SERS-based plasmonic nanobiosensing in single living cells.
about
Gold nanoprobes for theranosticsPlasmonic gold nanostars for multi-modality sensing and diagnosticsPlasmonic nanoprobes: from chemical sensing to medical diagnostics and therapySingle cell optical imaging and spectroscopy.SERS nanosensors and nanoreporters: golden opportunities in biomedical applications.Patterned silver nanorod array substrates for surface-enhanced Raman scattering.Applications of fiber-optics-based nanosensors to drug discoveryPlasmonic nanoprobes for SERS biosensing and bioimaging.Plasmonic Nanoparticles and Nanowires: Design, Fabrication and Application in SensingSingle-cell monitoring using fiberoptic nanosensors.Surface-enhanced Raman scattering (SERS) optrodes for multiplexed on-chip sensing of nile blue A and oxazine 720.Bio-imaging, detection and analysis by using nanostructures as SERS substrates.Recent progress in SERS biosensing.A Plasmonic Gold Nanostar Theranostic Probe for In Vivo Tumor Imaging and Photothermal TherapyPreparation of Stabilizer-Free Silver Nanoparticle-Coated Micropipettes as Surface-Enhanced Raman Scattering Substrate for Single Cell Detection.Label-free blood plasma test based on surface-enhanced Raman scattering for tumor stages detection in nasopharyngeal cancer.Single cell analysis at the nanoscale.Nanomaterials in complex biological systems: insights from Raman spectroscopy.Plasmonic nanoprobes for intracellular sensing and imaging.Surface-enhanced Raman scattering analysis of urine from deceased donors as a prognostic tool for kidney transplant outcome.Raman detection of localized transferrin-coated gold nanoparticles inside a single cell.Investigation of the stability of labelled nanoparticles for SE(R)RS measurements in cells.Surface-enhanced Raman scattering detection and tracking of nanoprobes: enhanced uptake and nuclear targeting in single cells.SERS Taper-Fiber Nanoprobe Modified by Gold Nanoparticles Wrapped with Ultrathin Alumina Film by Atomic Layer Deposition.Potential application of SERS for arsenic speciation in biological matrices.A highly reproducible and sensitive fiber SERS probe fabricated by direct synthesis of closely packed AgNPs on the silanized fiber taper.Gold nanodome-patterned microchips for intracellular surface-enhanced Raman spectroscopy.SERS-fluorescence bimodal nanoprobes for in vitro imaging of fatty acid responsive receptor GPR120.Multi-functional, thiophenol-based surface chemistry for surface-enhanced Raman spectroscopy.Surface-enhanced Raman spectroscopy in 3D electrospun nanofiber mats coated with gold nanorods.SERS-based monitoring of the intracellular pH in endothelial cells: the influence of the extracellular environment and tumour necrosis factor-α.Development of a Nanostructured Platform for Identifying HER2-Heterogeneity of Breast Cancer Cells by Surface-Enhanced Raman ScatteringNanoprobes for intracellular and single cell surface-enhanced Raman spectroscopy (SERS)Surface-Enhanced Raman Scattering as an Emerging Characterization and Detection Technique
P2860
Q24629197-FB176ADC-A5A7-4BFA-A70A-73FC96CAD524Q28087468-63030FB1-D290-4C83-94EC-15DCBA0D3776Q30416913-A7855543-E869-40F1-A18C-564FC733DED3Q30440270-27D461D9-6AE5-4937-B216-6EE2E3CA4F9BQ30860327-04BE06CD-8E23-426B-9730-715748335872Q33511556-EC50A27A-32C2-4363-9408-F329ED4506CBQ33616937-95CFBF7B-63F7-4001-B809-7EE41E049058Q33616946-44212E21-FACB-41FE-AC8B-FC11CD948046Q33616961-0B3C85DE-B767-403E-9B1C-6CAAFEF0A2AEQ33647162-F5CCFDFE-4E52-4C4B-9D52-27DBBF235996Q34187873-B31BC3FF-2CBE-4709-A0FA-03DF63E29631Q35010325-C6F66C2A-EED9-4781-933E-D1E612B08B51Q35164380-6C01A3C3-E375-415F-B92A-8C7611C58115Q35686257-E2C800D9-3E32-4894-A14C-19C78B1C5391Q36204966-94F6A976-B0FE-4F8C-8D32-413E22252DA0Q37718102-C786B5BD-D58B-4F34-B852-764C78365F05Q37963772-7AEE5155-C50A-4F05-BCAD-13A6176B5647Q38025322-A2BCEF52-CF06-4F9D-B097-31D620F7FCA0Q38105872-0E5EBD1E-239F-4DF0-B2EF-5E7EF0E0A079Q38796585-72E54050-46E5-4308-B2DE-633D797B6D12Q39509205-C2D71579-8421-4AC6-B985-C2C70D87A404Q39584602-010E0AE3-33BA-429C-9A78-8740FAE4E22BQ39666159-9C9358EE-D1E9-40F6-B397-F10AB78E549EQ41942131-A50A6053-9E9C-4732-88F3-B56BBE5043FCQ47968839-0BD18836-1D24-4483-B759-89500BB72A77Q48304958-A59AA6B8-F5CF-4113-A290-33F39EE58470Q49108467-C371FA9F-156A-465E-8394-EF522A3A562EQ49956201-90642F77-5255-4133-A1E1-E17AE959A543Q50929925-556473CE-90D0-413E-BB16-1ED33BBEAC4EQ53373822-EDCA7FBB-9B60-4053-9913-96A4523CE90CQ53673813-67F25F31-AD6A-414E-8F00-1137B5EBEAA0Q57139047-7941BF92-456A-4855-9681-C0C3AAD7A55BQ58892566-12ED186A-8894-4492-864A-0563DCE6E85BQ58910752-425B7A91-93CF-494D-B431-0A6E735247E6
P2860
SERS-based plasmonic nanobiosensing in single living cells.
description
2008 nî lūn-bûn
@nan
2008 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
SERS-based plasmonic nanobiosensing in single living cells.
@ast
SERS-based plasmonic nanobiosensing in single living cells.
@en
type
label
SERS-based plasmonic nanobiosensing in single living cells.
@ast
SERS-based plasmonic nanobiosensing in single living cells.
@en
prefLabel
SERS-based plasmonic nanobiosensing in single living cells.
@ast
SERS-based plasmonic nanobiosensing in single living cells.
@en
P2093
P2860
P1476
SERS-based plasmonic nanobiosensing in single living cells.
@en
P2093
Jonathan P Scaffidi
Molly K Gregas
Tuan Vo-Dinh
Victoria Seewaldt
P2860
P2888
P304
P356
10.1007/S00216-008-2521-Y
P407
P577
2008-12-07T00:00:00Z