about
Self-assembly of functional, amphipathic amyloid monolayers by the fungal hydrophobin EASIn vitro studies of cells grown on the superconductor PrO(x)FeAs.Size-dependent Effects of Gold Nanoparticles on Osteogenic Differentiation of Human Periodontal Ligament Progenitor Cells.Novel reversible and switchable electrolytes based on magneto-rheologyInterleukin-10 inhibits bone resorption: a potential therapeutic strategy in periodontitis and other bone loss diseases.Toward ubiquitous environmental gas sensors-capitalizing on the promise of graphene.Carbon nanomaterials in biosensors: should you use nanotubes or graphene?Diatoms: self assembled silica nanostructures, and templates for bio/chemical sensors and biomimetic membranes.Bio-conjugation of antioxidant peptide on surface-modified gold nanoparticles: a novel approach to enhance the radical scavenging property in cancer cellMolecularly engineered graphene surfaces for sensing applications: A review.Attenuated Total Reflectance Fourier Transform Infrared Spectroscopy: An analytical technique to understand therapeutic responses at the molecular level.Synthesis and characterization of surface-enhanced Raman-scattered gold nanoparticlesSurface functionalization of carbon nanomaterials by self-assembling hydrophobin proteins.The Influence of Inflammatory Cytokines on the Proliferation and Osteoblastic Differentiation of MSCs.New Gold Nanostructures for Sensor Applications: A Review.Ionic Liquid-assisted Synthesis of Polyaniline/Gold Nanocomposite and Its Biocatalytic Application.Atom probe microscopy of self-assembled monolayers: preliminary results.Controllable corrugation of chemically converted graphene sheets in water and potential application for nanofiltration.Sub-ppt detection limits for copper ions with Gly-Gly-His modified electrodes.Exploring the use of the tripeptide Gly-Gly-his as a selective recognition element for the fabrication of electrochemical copper sensors.Ball milling: a green mechanochemical approach for synthesis of nitrogen doped carbon nanoparticles.Stepwise synthesis of Gly-Gly-His on gold surfaces modified with mixed self-assembled monolayers.Self-assembly of core-satellite gold nanoparticles for colorimetric detection of copper ions.Effect of Different Binders on the Electrochemical Performance of Metal Oxide Anode for Lithium-Ion Batteries.Transforming doxorubicin into a cancer stem cell killer via EpCAM aptamer-mediated delivery.Characterization and Molecular Mechanism of Peptide-Conjugated Gold Nanoparticle Inhibiting p53-HDM2 Interaction in Retinoblastoma.DNAzyme Based Nanomachine for in Situ Detection of MicroRNA in Living Cells.MXene: a potential candidate for yarn supercapacitors.Attachment of magnetic molecules on a nanoSQUID.Novel sphene coatings on Ti-6Al-4V for orthopedic implants using sol-gel method.Wafer-scale fabrication of a Cu/graphene double-nanocap array for surface-enhanced Raman scattering substrates.Design of Enzyme Micelles with Controllable Concavo-Convex Micromorphologies for Highly Enhanced Stability and Catalytical Activity.One-Step Synthesis of Boron Nitride Quantum Dots: Simple Chemistry Meets Delicate Nanotechnology.Human β-defensin 3-combined gold nanoparticles for enhancement of osteogenic differentiation of human periodontal ligament cells in inflammatory microenvironments.A biomimetic sensor for the detection of lead in water.Fast colorimetric detection of copper ions using L-cysteine functionalized gold nanoparticles.Self-supported Cu(OH)2@Co2CO3(OH)2 core-shell nanowire array as a robust catalyst for ammonia-borane hydrolysis.Graphene-Oxide-Based Enzyme Nanoarchitectonics for Substrate Channeling.Quantifying the Tunable Conjugated Area of Graphene Oxide by Using Pyrene as a Fluorescent Probe.Electrochemical synthesis of fractal bimetallic Cu/Ag nanodendrites for efficient surface enhanced Raman spectroscopy.
P50
Q27677102-D6E2B635-D87B-41B1-90C2-414DBE76A593Q33403960-4D9CBA13-446D-4362-8832-F5E86BE33192Q33588200-56ABE000-CB8F-4184-89A4-CA1F4D7B0E1EQ36192999-7FDA70B5-3980-4F40-9448-2D307C3094DDQ37626939-BED71F64-708A-480E-86F0-B2D66FDA07CEQ37680929-4825B005-76A6-4EBC-A054-1B71A8ECF9F3Q37699126-DBDA63B0-EB77-4CDD-B157-C0AFFCDB3751Q37798736-8948DF47-042C-4B67-A740-407C65F89F0EQ38328095-3809870B-400F-4EEE-8B6B-9DC74625FF13Q38333016-984D7783-587F-4B03-9F78-D5B5F5B0A19BQ38819542-B388BB57-FAB1-4BC3-BC34-4BF9BFAFD04AQ39062943-75609EB5-DDB4-40B8-B61E-7DFD496968B3Q39253738-7FAD296E-44E0-41F5-8690-51CDA0C5E2CEQ39293980-34EF288A-0711-4798-81DA-3009E2FE03E1Q42227542-9D1EDCEB-B6BA-446E-B80E-ED1742E7EAB2Q42574969-62D21995-7CF8-44DE-89D8-0C1C99CD70BBQ43125292-6A0C5551-A708-4FFE-9C4E-894D11C34354Q43328507-E0244F5C-0B39-43B9-B944-939616AEFD1BQ44143879-7FADDDF9-6A30-493D-8D3F-78DED17A9D1BQ44515791-1E5E9FD1-E135-456C-9802-D60A591D5EFFQ44856483-4F27CAD7-3625-43FE-A583-F49E3936777EQ45202465-2EDF2CC4-6853-4BF1-898A-CB85DA924A39Q45771785-A94735A1-0A86-4025-8732-587EA51AA985Q47096227-F3A756A2-AA1E-481D-ADA6-D8434A047ECBQ47108689-80CE83DC-88CB-4846-B5DA-AB332E50C0FBQ47132240-7AB669B2-7045-409F-8C12-2C792EFC73BAQ47307907-5FDE212D-A554-41DA-9908-9805D44D94B0Q47321481-89BAD494-040B-4D11-B93C-13E81D25C12AQ47581538-12703B30-AB13-49F6-AB4C-1EE94E0762A2Q47985926-C269BD7A-6BE8-4870-B797-3E9F4115D257Q48163380-BED3680E-350E-4656-BA80-A6EBD35C2F88Q48245288-AA59D426-2199-4162-A573-F81FA757E5E3Q48921040-7B2D38B9-E505-4A63-A990-507FEE83C0E7Q50054792-88E3F80A-4B81-4B5B-9410-EC247B8969E9Q50219960-F47BFA11-B6EA-471B-BB9C-7594BB6DF0A5Q50469705-0C465E1A-C434-4357-8AAE-837782B368E2Q50997627-E40F3720-D7A6-43C8-9B91-ED4E50BC7411Q51024667-12058D20-9E74-4E18-BEFA-C61129F48024Q51130166-6D3504DB-2783-4899-89C2-D82690FC2720Q51201415-7DE81428-AC18-4EBE-B09C-891AC1415700
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Wenrong Yang
@ast
Wenrong Yang
@en
Wenrong Yang
@es
Wenrong Yang
@nl
type
label
Wenrong Yang
@ast
Wenrong Yang
@en
Wenrong Yang
@es
Wenrong Yang
@nl
prefLabel
Wenrong Yang
@ast
Wenrong Yang
@en
Wenrong Yang
@es
Wenrong Yang
@nl
P106
P31
P496
0000-0001-8815-1951