about
Reversible B/Z-DNA transition under the low salt condition and non-B-form polydApolydT selectivity by a cubane-like europium-L-aspartic acid complex.Surface interactions with compartmentalized cellular phosphates explain rare earth oxide nanoparticle hazard and provide opportunities for safer design.Use of coated silver nanoparticles to understand the relationship of particle dissolution and bioavailability to cell and lung toxicological potentialSurface charge and cellular processing of covalently functionalized multiwall carbon nanotubes determine pulmonary toxicityUse of a pro-fibrogenic mechanism-based predictive toxicological approach for tiered testing and decision analysis of carbonaceous nanomaterialsZebrafish high-throughput screening to study the impact of dissolvable metal oxide nanoparticles on the hatching enzyme, ZHE1Processing pathway dependence of amorphous silica nanoparticle toxicity: colloidal vs pyrolyticPdO doping tunes band-gap energy levels as well as oxidative stress responses to a Co₃O₄ p-type semiconductor in cells and the lungSurface defects on plate-shaped silver nanoparticles contribute to its hazard potential in a fish gill cell line and zebrafish embryosUse of metal oxide nanoparticle band gap to develop a predictive paradigm for oxidative stress and acute pulmonary inflammationNADPH Oxidase-Dependent NLRP3 Inflammasome Activation and its Important Role in Lung Fibrosis by Multiwalled Carbon NanotubesDifferential expression of syndecan-1 mediates cationic nanoparticle toxicity in undifferentiated versus differentiated normal human bronchial epithelial cellsUse of a high-throughput screening approach coupled with in vivo zebrafish embryo screening to develop hazard ranking for engineered nanomaterialsEngineering an effective immune adjuvant by designed control of shape and crystallinity of aluminum oxyhydroxide nanoparticlesReduction of Acute Inflammatory Effects of Fumed Silica Nanoparticles in the Lung by Adjusting Silanol Display through Calcination and Metal DopingAspect ratio determines the quantity of mesoporous silica nanoparticle uptake by a small GTPase-dependent macropinocytosis mechanism.Interference in autophagosome fusion by rare earth nanoparticles disrupts autophagic flux and regulation of an interleukin-1β producing inflammasome.{101}-{001} Surface Heterojunction-Enhanced Antibacterial Activity of Titanium Dioxide Nanocrystals Under Sunlight Irradiation.Two-wave nanotherapy to target the stroma and optimize gemcitabine delivery to a human pancreatic cancer model in micePositron emission tomography of human hepatocellular carcinoma xenografts in mice using copper (II)-64 chloride as a tracer with copper (II)-64 chloride.Dispersion and stability optimization of TiO2 nanoparticles in cell culture media.Association rule mining of cellular responses induced by metal and metal oxide nanoparticles.Synthesis and characterization of new copper thiosemicarbazone complexes with an ONNS quadridentate system: cell growth inhibition, S-phase cell cycle arrest and proapoptotic activities on cisplatin-resistant neuroblastoma cells.Toxicity of metal oxide nanoparticles in Escherichia coli correlates with conduction band and hydration energies.Simulated Sunlight-Mediated Photodynamic Therapy for Melanoma Skin Cancer by Titanium-Dioxide-Nanoparticle-Gold-Nanocluster-Graphene Heterogeneous Nanocomposites.Understanding the Property-Activity Relationships of Polyhedral Cuprous Oxide Nanocrystals in Terms of Reactive Crystallographic Facets.Potent anticancer activity of pyrrolidine dithiocarbamate-copper complex against cisplatin-resistant neuroblastoma cells.Deep-Level Defect Enhanced Photothermal Performance of Bismuth Sulfide-Gold