about
Role of scaffold network in controlling strain and functionalities of nanocomposite filmsReal-Time and Label-Free Chemical Sensor-on-a-chip using Monolithic Si-on-BaTiO3 Mid-Infrared waveguidesStrongly enhanced oxygen ion transport through samarium-doped CeO2 nanopillars in nanocomposite filmsSelf-assembled Co-BaZrO3 nanocomposite thin films with ultra-fine vertically aligned Co nanopillars.Self-assembled oxide films with tailored nanoscale ionic and electronic channels for controlled resistive switching.High-velocity projectile impact induced 9R phase in ultrafine-grained aluminium.Controlled Growth of a Large-Size 2D Selenium Nanosheet and Its Electronic and Optoelectronic Applications.Novel Layered Supercell Structure from Bi2AlMnO6 for Multifunctionalities.Microstructure, Magnetic, and Magnetoresistance Properties of La0.7Sr0.3MnO3:CuO Nanocomposite Thin Films.Very high commutation quality factor and dielectric tunability in nanocomposite SrTiO3 thin films with Tc enhanced to >300 °C.High temperature deformability of ductile flash-sintered ceramics via in-situ compression.Nanoscale Artificial Plasmonic Lattice in Self‐Assembled Vertically Aligned Nitride–Metal Hybrid Metamaterials.Tailorable Au Nanoparticles Embedded in Epitaxial TiO Thin Films for Tunable Optical PropertiesAll-oxide Nanocomposites to Yield Large, Tunable Perpendicular Exchange Bias above Room Temperature3D strain-induced superconductivity in LaCuO using a simple vertically aligned nanocomposite approachDesign of a Vertical Composite Thin Film System with Ultralow Leakage To Yield Large Converse Magnetoelectric EffectNanoscale stacking fault-assisted room temperature plasticity in flash-sintered TiO2Large-Scale Plasmonic Hybrid Framework with Built-In Nanohole Array as Multifunctional Optical Sensing PlatformsNovel layered Bi3MoMTO9 (MT = Mn, Fe, Co and Ni) thin films with tunable multifunctionalitiesAdvanced Thin Film Cathodes for Lithium Ion BatteriesPerovskite Transparent Conducting Oxide for the Design of a Transparent, Flexible, and Self-Powered Perovskite PhotodetectorSelf-Assembled Ordered Three-Phase Au-BaTiO3 -ZnO Vertically Aligned Nanocomposites Achieved by a Templating MethodIntegration of Hybrid Plasmonic Au-BaTiO3 Metamaterial on Silicon SubstratesBreaking Lattice Symmetry in Highly Strained Epitaxial VO2 Films on Faceted NanosurfaceThick grain boundary induced strengthening in nanocrystalline Ni alloyTwo-Phase Room-Temperature Multiferroic Nanocomposite with BiMnO3-Tilted Nanopillars in the Bi2W1-xMnxO6 MatrixAchieving ferromagnetic insulating properties in La0.9Ba0.1MnO3 thin films through nanoengineeringSolar-Blind UV Photodetector Based on Atomic Layer-Deposited Cu2O and Nanomembrane β-Ga2O3 pn Oxide HeterojunctionRoom-Temperature Electrocaloric Effect in Layered Ferroelectric CuInP2S6 for Solid-State RefrigerationMagnetic signatures of 120 K superconductivity at interfaces in La2CuO4+δVertical Strain-Driven Antiferromagnetic to Ferromagnetic Phase Transition in EuTiO3 Nanocomposite Thin FilmsSurface Functionalization of Layered Molybdenum Disulfide for the Selective Detection of Volatile Organic Compounds at Room TemperatureMultifunctional La0.67Sr0.33MnO3 (LSMO) Thin Films Integrated on Mica Substrates toward Flexible Spintronics and ElectronicsRoom-temperature Ferroelectric LiNb6Ba5Ti4O30 Spinel Phase in Nanocomposite Thin Film Form for Nonlinear PhotonicsNanoengineering room temperature ferroelectricity into orthorhombic SmMnO3 films
P50
Q30054530-7C80AB81-5D1B-46D9-9AA4-BD196B6A8A1DQ33918994-51E33A13-1328-4E4F-943A-025B575F1809Q36250841-F81A5978-6C69-49C2-8396-89B1980E65DFQ36390518-E3D890DF-9A6A-45A4-8EAA-495F87E9F38AQ37166176-C938CCD0-A1B2-4F80-8E96-396B855169BCQ47100755-35DEB2FE-30E3-416A-9C7B-CE7837486877Q47185793-BA4EB9D5-8489-413B-A7B6-B2B69D7C4878Q47610385-79683B5E-F4D9-4B03-B880-46E0DC679C0DQ48183887-1869ED78-4789-44FF-BF60-281AD995F8E7Q49985493-16B28F05-7C91-4EDB-8258-6011197B8983Q55035646-A724323C-BEB6-4668-9332-CC59C2A5CFCFQ55717393-D5BD8B04-299C-4604-9DD7-E10326A52A0BQ57148845-65F9A0F6-9DDD-42F2-8656-154A55DCA48DQ58609103-98DF21C8-22CA-4328-A5EC-651DA3BBEC17Q64086767-8B6B04EE-8CA6-4BC3-B617-D5D0E6E4819DQ88586685-C8EA665F-A145-48C2-ADE7-17759D0A17B0Q89668794-CD9A24C7-1592-4D37-83CD-9BAC70F6634EQ89772931-EDD95CB5-0E98-4231-8312-B2D14817BA1CQ89927448-0A31D367-CF67-474B-90C1-5246AE9E0DA5Q89943333-02A73B12-8F6E-4844-8898-4647C20493A8Q90463368-98BF9F65-9846-4154-B878-0A2EEED4E1B7Q90690412-EB86505B-EB35-4236-9B98-24FB0F79122AQ91182629-7444CB26-3394-47D1-A05F-0108346774DCQ91322378-C03628F5-D2BA-47B0-8CE0-FF14E1AFB932Q91678100-0C777F2D-D1EF-4368-ADE8-410CCCD3FBB0Q91703349-823A3EEC-0A06-43CE-9255-AE1F885A8476Q92074947-B7D470B9-56C9-4194-920D-C3B258A17ABAQ92135422-F8E93741-8035-4614-9303-D151A83B89ADQ92368633-B3E530A2-514B-40C8-9D1F-193B6A3145BFQ92843005-36C3613F-DC7D-43B7-9B89-CAE895820400Q92873686-C929E003-FDE2-45A6-B808-9AF928C04BCDQ92896020-414C4F66-9D30-480E-8209-21C9C46B0213Q93067171-66612F97-3C5C-47D2-B498-F5920B0FDB93Q93264240-C9C5ADCB-542E-48D4-B825-251D3D4E278FQ94553923-3BE487DF-879C-41B1-9281-AC61D097405D
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Haiyan Wang
@ast
Haiyan Wang
@en
Haiyan Wang
@es
Haiyan Wang
@nl
Haiyan Wang
@sl
type
label
Haiyan Wang
@ast
Haiyan Wang
@en
Haiyan Wang
@es
Haiyan Wang
@nl
Haiyan Wang
@sl
prefLabel
Haiyan Wang
@ast
Haiyan Wang
@en
Haiyan Wang
@es
Haiyan Wang
@nl
Haiyan Wang
@sl
P108
P214
P1053
P-3550-2014
P106
P214
P31
P3829
P496
0000-0002-7397-1209
P7859
viaf-194152067