about
Nanotechnologies for noninvasive measurement of drug releaseA conformation- and ion-sensitive plasmonic biosensor.Detection and Identification of Bioanalytes with High Resolution LSPR Spectroscopy and MALDI Mass Spectrometry.Biosensing with plasmonic nanosensors.Advances in functional X-ray imaging techniques and contrast agentsA calcium-modulated plasmonic switchMagnetic and optical properties of multifunctional core-shell radioluminescence nanoparticles.Monitoring pH-triggered drug release from radioluminescent nanocapsules with X-ray excited optical luminescenceSynthesis of brightly PEGylated luminescent magnetic upconversion nanophosphors for deep tissue and dual MRI imaging.One-pot hydrothermal synthesis of silver nanowires via citrate reduction.Hydrothermal chemistry, structures, and luminescence studies of alkali hafnium fluorides.Surface-enhanced Raman spectroscopy of benzenethiol adsorbed from the gas phase onto silver film over nanosphere surfaces: determination of the sticking probability and detection limit time.Synthesis and characterization of silica-embedded iron oxide nanoparticles for magnetic resonance imaging.High-resolution chemical imaging through tissue with an X-ray scintillator sensor.Magnetically assisted and accelerated self-assembly of strawberry-like nano/microparticles.Bright X-ray and up-conversion nanophosphors annealed using encapsulated sintering agents for bioimaging applications.Effects of two different catheter ablation techniques on spectral characteristics of atrial fibrillationSudden breakdown in linear response of a rotationally driven magnetic microparticle and application to physical and chemical microsensingOptical imaging in tissue with X-ray excited luminescent sensorsIn situ preparation of gold-polyester nanoparticles for biomedical imagingAn implanted pH sensor read using radiographyNoninvasively Imaging pH at the Surface of Implanted Orthopedic Devices with X-ray Excited Luminescence Chemical Imaging
P50
Q28387499-12BD78BD-4686-4DA6-A4E6-D58427DEBCB6Q30469675-4FB91A8C-FBC8-4FAA-9BAA-F67442B0AC56Q33531695-F95A16D8-4605-4DDE-BF64-0CD36D671AB3Q34780871-A5B68846-8B7F-4140-8624-3824B1DFEAE4Q36602420-9E6A9458-1BFB-41BC-B7CB-7A7B041DB5D6Q37297150-321B1432-A881-47A1-B665-634C2CD1395AQ37570133-32CAD0BC-44C6-41D1-974F-AC248FB9196CQ39444049-37CF725D-9862-452D-B6C4-BB0B3CFDD738Q42763346-858E2DCF-E2C8-430A-9575-03F0D3A159C1Q42877031-2DE5D558-087A-4E66-99A4-523413912771Q43969007-35B74332-5568-4F17-89D7-F50BE2E84898Q46086464-6B32B4FC-4769-467B-8BA7-C3643C0C72D5Q47687914-0E48D7BF-15D8-4D7A-9A58-96D040F66FD0Q50534993-76F1D386-B53E-42CD-95C5-3DF0568F1E03Q50719299-FA912CA5-9534-40E6-8AF6-98C18E8A3DB1Q55103884-09BAF625-F2A8-4AAF-B8E6-8F2F3D04EEBEQ79913113-D8C6B95A-7FD2-40E6-8129-18DDDAF8A558Q80301943-E97EDE5A-E224-4176-85D7-DB29D4D3D943Q84416904-631B6B22-3E30-4ED0-8FAD-A11AC4A35A04Q92110682-D7E4DEC4-DB5D-4D1F-8DCB-2E60DEC2D105Q92473949-55E540D2-5083-422D-8629-FAC1DE20C0E8Q93121406-FAE2E07B-9D39-4BA3-B83D-E80D089A4BE3
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Jeffrey N. Anker
@ast
Jeffrey N. Anker
@en
Jeffrey N. Anker
@es
Jeffrey N. Anker
@nl
Jeffrey N. Anker
@sl
type
label
Jeffrey N. Anker
@ast
Jeffrey N. Anker
@en
Jeffrey N. Anker
@es
Jeffrey N. Anker
@nl
Jeffrey N. Anker
@sl
prefLabel
Jeffrey N. Anker
@ast
Jeffrey N. Anker
@en
Jeffrey N. Anker
@es
Jeffrey N. Anker
@nl
Jeffrey N. Anker
@sl
P106
P1153
6701869998
P21
P31
P496
0000-0002-9544-2367