Mesoporous silica beads embedded with semiconductor quantum dots and iron oxide nanocrystals: dual-function microcarriers for optical encoding and magnetic separation.
about
Multiplexed immunoassays for proteins using magnetic luminescent nanoparticles for internal calibrationManganese doped fluorescent paramagnetic nanocrystals for dual-modal imaging.Preparation and characterization of Fe3O4/CdTe magnetic/fluorescent nanocomposites and their applications in immuno-labeling and fluorescent imaging of cancer cellsTargeting of drugs and nanoparticles to tumors.Fluorescent-magnetic-biotargeting multifunctional nanobioprobes for detecting and isolating multiple types of tumor cellsEngineering multifunctional magnetic-quantum dot barcodes by flow focusing.Individual organelle pH determinations of magnetically enriched endocytic organelles via laser-induced fluorescence detectionNanoparticle-based theranostic agentsMagnetic luminescent porous silicon microparticles for localized delivery of molecular drug payloads.NIR-emitting quantum dot-encoded microbeads through membrane emulsification for multiplexed immunoassays.Inorganic nanoparticle-based contrast agents for molecular imagingLasing and magnetic microbeads loaded with colloidal quantum dots and iron oxide nanocrystals.Designing multifunctional quantum dots for bioimaging, detection, and drug deliveryMultifunctional superparamagnetic iron oxide nanoparticles for combined chemotherapy and hyperthermia cancer treatmentAu Nanocage Functionalized with Ultra-small Fe3O4 Nanoparticles for Targeting T1-T2Dual MRI and CT Imaging of Tumor.Suspension arrays based on nanoparticle-encoded microspheres for high-throughput multiplexed detection.Dye-Doped Fluorescent Silica Nanoparticles for Live Cell and In Vivo Bioimaging.Using nanoparticles to push the limits of detection.Magnetic quantum dots for multimodal imaging.Micellar hybrid nanoparticles for simultaneous magnetofluorescent imaging and drug deliveryThe synthesis and bio-applications of magnetic and fluorescent bifunctional composite nanoparticles.Advancement in multifunctional nanoparticles for the effective treatment of cancer.Less common applications of monoliths: V. Monolithic scaffolds modified with nanostructures for chromatographic separations and tissue engineering.Magnetically engineered semiconductor quantum dots as multimodal imaging probes.Fluorescent/magnetic micro/nano-spheres based on quantum dots and/or magnetic nanoparticles: preparation, properties, and their applications in cancer studies.Synthesis and Characterization of Mn:ZnSe/ZnS/ZnMnS Sandwiched QDs for Multimodal Imaging and Theranostic Applications.Fluorescent dye labeled iron oxide/silica core/shell nanoparticle as a multimodal imaging probe.Fluorescent and superparamagnetic hybrid quantum clusters for magnetic separation and imaging of cancer cells from blood.Silica nanocapsules of fluorescent conjugated polymers and superparamagnetic nanocrystals for dual-mode cellular imaging.Paramagnetic lipid-coated silica nanoparticles with a fluorescent quantum dot core: a new contrast agent platform for multimodality imaging.Preparation and Characterization of Silica-Coated Magnetic-Fluorescent Bifunctional Microspheres.A "turn-on" fluorescent microbead sensor for detecting nitric oxide.Shape-coded silica nanotubes for multiplexed bioassay: rapid and reliable magnetic decoding protocols.Application of nanotechnology in cancer research: review of progress in the National Cancer Institute's Alliance for Nanotechnology.Detection of avian influenza virus based on magnetic silica nanoparticles resonance light scattering system.Graphene Oxide Conjugated Magnetic Beads for RNA Extraction.Optically Encoded Semiconducting Polymer Dots with Single-Wavelength Excitation for Barcoding and Tracking of Single Cells.Multifunctional nanoprobes for pathogen-selective capture and detection.Magnetofluorescent nanocomposites and quantum dots used for optimal application in magnetic fluorescence-linked immunoassay.Sugar coated ceramic nanocarriers for the oral delivery of hydrophobic drugs: formulation, optimization and evaluation.
