Seeding Growth for Size Control of 5−40 nm Diameter Gold Nanoparticles
about
Visible Fluorescence Induced by the Metal Semiconductor Transition in Composites of Carbon Nanotubes with Noble Metal NanoparticlesAnisotropic nanomaterials: structure, growth, assembly, and functionsA halogen-free synthesis of gold nanoparticles using gold(III) oxideFunctionalized Ag nanoparticles with tunable optical properties for selective protein analysis.Gold Nanoparticle Monolayers from Sequential Interfacial Ligand Exchange and Migration in a Three-Phase System.Pillar[5]arene-mediated synthesis of gold nanoparticles: size control and sensing capabilities.Self-assembled plasmonic nanostructures.Gold nanoparticles: preparation, properties, and applications in bionanotechnologyRational strategy for shaped nanomaterial synthesis in reverse micelle reactorsGold nanoparticles prepared by glycinate ionic liquid assisted multi-photon photoreduction.Formation of targeted monovalent quantum dots by steric exclusion.Electrochemical oxygen reduction behavior of selectively deposited platinum atoms on gold nanoparticles.Rapid synthesis of monodisperse Au nanospheres through a laser irradiation-induced shape conversion, self-assembly and their electromagnetic coupling SERS enhancement.Quantifying the photothermal efficiency of gold nanoparticles using tryptophan as an in situ fluorescent thermometer.Detection of Gold Nanoparticles Aggregation Growth Induced by Nucleic Acid through Laser Scanning Confocal Microscopy.Intrinsic therapeutic applications of noble metal nanoparticles: past, present and futureA Facile pH Controlled Citrate-Based Reduction Method for Gold Nanoparticle Synthesis at Room Temperature.DNA Binding Peptide Directed Synthesis of Continuous DNA Nanowires for Analysis of Large DNA Molecules by Scanning Electron Microscope.Chitosan functionalisation of gold nanoparticles encourages particle uptake and induces cytotoxicity and pro-inflammatory conditions in phagocytic cells, as well as enhancing particle interactions with serum componentsCarbon nanoparticle-based fluorescent bioimaging probes.Concentration Effect of Reducing Agents on Green Synthesis of Gold Nanoparticles: Size, Morphology, and Growth MechanismRapid visualization of latent fingermarks using gold seed-mediated enhancement.Influence of gold nanoparticle surface chemistry and diameter upon Alzheimer's disease amyloid-β protein aggregation.Fabrication of Size-Tunable Metallic Nanoparticles Using Plasmid DNA as a Biomolecular Reactor.Nanoparticles for photoacoustic imaging.Gold nanoparticles in the clinical laboratory: principles of preparation and applications.DNA-based plasmonic nanoarchitectures: from structural design to emerging applications.Molecularly stabilised ultrasmall gold nanoparticles: synthesis, characterization and bioactivity.Current methods for synthesis of gold nanoparticles.Thermodynamics versus kinetics in nanosynthesis.Nonfunctionalized Gold Nanoparticles: Synthetic Routes and Synthesis Condition Dependence.Directed self-assembly of gold nanoparticles into plasmonic chains.Antimicrobial Activity of Gold Nanoparticles and Ionic Gold.Gold nanoprobe-based non-crosslinking hybridization for molecular diagnostics.Gold-coated magnetic nanoparticle as a nanotheranostic agent for magnetic resonance imaging and photothermal therapy of cancer.Multiple detection of single nucleotide polymorphism by microarray-based resonance light scattering assay with enlarged gold nanoparticle probes.Smart nanoprobes for the detection of alkaline phosphatase activity during osteoblast differentiation.The oxidative potential of differently charged silver and gold nanoparticles on three human lung epithelial cell types.In-situ formation and assembly of gold nanoparticles by gum arabic as efficient photothermal agent for killing cancer cells.Biopolymer coated gold nanocrystals prepared using the green chemistry approach and their shape-dependent catalytic and surface-enhanced Raman scattering properties.
