about
Nanoparticle-Based and Bioengineered Probes and Sensors to Detect Physiological and Pathological Biomarkers in Neural CellsProgress and Challenges in Developing Aptamer-Functionalized Targeted Drug Delivery SystemsNanomaterials for photo-based diagnostic and therapeutic applicationsAdvances in Integrative Nanomedicine for Improving Infectious Disease Treatment in Public HealthUVB Dependence of Quantum Dot Reactive Oxygen Species Generation in Common Skin Cell ModelsThe Reproductive Toxicity of CdSe/ZnS Quantum Dots on the in vivo Ovarian Function and in vitro FertilizationMicrobial Uptake, Toxicity, and Fate of Biofabricated ZnS:Mn NanocrystalsPotential toxicity and safety evaluation of nanomaterials for the respiratory system and lung cancerSmart micro/nanoparticles in stimulus-responsive drug/gene delivery systems.Nanotechnology for enrichment and detection of circulating tumor cells.Stimuli-responsive nanomaterials for biomedical applicationsPhosphorylcholine-coated semiconducting polymer nanoparticles as rapid and efficient labeling agents for in vivo cell trackingBiogenic Synthesis of Fluorescent Carbon Dots at Ambient Temperature Using Azadirachta indica (Neem) gum.Multiplexed imaging of nanoparticles in tissues using laser desorption/ionization mass spectrometryA minimized designer protein for facile biofabrication of ZnS:Mn immuno-quantum dotsContinuing progress toward controlled intracellular delivery of semiconductor quantum dots.Three bisphosphonate ligands improve the water solubility of quantum dots.Investigating the Influence of MoS2 Nanosheets on E. coli from Metabolomics Level.Threshold Dose of Three Types of Quantum Dots (QDs) Induces Oxidative Stress Triggers DNA Damage and Apoptosis in Mouse Fibroblast L929 Cells.Synthesis, characterization and biocompatibility of cadmium sulfide nanoparticles capped with dextrin for in vivo and in vitro imaging application.Antibody fragments as nanoparticle targeting ligands: a step in the right directionTargeting and retention enhancement of quantum dots decorated with amino acids in an invertebrate model organism.Testing the nanoparticle-allostatic cross-adaptation-sensitization model for homeopathic remedy effectsReproductive toxicity and gender differences induced by cadmium telluride quantum dots in an invertebrate model organism.Colloidal silicon quantum dots: synthesis and luminescence tuning from the near-UV to the near-IR rangeSynthesis of N-acetyl-L-cysteine-capped ZnCdSe quantum dots via hydrothermal method and their characterization.Integrative nanomedicine: treating cancer with nanoscale natural products.Nanoscopic optical rulers beyond the FRET distance limit: fundamentals and applications.Research advances on apoptosis caused by quantum dots.Nanomaterial-based biosensors using dual transducing elements for solution phase detection.Quantum dots: bright and versatile in vitro and in vivo fluorescence imaging biosensors.Nanodiamonds and silicon quantum dots: ultrastable and biocompatible luminescent nanoprobes for long-term bioimaging.Recent advances in multifunctional silica-based hybrid nanocarriers for bioimaging and cancer therapy.Evaluation of quantum dot cytotoxicity: interpretation of nanoparticle concentrations versus intracellular nanoparticle numbers.Oxidative injury induced by cadmium sulfide nanoparticles in A549 cells and rat lungs.The Influence of Surface Modification on the Photoluminescence of CdTe Quantum Dots: Realization of Bio-Imaging via Cost-Effective Polymer.In situ nanofabrication of hybrid PEG-dendritic-inorganic nanoparticles and preliminary evaluation of their biocompatibility.Semiconductor polymer dots induce proliferation in human gastric mucosal and adenocarcinoma cells.Carbon nanodots prepared from o-phenylenediamine for sensing of Cu(2+) ions in cells.Functionalized quantum dots induce proinflammatory responses in vitro: the role of terminal functional group-associated endocytic pathways.
