about
Direct TEM observations of growth mechanisms of two-dimensional MoS2 flakes.Enhanced Photocatalytic Activity of WS2 Film by Laser Drilling to Produce Porous WS2/WO3 HeterostructureNonstoichiometric acid-base reaction as reliable synthetic route to highly stable CH3NH3PbI3 perovskite film.Tuneable complementary metamaterial structures based on graphene for single and multiple transparency windows.Preparation and characterization of few-layer MoS2 nanosheets and their good nonlinear optical responses in the PMMA matrix.High-power passively mode-locked Nd:YVO(4) laser using SWCNT saturable absorber fabricated by dip coating method.The WS2 quantum dot: preparation, characterization and its optical limiting effect in polymethylmethacrylate.Phase and Facet Control of Molybdenum Carbide Nanosheet Observed by In Situ TEM.Controllable Growth of Large-Size Crystalline MoS2 and Resist-Free Transfer Assisted with a Cu Thin FilmHigh-responsivity UV-Vis Photodetector Based on Transferable WS2 Film Deposited by Magnetron SputteringThe FaceBase Consortium: a comprehensive resource for craniofacial researchers.Two-dimensional material membranes: an emerging platform for controllable mass transport applications.Real-Time Observation of the Electrode-Size-Dependent Evolution Dynamics of the Conducting Filaments in a SiO2 Layer.Synthesis and interface characterization of CNTs on graphene.Cellular and molecular mechanisms of tooth root development.Review on mechanism of directly fabricating wafer-scale graphene on dielectric substrates by chemical vapor deposition.Ultrahigh mobility and efficient charge injection in monolayer organic thin-film transistors on boron nitride.Nanodiode based on a multiwall CN(x)/carbon nanotube intramolecular junction.The Dlx5-FGF10 signaling cascade controls cranial neural crest and myoblast interaction during oropharyngeal patterning and development.Distinctive in-Plane Cleavage Behaviors of Two-Dimensional Layered Materials.BMP signaling orchestrates a transcriptional network to control the fate of mesenchymal stem cells in mice.Mass transport mechanism of cu species at the metal/dielectric interfaces with a graphene barrier.Graphene-Draped Semiconductors for Enhanced Photocorrosion Resistance and Photocatalytic Properties.Constructing Interfacial Energy Transfer for Photon Up- and Down-Conversion from Lanthanides in a Core-Shell Nanostructure.Investigation of chemical vapour deposition MoS2 field effect transistors on SiO2 and ZrO2 substrates.High-Electron-Mobility and Air-Stable 2D Layered PtSe2 FETs.Effect of improved contact on reliability of sub-60 nm carbon nanotube vias.Perovskite Photovoltachromic Supercapacitor with All-Transparent Electrodes.Extraordinarily Strong Interlayer Interaction in 2D Layered PtS2.Infrared light gated MoS₂ field effect transistor.Modulation of the Reduction Potential of TiO2- x by Fluorination for Efficient and Selective CH4 Generation from CO2 Photoreduction.Gate voltage dependent characteristics of p-n diodes and bipolar transistors based on multiwall CN(x)/carbon nanotube intramolecular junctions.Kinetically controlled synthesis of large-scale morphology-tailored silver nanostructures at low temperature.High electromigration-resistant copper/carbon nanotube composite for interconnect applicationEffects of surface roughness of Ag thin films on surface-enhanced Raman spectroscopy of graphene: spatial nonlocality and physisorption strainAdvances in Two-Dimensional Layered Materials2D Layered Materials of Rare-Earth Er-Doped MoS2 with NIR-to-NIR Down- and Up-Conversion PhotoluminescenceStretchable all-solid-state supercapacitor with wavy shaped polyaniline/graphene electrodeHighly impermeable and transparent graphene as an ultra-thin protection barrier for Ag thin filmsControllable parabolic lensed liquid-core optical fiber by using electrostatic force
P50
Q27335390-5B29DB4F-8612-49FE-BCD4-4461D9A0D48DQ33784429-FB383981-6D40-442E-BC07-A38BC4AA10C1Q33813387-EF8291B8-00D8-4E30-B125-2BFE6E00509EQ34077044-9E752F52-2CC8-4062-8C40-C72BA69C5AC7Q35201282-1CC54F5B-F706-449C-896B-056E72E59825Q35593886-73DC25BA-C2BD-48A5-9C59-5FD84FA01209Q36126908-7EF4E0D1-9364-435E-859E-21F42896412EQ36365592-65771C71-3659-4BD9-BB6F-0AB1CE947CCCQ36388866-438420B3-144A-41A5-B949-AA1418F7C04FQ36516953-1169082E-8E45-402F-A166-324CC94913BCQ37120516-AC5739E1-8E62-413E-8234-5BEF15A22385Q38248101-77E3D14D-268E-42A1-8586-9EC66B54F730Q38742825-7E66E8A8-F51B-4455-A6E1-49C4526CDDB5Q38777306-35CC6EFD-65E6-4825-804A-8C27693EF71CQ39112409-5521E074-1E21-4C27-9AD8-66B8BAE5E4D4Q39226154-271623EC-E4FF-4D77-8C8E-DF35D3B58F35Q41633521-7C9DEB6B-D866-46C3-AFDB-AB0D8A6B30D0Q42917392-568E8E4A-BA7E-4142-93EA-BD860B310F7DQ46019906-D3F64B52-C25C-45DA-9939-AFA08489EBCBQ46261105-028A9EFD-6401-4985-AB64-E472DF3770AEQ46448138-63EE93D9-CD5E-44CB-B0C6-C53A1F93A50AQ46810643-4000EF0D-7B1E-48E7-BE48-60ED3F8698B0Q48198193-F705B380-55F6-4B66-A490-843424077B35Q50789073-575EE2B0-8E1E-4C49-9297-8EE808F394E8Q50949639-24BB02FD-365A-4000-B660-06B95B3E43E2Q51093129-E070757B-57C2-40CB-81C6-8DEEDBF04019Q51218348-139A8C92-4D58-4122-BD3F-04429A3990A9Q51339939-6D63632D-B39B-45C9-A3E5-8C2261220EAAQ51539252-0BAA86C9-4032-4A57-8DD3-14D4147E3519Q51594644-7132CC04-ADAE-4174-BE87-B816B9A8A28AQ52928855-BD3980AA-4C2B-42CA-8551-0B1AED8CA07FQ53086281-F8F6184D-A4D6-41D6-84CE-0CC0E4E06FD2Q53406346-1E9BC749-5192-4316-BF01-38EBFFF98536Q56805011-9280B958-14A1-4352-ACCB-3E037991F0CAQ57165181-68688BFA-2C38-4262-9B13-9C93E8E5CB51Q57759478-A13136B6-9608-4968-BEA9-E1155C30E2F5Q57826525-EBEE8A0F-40E9-4AB4-B213-7509F3052254Q57826684-2D87B217-2ACC-4791-96AA-1034F2E7636FQ57826742-53E8E58A-61B9-4A84-8832-D8F2F87166DCQ57979853-0C4F04D8-7D14-4453-82C4-2B75198B29B2
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Yang Chai
@ast
Yang Chai
@en
Yang Chai
@es
Yang Chai
@nl
Yang Chai
@sl
type
label
Yang Chai
@ast
Yang Chai
@en
Yang Chai
@es
Yang Chai
@nl
Yang Chai
@sl
prefLabel
Yang Chai
@ast
Yang Chai
@en
Yang Chai
@es
Yang Chai
@nl
Yang Chai
@sl
P106
P1153
36016301200
P31
P496
0000-0002-8943-0861