P2860
Q23918445-53BCD07F-8D26-416C-B468-E84C107DBBDBQ30841850-7EB02A9F-7059-4A41-800A-E108C6542104Q33590617-571B056C-39DA-4B82-80C8-07A4576D43B4Q33751710-7A517897-4016-4273-9866-F75C331A644EQ33798318-D4DCA4A6-C693-4DFC-A583-4196D0947B6CQ33835887-9D35F563-BAD9-4F32-9E6E-3AC0D64A992AQ34001694-72504530-62E2-483A-AB60-8735E74905A4Q34130095-6D6F5DED-BBF2-4CE6-ADE5-217A75F0E5B5Q34552199-53143CDA-0F23-471C-A257-0DF8C995B9F9Q34609593-F539215A-4D50-445F-8BB8-79B777EAA2E4Q34644628-8D8652CF-66D7-40CE-85D9-87F9D45CD182Q34993837-2DB66224-1705-40A0-A9AE-C33754EA4440Q35538371-8D900604-B4A6-45F3-8322-1B8E0FC7BE62Q35866569-9007D99B-AD97-4358-9209-C0C5F571F5B1Q37014910-078761B6-8725-4409-BB24-E1A83E9BAB1FQ37575713-2F90F88F-CE68-418E-B254-51C1A35BC600Q37636222-A2AFD98F-56C6-4252-917A-EB0EE268E539Q37668301-EF3D6417-47DA-4FEE-83C7-94134140F7B8Q37668366-0AF6CBD2-FE83-4345-BD76-240A3C8A98EFQ37723654-253291F4-589A-47FD-A946-5A3EE3837EFCQ37856773-4A09E864-5C02-4727-ACD5-B9E0FDE53A76Q37991742-A76108C3-6FFB-44BE-B15F-6A8B45A81BEEQ38021714-2B1822FE-2D9E-4A0E-9ED3-D875A5A09010Q38245271-36DFEEDC-66E6-4041-B07E-3EAD88AF755BQ38718351-FB27D3A5-1799-4B3C-9C7A-B1FBA5434034Q38811979-1F46E03E-3538-4DDF-A235-61567AEC6490Q38989890-3F8530B4-B1A8-4FB3-8BDC-BF0AC773EC20Q39466252-3585FB9A-D35E-4B16-8D33-0EA6DD7576DEQ39548355-A01021B8-AC8E-4FEE-B341-F4F100EB087FQ39911952-1427A23F-A732-45BF-97E5-BE6C953ACEB7Q41543702-33E70DD8-3160-41E6-9CCA-BD33897E382DQ42073385-2E69F166-4C18-4105-85C3-0D08721E356EQ42810297-D89C7591-68BB-4774-923F-C5B11E1EF13EQ42957834-B396CF95-9317-48A4-8579-EF699503011DQ45361279-2F5E4B59-5AFD-4A0F-B8AA-CAF6C30360DBQ48139741-B8FF60F7-2898-4135-94D8-8F286E794880Q48150948-014921A2-F9E2-4668-AB9D-157BD9E2B456Q50034725-BD54A249-8A67-40EB-8F0B-C33015035E38Q50041881-33F1872F-25A7-4C52-97B4-2232CF19E89BQ50525339-99ECA0B6-BF09-4B16-99A8-9367F9C7C47D
P2860
Mesoporous silica beads embedded with semiconductor quantum dots and iron oxide nanocrystals: dual-function microcarriers for optical encoding and magnetic separation.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
Mesoporous silica beads embedd ...... oding and magnetic separation.
@en
Mesoporous silica beads embedd ...... oding and magnetic separation.
@nl
type
label
Mesoporous silica beads embedd ...... oding and magnetic separation.
@en
Mesoporous silica beads embedd ...... oding and magnetic separation.
@nl
prefLabel
Mesoporous silica beads embedd ...... oding and magnetic separation.
@en
Mesoporous silica beads embedd ...... oding and magnetic separation.
@nl
P2093
P356
P1433
P1476
Mesoporous silica beads embedd ...... oding and magnetic separation.
@en
P2093
Amit Agrawal
Shuming Nie
Tushar R Sathe
P304
P356
10.1021/AC0610309
P407
P577
2006-08-01T00:00:00Z