P2860
Q27349967-3F7F9416-F6FE-4BC9-B3FD-8A1B27D6453BQ28742805-240EFC44-16E0-4646-92DA-3A3F4FEBA31DQ28828580-2F860398-7057-415B-99AA-42ED69AB2D6AQ30399699-33CA16B7-E8B3-4455-9488-031D6F7C1F40Q30824902-B02E8C04-1C19-4E0F-8720-36C1F90BD3C4Q30828379-865A24BC-1281-40E2-BDEE-2B826367EAFDQ31152563-91F768F3-129D-461E-B2A9-2FC871B7D823Q33914355-B489D6D0-A955-4569-82BF-7BB7CB41EF85Q33957230-AB184FEA-C2FF-42A9-8E6A-9AFCBFC02D2CQ34357397-515906F1-A1D6-41BD-B240-72C7D2990A80Q34377471-34EE3C6C-7EC3-410D-AB52-CA4DC9A3B9E2Q34625188-5C152BA2-307D-4E1E-8B5E-38ADDD6199D7Q34864945-CA41ACBE-DF18-402A-8120-2BBBCDF16C58Q35661998-D72B4280-403B-4F19-B076-F7963EE5684CQ35932991-8A874BE1-3495-4228-9EEE-927CA40F0522Q35942437-C686866B-98E7-4568-96E1-E361E39ED6FFQ36104250-D352980C-45A7-4883-AEAD-6D1082979306Q36182644-78B9BEDE-47BA-4006-813D-38FB7AAC3921Q36298604-AE7ED75E-75F1-49BA-AC74-F40B5837BCAEQ36693324-B7C81282-9054-4E3A-A8CA-083BB4FB658BQ36845061-2B4B01E6-20B7-47DD-BC94-76C42A2DF1B6Q37440572-DC9CDC5D-3456-4E8D-8C49-8CD1A684F059Q37625885-78D9C741-72A5-4327-8535-698821D3337EQ37649814-C849A226-0D94-4826-B2B8-3D628280F5C8Q37668326-8A2DD069-8FB2-433E-80F8-2D4DC08824C4Q37942613-2C5E16B9-A883-40A2-8368-0EF4FD0B4C97Q38029298-4CD60811-CF0B-458C-B025-4EAFBE2B379FQ38112603-935E3E3C-E346-4091-A5EF-75D11F1C0855Q38264537-A079FC52-EB02-4D34-ABB5-30B12E81E947Q38299237-D3970686-BDE7-47D7-BFD9-42FDC42830CCQ38418220-080F9EC4-3AFE-4328-BD5B-D69CB4F2A6ECQ38494632-65432580-E64A-448C-83E6-CDF1184EC430Q38527374-D62F2721-88C5-41F5-8BA2-BDE5AE3875F0Q38570314-A23B7834-910F-4562-A2E2-7EB3FC73E564Q38694983-12D9B32A-9288-457D-ADBF-28E572FE508FQ38792163-CBB7400D-401A-4ED4-AF3B-B9721D0DC83DQ38916244-8A108EAF-FDE6-422C-8A17-6BAE32430D86Q38919587-C8DEDAAA-AD2B-4DC6-ABBF-1D292B8B2E97Q39124901-4D9F62E8-1678-49BF-A8D6-065E00A27C28Q39409244-5026E1E2-8C15-49F6-ABDD-0D04621B3A3B
P2860
Seeding Growth for Size Control of 5−40 nm Diameter Gold Nanoparticles
description
im Oktober 2001 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в жовтні 2001
@uk
name
Seeding Growth for Size Control of 5−40 nm Diameter Gold Nanoparticles
@en
Seeding Growth for Size Control of 5−40 nm Diameter Gold Nanoparticles
@nl
type
label
Seeding Growth for Size Control of 5−40 nm Diameter Gold Nanoparticles
@en
Seeding Growth for Size Control of 5−40 nm Diameter Gold Nanoparticles
@nl
prefLabel
Seeding Growth for Size Control of 5−40 nm Diameter Gold Nanoparticles
@en
Seeding Growth for Size Control of 5−40 nm Diameter Gold Nanoparticles
@nl
P356
P1433
P1476
Seeding Growth for Size Control of 5−40 nm Diameter Gold Nanoparticles
@en
P2093
Catherine J. Murphy
Latha Gearheart
P304
P356
10.1021/LA0104323
P407
P577
2001-10-01T00:00:00Z