about
Inorganic nanosystems for therapeutic delivery: status and prospectsLight-activatable gold nanoshells for drug delivery applicationsPlasmonic imaging of human oral cancer cell communities during programmed cell death by nuclear-targeting silver nanoparticlesDetecting and destroying cancer cells in more than one way with noble metals and different confinement properties on the nanoscaleRecent Advances on Inorganic Nanoparticle-Based Cancer Therapeutic AgentsCytokines as biomarkers of nanoparticle immunotoxicityThe optical, photothermal, and facile surface chemical properties of gold and silver nanoparticles in biodiagnostics, therapy, and drug deliveryNanoparticle-cell interactions: molecular structure of the protein corona and cellular outcomesTumor Microenvironment Modulation via Gold Nanoparticles Targeting Malicious Exosomes: Implications for Cancer Diagnostics and TherapyDetermining the composition of gold nanoparticles: a compilation of shapes, sizes, and calculations using geometric considerationsTransporter protein and drug-conjugated gold nanoparticles capable of bypassing the blood-brain barrierClinical Translation of Nanomedicine.Secondary structure of corona proteins determines the cell surface receptors used by nanoparticles.Polymeric Nanostructures for Imaging and TherapyMolecular plasmonics for biology and nanomedicine.Single cell optical imaging and spectroscopy.Three-dimensional optoacoustic imaging as a new noninvasive technique to study long-term biodistribution of optical contrast agents in small animal models.Dendronized Anionic Gold Nanoparticles: Synthesis, Characterization, and Antiviral Activity.Targeting pancreatic cancer with magneto-fluorescent theranostic gold nanoshells.Ultrasmall gold nanoparticles as carriers for nucleus-based gene therapy due to size-dependent nuclear entrySurface functionalization of nanoparticles for nanomedicine.Thermophysical and biological responses of gold nanoparticle laser heating.P-glycoprotein-dependent trafficking of nanoparticle-drug conjugatesPhotothermal-chemotherapy with doxorubicin-loaded hollow gold nanospheres: A platform for near-infrared light-trigged drug release.The golden age: gold nanoparticles for biomedicine.Chelator-free (64)Cu-integrated gold nanomaterials for positron emission tomography imaging guided photothermal cancer therapy.Multifunctional hybrid materials for combined photo and chemotherapy of cancer.Size matters: gold nanoparticles in targeted cancer drug delivery.The most effective gold nanorod size for plasmonic photothermal therapy: theory and in vitro experimentsImmunological responses triggered by photothermal therapy with carbon nanotubes in combination with anti-CTLA-4 therapy to inhibit cancer metastasis.Aptamer-conjugated multifunctional nanoflowers as a platform for targeting, capture, and detection in laser desorption ionization mass spectrometry.Topological insulator bismuth selenide as a theranostic platform for simultaneous cancer imaging and therapy.Combined cancer photothermal-chemotherapy based on doxorubicin/gold nanorod-loaded polymersomesEffects of internalized gold nanoparticles with respect to cytotoxicity and invasion activity in lung cancer cells.Inhibition of cytomegalovirus infection and photothermolysis of infected cells using bioconjugated gold nanoparticlesA method to obtain the thermal parameters and the photothermal transduction efficiency in an optical hyperthermia device based on laser irradiation of gold nanoparticles.CW-laser-induced morphological changes of a single gold nanoparticle on glass: observation of surface evaporation.Global transcriptomic analysis of model human cell lines exposed to surface-modified gold nanoparticles: the effect of surface chemistry.Growth of Ag-nanoparticles in an aqueous solution and their antimicrobial activities against Gram positive, Gram negative bacterial strains and Candida fungus.The preparation and characterization of gold-conjugated polyphenol nanoparticles as a novel delivery system.