P2860
Q26770769-644B1B83-0A5A-4A63-A59F-897164B8E1C9Q26782485-31218ADD-0962-46EE-BAEF-E7459565ABF6Q27013549-CFAB0D1C-398C-4B5D-BAAC-26214B03B89AQ28384520-59CCA17A-8B08-413D-BAAB-8012B56748F1Q28392537-AF0E8DE5-CB88-46E5-A5D9-294BF160EF6DQ28394691-1EDC3E74-6969-472A-8F76-21572B6962F0Q28546642-92FC11D3-0ABA-468C-8446-1C8446E36570Q29248491-B84519D2-F06E-4681-931F-F95AEBF9E40AQ30361646-8334940C-3BBC-4E21-BA67-F9F4151D1034Q30382502-7ADA5A26-114A-49D6-BACC-E26542AE30A0Q30396768-44C15F1B-3527-4A78-9FFA-26984861FE26Q34052926-9998C0F0-81DE-4BBB-82D3-81A670C15D30Q34482890-F51DAD98-4FDB-405B-9EB4-F2EFBB94ED71Q34913247-04B0AA20-C410-48CD-8D4B-A3E84A70D8DCQ35079428-3490AC41-E1FA-4E38-AB87-B5D490662FF7Q35134239-7AC9CD16-823B-47A1-B27B-7763B8F7C793Q35334119-8B5D6578-AB32-420F-B967-F86157904560Q36209916-2E156BDF-9434-4B0D-9E59-359FC8EEF730Q36227920-45C8B632-72E1-474B-A255-F86B3DADDDB1Q36292936-B0C14A8C-54CD-4BD6-B386-1FFC0A8E862FQ36357291-FD1A918F-6E92-41B0-94A6-5FF40A785506Q36500830-29F17A9C-A442-4A46-82CA-9749CC970191Q36515121-FB5B0896-C677-43D8-A25E-CE4CEEFFCED8Q37285548-904238EC-6A98-4428-880C-3EA4F9F199B6Q37386850-D3461D94-D182-4BB2-8A54-8F0E9C75BB47Q37399789-D1BA50C5-A769-4F33-8518-EA14C92125B5Q37578847-EB162BD1-DC8E-48D9-B72B-B4351A1CB65BQ38217983-37358941-DEAA-4E0B-8D8D-E869E0DCBE1CQ38234034-98FEE0BD-C03C-4570-B8F3-F52278C50DC4Q38374911-F5C9A9B4-5162-43D8-8680-19582EA9FF38Q38380533-680D48AA-361A-4A15-8F7A-ED288C290D5AQ38519493-F0E87190-9A21-4829-8D29-6C48FBCD989FQ38691862-E1A59317-E9F3-4655-9EB4-FF40197B3DF3Q38758148-D574C48F-A8B2-448A-BBB5-0221A5BA90B7Q38832604-2D6820FC-4D81-449C-962C-BEA0D80BE67CQ38834850-57A0735B-9DDE-4BF9-8386-6229A316135DQ38926480-F8757700-05C2-4A82-91BB-EDD4B905F666Q38928708-94869F06-DC9B-43F5-A4AB-5FA1B759C264Q38953792-EBD362EE-F5A4-437D-B1C9-D41C17D2CD2FQ39148070-7C596B90-DF3B-4094-8B93-0EC017848283
P2860
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Quantum dot cytotoxicity and ways to reduce it.
@en
type
label
Quantum dot cytotoxicity and ways to reduce it.
@en
prefLabel
Quantum dot cytotoxicity and ways to reduce it.
@en
P356
P1476
Quantum dot cytotoxicity and ways to reduce it.
@en
P2093
Dusica Maysinger
Françoise M Winnik
P304
P356
10.1021/AR3000585
P407
P577
2012-07-09T00:00:00Z