Heterojunction Nanorods for Photothermal Therapy of Cancer Guided by Computed Tomography Imaging.Achievement of safer palladium nanocrystals by enlargement of {100} crystallographic facets.Resonance Energy Transfer-Promoted Photothermal and Photodynamic Performance of Gold-Copper Sulfide Yolk-Shell Nanoparticles for Chemophototherapy of Cancer.Synthesis and characterization of theranostic poly(HPMA)-c(RGDyK)-DOTA-64Cu copolymer targeting tumor angiogenesis: tumor localization visualized by positron emission tomography.Crystallographic Facet-Induced Toxicological Responses by Faceted Titanium Dioxide Nanocrystals.Interactions of the human telomeric DNA with terbium-amino acid complexes.PolydA and polyrA self-structured by a europium and amino acid complexNovel Bismuth-Based Nanomaterials Used for Cancer Diagnosis and TherapySafety-by-Design of Metal Oxide Nanoparticles Based on the Regulation of their Energy EdgesRedox Activity and Nano-Bio Interactions Determine the Skin Injury Potential of Co3O4-Based Metal Oxide Nanoparticles toward ZebrafishBismuth Sulfide Nanorods with Retractable Zinc Protoporphyrin Molecules for Suppressing Innate Antioxidant Defense System and Strengthening Phototherapeutic EffectsNovel Meta-iodobenzylguanidine-Based Copper Thiosemicarbazide-1-guanidinomethylbenzyl Anticancer Compounds Targeting Norepinephrine Transporter in NeuroblastomaIntelligent Hollow Pt-CuS Janus Architecture for Synergistic Catalysis-Enhanced Sonodynamic and Photothermal Cancer Therapy
P50
Q24548100-16A98130-2309-4CC0-8490-C95A1EF0BB0FQ28384144-2DC29936-92F5-4FED-A13C-638EC5A4F170Q28384772-57353679-FBBA-4754-A4F7-760FAD95AC42Q28385356-EE6DD320-10CA-49B7-AA89-4144ED3C637FQ28385960-AB3C1FFD-7A1E-4259-B4FA-662A040BFC21Q28386660-B252897B-4E56-494A-AFF9-B73E422B3A3EQ28391345-1C43908E-219E-47B4-9316-3AB910658F7DQ28392634-9FD86432-C852-406D-967B-538E1880159DQ28392748-E8C3E8CC-99F4-4977-A2A4-514E80325D04Q28392757-259EF339-E98B-4E13-A492-FFB63091A341Q28393275-18C9D7C4-7A52-469D-B8A5-CB32839B436CQ28394538-4F3799EB-3DE2-4F25-B996-AED55D499F2BQ28394548-812DE122-B86D-4723-8E75-8FA0895C0300Q28394668-F23CFFE0-E516-4FF4-A416-284DB3487A0BQ28397187-93D1089E-6C5C-4DF7-B2B7-141C63EBE324Q30501687-40F9C8AC-7498-451D-BE6A-DE6AA198E809Q34421061-E199D7AA-7AE6-4E5A-BE22-06443C283F52Q36260838-F7DF985D-3537-47EF-94B3-9171220548CFQ37426354-385DB7E0-0172-4E7B-B90D-41959895E916Q37577907-64E12E4D-8C49-4642-8A51-1D8E6FF137B7Q37677800-EF4B7334-045E-4DD3-9645-91B34D88B99FQ39059539-A0F89B63-0A1A-4471-8C65-F40D8740B7F7Q40073471-620F468F-04E1-4211-8C61-D2B3DE9DCC7FQ41617871-6ACE7104-57C2-451D-B019-A8B0A6FDC99FQ46391166-474AA005-B2BA-44F2-9BBE-8320B500A787Q46432646-D1F9AB15-552C-442F-9C81-726CE2BED44EQ46822401-35F5A902-886B-43BF-B14A-1B1A1A788B6BQ47400810-6262878C-3D6A-4C8C-AC4F-51833E8762E4Q47598887-598A53AF-5827-44FB-8245-95A25593B95BQ48043529-8D2AE6B2-CBB1-47E6-A1B2-4A1D5E8C2439Q48732803-DF099824-A940-4706-901B-362329A638CCQ53101564-6C05F82C-CAE5-4867-B678-ED6B7C34DF3AQ53611408-5D4EBE76-F5A0-4C17-BDAA-0F3F36D706BDQ84001118-64085311-7FE4-4946-B656-8D6ED9467E72Q89018425-BB48B921-DCB2-4C27-8DED-628BCAC9E6CEQ90431911-CA1CDC27-8F26-4C62-BB60-4F9697490C04Q90459707-85B5325C-D305-401B-A347-BFF4C98AD8ACQ91000495-E5D38F31-E2F0-4C82-809F-3E5301890ECEQ91703860-EE2857BF-7614-40B0-9C34-144F4B723266Q91985497-8C76D247-342F-47CF-8FE4-E3FE33E4AEEC
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Haiyuan Zhang
@ast
Haiyuan Zhang
@en
Haiyuan Zhang
@es
Haiyuan Zhang
@nl
Haiyuan Zhang
@sl
type
label
Haiyuan Zhang
@ast
Haiyuan Zhang
@en
Haiyuan Zhang
@es
Haiyuan Zhang
@nl
Haiyuan Zhang
@sl
prefLabel
Haiyuan Zhang
@ast
Haiyuan Zhang
@en
Haiyuan Zhang
@es
Haiyuan Zhang
@nl
Haiyuan Zhang
@sl
P108
P106
P108
P31
P496
0000-0003-4076-1771