P2860
Q26827968-4A2D4F7F-C28E-4D03-8009-87B2DB1751E0Q26999954-CC3B22AE-7482-42E0-A05F-6D16AFB558AEQ27339171-7E6A1F18-74B6-4FCC-848F-C05E0E4A08D3Q27339930-CB412546-8D9C-40BE-8D4C-86B6AF5AE03FQ28079607-BF14427C-CFD8-44FE-85F8-06B861BA6C7EQ28383550-17AACCF8-901A-4899-90F6-BB0DCDCA0FF0Q28392595-E85F76A4-9DF3-4E8B-AB51-5AAC48668B71Q28392765-23AE18C2-40ED-4189-AC07-5A965F349DDDQ28817133-EF2E7D91-3768-4535-96BB-1CBE6D73FE87Q28822585-B922C28D-5FCC-46D6-B60C-F618CA438A2BQ28834214-67DC62CE-903A-4971-8674-0557A3F523E2Q30355939-03C26548-C8A6-4492-AE48-54A9B7BE23DAQ30361890-55D03A6E-D3E6-479A-B02A-A0A4B0647D49Q30372383-EC7C8510-4E0F-49C3-8661-D34A5163F0E6Q30439956-4249BA4B-1837-409D-80FA-F0A293B852D6Q30440270-F4E47CDF-EAA2-48D2-9B39-63B7A35FA785Q30453496-294253AF-559B-4B0E-B2EE-74E7328847F1Q31045563-B8E53B23-88EA-4964-A3B6-73930748A9D7Q33735020-181E2D8D-5EDB-4276-8F56-D22AF66DF209Q33824831-7AA1B5BF-8990-4C2C-944E-228C25DDE9CFQ33915941-22AEABD3-2F81-4AF5-8CB7-4D413FC73D8EQ34030504-09086D44-DAE3-4120-8141-E83EE1955341Q34062299-494FF73D-DB01-40B6-BA1C-3898268429A2Q34069157-D8DC1A70-1325-4BBA-A022-5812F6F05135Q34081123-8980571D-A363-4F0A-BA65-A024056CBC37Q34104295-A7FF72EE-CE7E-469F-BA17-AFF7B8B8660AQ34255469-A22FC53E-22F1-4FCC-8364-6417ECB6F5AEQ34290392-659BCB58-6171-4C86-9159-F3C109FE943BQ34398321-860C4051-77C0-434F-B163-65A625ABF545Q34444291-81621E07-EF92-4E4E-98EB-2A7BEFC57756Q34501226-12666CBE-30A6-4D2D-8D15-A4E718092D02Q34774419-BE058043-5E99-461B-B145-A15C37FFEA8CQ35086497-F7A009B8-E649-49AC-8ED8-52676A5A81D3Q35181996-99B6245E-0CE6-4C6B-8C7A-53AF1221264BQ35200495-DD0F98C2-22E4-4234-B24D-798B7E1937FCQ35260489-B917B82F-E883-4EC0-B879-128FDA7330D2Q35401311-A0000AF3-6D18-40CD-ADDC-35041C879CE1Q35545338-4184DC98-0A23-4206-9D76-D538F0F98F3AQ35900476-980D9F65-F45B-4862-AB9D-C3F9918C2411Q35975586-15CC283C-749D-4001-AEE9-D71A708F558B
P2860
description
2011 nî lūn-bûn
@nan
2011 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
name
Beating cancer in multiple ways using nanogold.
@ast
Beating cancer in multiple ways using nanogold.
@en
type
label
Beating cancer in multiple ways using nanogold.
@ast
Beating cancer in multiple ways using nanogold.
@en
prefLabel
Beating cancer in multiple ways using nanogold.
@ast
Beating cancer in multiple ways using nanogold.
@en
P2093
P2860
P356
P1476
Beating cancer in multiple ways using nanogold.
@en
P2093
Megan A Mackey
Mostafa A El-Sayed
Xiaohua Huang
P2860
P304
P356
10.1039/C0CS00180E
P577
2011-05-31T00:00:00Z