about
Acceleration of alpha-synuclein aggregation by homologous peptidesFluorescent-magnetic hybrid nanoparticles induce a dose-dependent increase in proinflammatory response in lung cells in vitro correlated with intracellular localization.DC-SIGN and influenza hemagglutinin dynamics in plasma membrane microdomains are markedly different.Polymer-coated nanoparticles: a universal tool for biolabelling experiments.Quantification of the internalization patterns of superparamagnetic iron oxide nanoparticles with opposite charge.Ecotoxicity and uptake of polymer coated gold nanoparticles.Quantitative analysis of the protein corona on FePt nanoparticles formed by transferrin bindingWrapping nanocrystals with an amphiphilic polymer preloaded with fixed amounts of fluorophore generates FRET-based nanoprobes with a controlled donor/acceptor ratio.Ion and pH sensing with colloidal nanoparticles: influence of surface charge on sensing and colloidal properties.Gold-Embedded Hollow Silica Nanogolf Balls for Imaging and Photothermal Therapy.Study on physisorption between G-actin and amphiphilic polymer-coated gold nanoparticles.Single-molecule imaging of DNA polymerase I (Klenow fragment) activity by atomic force microscopy.Denaturation of dsDNA Induced by Specific Major Groove Binding of Cadmium Ion to Thymine.Epitaxial Growth of Peptide Nanofilaments on Inorganic Surfaces: Effects of Interfacial Hydrophobicity/HydrophilicityMultifunctional Nanoparticles for Dual ImagingIn vitro and intracellular sensing by using the photoluminescence of quantum dotsRatiometric Optical Sensing of Chloride Ions with Organic Fluorophore-Gold Nanoparticle Hybrids: A Systematic Study of Design Parameters and Surface Charge EffectsStudy of the disassembly-assembly process of alpha-synuclein fibrils by in situ atomic force microscopySecondary structural formation of alpha-synuclein amyloids as revealed by g-factor of solid-state circular dichroismA quantitative fluorescence study of protein monolayer formation on colloidal nanoparticlesA fluorimetric study on the interaction between a Trp-containing beta-strand peptide and amphiphilic polymer-coated gold nanoparticlesA Comparative Study on the Self-Assembly of Peptide TGV-9 by In Situ Atomic Force MicroscopyGenerating Cyan Fluorescence with De Novo Tripeptides: An In Vitro Mutation Study on the Role of Single Amino Acid Residues and Their SequenceStudy on physisorption between phycocyanin and gold nanoparticlesTripeptide-dopamine fluorescent hybrids: a coassembly-inspired antioxidative strategy
P50
Q24293132-E38C4835-F93D-416D-B45A-4DA3DB7527BEQ33537288-01FCE244-F353-419D-8DE8-1B365795C451Q35051220-1A1EC064-1550-4DD1-962D-2538B8FFB583Q37934727-EF1AD48B-AB4F-48AF-A7F7-7C6B0329975EQ39316957-97DEC8D9-58C1-437C-BF64-62136B70477FQ39453667-9298BC8B-4D6D-4B76-81CE-844420A2DA23Q39758036-76449E3A-8E8A-4194-BE73-7349FAC2B3C2Q42168685-5D98BD4A-B79E-47BB-A54A-637009B97051Q43883229-E6D2CD8A-C329-4231-8C14-83CD37BEC2B9Q47870982-4C5DB59F-F4FB-405F-9281-3BE3D6A8B401Q48304458-1153B4DB-C462-485E-9675-199146C8BFBEQ54211167-FD50C6A9-F482-432F-912A-C25F0025739EQ55659055-95915374-3ED5-4C42-9AE2-9F73BF266913Q57157398-A4739DAE-D960-427E-B163-C3724BDB81F6Q59894773-010FE1E5-8DDB-4D4A-8607-10B98FA29377Q62098847-1146EC1B-4372-4D9C-BBC1-CB4248FB7900Q62098857-E8FF49E0-A716-489B-96D2-CB0DF6939851Q83158799-36A6FF99-BE54-42AE-8EEB-9AC65A3D61C7Q83921796-608BCCE2-9673-44CB-AE49-533434635FF2Q84522545-9B7DA23E-8F2C-493B-AFC0-6F3254B1DC49Q87204744-67727057-0200-4897-8C76-E0748CBF1CB6Q89684763-5A584B6C-4B27-4B6E-A781-BF5724299E14Q90234493-BB14FBB8-85AB-4198-BC60-1C7029CEF8A6Q92391803-C6DBA853-6AEB-4C5A-A6E4-A2636F211328Q94595672-36E3C9EF-186C-4481-81BA-283854905D34
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description
bioengineering researcher at Inner Mongolia University
@en
name
Feng Zhang
@ast
Feng Zhang
@en
Feng Zhang
@es
Feng Zhang
@nl
type
label
Feng Zhang
@ast
Feng Zhang
@en
Feng Zhang
@es
Feng Zhang
@nl
prefLabel
Feng Zhang
@ast
Feng Zhang
@en
Feng Zhang
@es
Feng Zhang
@nl
P108
P106
P108
P31
P496
0000-0001-6035-4829