Q44990116-5C4916C5-D6AB-4E84-A25A-8E13DD5E447DQ47583601-62094F6E-8F21-4818-BBCE-9DDBC2B10CDBQ47681569-3BFA8A7A-F8A2-467F-830C-4D8B237520D8Q47965069-BE00F986-C44A-453E-B313-18E9AA69491DQ48052233-BCE561E7-7ED7-420F-90A2-0FB71CAEAE37Q48291445-0B305468-7C62-49B4-99A4-C6D7C524E39CQ50663632-03E47D53-A1EA-4E1F-9178-E6AA788376BAQ51048426-5D2340FF-2A6E-4A10-8EED-F36BE1E7BEB7Q51495613-18992D6C-055A-4BBA-9388-B7FF163B5181Q51672697-E0B879AE-AF9C-42DF-B3D3-211878DB6966Q52607857-CD37E488-6B25-4948-86E9-9632854E654CQ53219230-7B41AB76-07C1-4491-9427-619F0A666DD3Q53618626-D91CAE4B-3252-4BD3-AE4F-51D67F923A8FQ53666378-3620AB54-A6C6-4904-862E-9F06D9B55DC4Q54483616-15916E65-EB51-4863-A4C0-4494A1C85015Q57155458-DDFF6087-87DF-4187-8B2E-3E5D278A6247Q58568077-869EE227-127F-47F1-859E-A4A56439EB91Q59447969-0EBEF1D2-6E2D-4A4B-BAB1-35E0EF0C6FAAQ61923203-0FE10D87-3715-4E6E-9851-59D179BD4DACQ62267829-27439FF0-B8FA-4848-8AE0-F4A17D617C3DQ62267832-2F13AD8F-3224-427A-A886-B6354956E369Q62854115-EA394456-355F-40D6-817C-5D397FB8C722Q62854705-12F4D68F-3934-4451-9875-205EB7FA4F4CQ64979195-E2A5BF0A-9D1B-4BDC-A270-273A088A5A9DQ83560802-274EF6BD-F5E8-4DCF-97A3-B99BC82971D5Q83993202-08A2D5D1-3D10-443A-9709-6546F793771EQ86095628-DED75026-E917-43F2-9A7B-F7F8981A8C02Q86298248-60B221F1-4E79-4417-ADB1-692EC5713619Q87282851-C198CF84-5BD1-44C0-A7CF-646415471838Q88097304-06340B7E-02AE-45E6-AEF8-EE7D8C332267
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ivan Kravchenko
@ast
Ivan Kravchenko
@en
Ivan Kravchenko
@es
Ivan Kravchenko
@fr
Ivan Kravchenko
@nl
Ivan Kravchenko
@sl
type
label
Ivan Kravchenko
@ast
Ivan Kravchenko
@en
Ivan Kravchenko
@es
Ivan Kravchenko
@fr
Ivan Kravchenko
@nl
Ivan Kravchenko
@sl
prefLabel
Ivan Kravchenko
@ast
Ivan Kravchenko
@en
Ivan Kravchenko
@es
Ivan Kravchenko
@fr
Ivan Kravchenko
@nl
Ivan Kravchenko
@sl
P1053
K-3022-2015
P106
P21
P31
P3829
P496
0000-0003-4999-5822