about
The optical, photothermal, and facile surface chemical properties of gold and silver nanoparticles in biodiagnostics, therapy, and drug deliveryDetermining Drug Efficacy Using Plasmonically Enhanced Imaging of the Morphological Changes of Cells upon Death.A new nanotechnology technique for determining drug efficacy using targeted plasmonically enhanced single cell imaging spectroscopy.XAV939: from a small inhibitor to a potent drug bioconjugate when delivered by gold nanoparticlesP-glycoprotein-dependent trafficking of nanoparticle-drug conjugatesSmall molecule-gold nanorod conjugates selectively target and induce macrophage cytotoxicity towards breast cancer cellsThe most effective gold nanorod size for plasmonic photothermal therapy: theory and in vitro experimentsReal-time molecular imaging throughout the entire cell cycle by targeted plasmonic-enhanced Rayleigh/Raman spectroscopy.Exploiting the nanoparticle plasmon effect: observing drug delivery dynamics in single cells via Raman/fluorescence imaging spectroscopy.Observing real-time molecular event dynamics of apoptosis in living cancer cells using nuclear-targeted plasmonically enhanced Raman nanoprobes.Cytotoxic effects of cytoplasmic-targeted and nuclear-targeted gold and silver nanoparticles in HSC-3 cells--a mechanistic study.Antiandrogen gold nanoparticles dual-target and overcome treatment resistance in hormone-insensitive prostate cancer cells.Raman technologies in cancer diagnostics.A one-step homogeneous immunoassay for cancer biomarker detection using gold nanoparticle probes coupled with dynamic light scatteringA one-step highly sensitive method for DNA detection using dynamic light scatteringDynamic light scattering as a powerful tool for gold nanoparticle bioconjugation and biomolecular binding studies
P50
Q28392595-DDE0AEE4-F461-4D8C-9A96-9E96B748C313Q30593039-22560A6B-E272-44E8-B7DB-F3608011BD26Q31112425-D19AD7F7-F8FE-4EC9-9AAE-F11D311EECB8Q33774391-9DCC33F2-65A4-4018-B71B-203A1F8FC150Q34062299-681842A1-BD37-4EF0-9C70-619FD3D196FDQ34331704-49334840-4F78-4840-9BF6-B1CEEE23B2B1Q34398321-910E1240-5A31-447E-89B6-C2A6D883D5C2Q34414865-EF790899-C55F-4D6D-9580-068D138F9C7DQ34889533-E2B69D1F-8525-45EE-866D-50D24D314890Q35140964-DCCAC955-C7EC-447B-A423-7454E0800FEFQ35477322-CCD3C29E-BB6D-4323-A019-ED8AB59F5780Q36211542-98BA33B5-3AB4-4497-946A-6833C8B7FA22Q38625830-11A51037-E32F-44CB-BC41-F83805B4B8B6Q80653463-AA49FE1D-1D6F-4E62-8D52-80E396D5334DQ81424402-AECA4222-2368-45E4-A7D0-5ADF9CE5BE3FQ84629952-D3C98E59-0428-4AFA-823A-CCC8B85780CB
P50
description
investigador
@es
researcher
@en
wetenschapper
@nl
name
Lauren Austin
@en
Lauren Austin
@nl
type
label
Lauren Austin
@en
Lauren Austin
@nl
prefLabel
Lauren Austin
@en
Lauren Austin
@nl
P31
P496
0000-0002-9546-2026