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Keyword [Analyte]
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1. Studies On Amperometric Immunosensors Based On Functionalized Nanoparticles For Single-analyte And Multianalytes Immunoassay In Same Interface
2. Development Of Imaging SPR Analyzer And Its Micro-array Sensing Chips
3. Development Of Novel Biosensors Based On Flow Injection Chemiluminescence
4. Optical interference based microarray imaging for label-free multi-analyte detection
5. Spectroelectrochemical sensing: Novel thin film characterization and multiple analyte detection
6. Non-invasive characterization of real time biofilm analyte flux
7. Nanometal particle reagents for sensitive, MEMS based fiber-optic, multi-analyte, immuno-biosensing
8. Resonant cavity enhanced multi-analyte sensing
9. Investigation of physical and spectral characteristics of laser-induced plasmas: Applications to laser-induced breakdown spectroscopy for analysis of aerosols and single particles
10. Functionalization and Characterization of Nanomaterial Gated Field-Effect Transistor-Based Biosensors and the Design of a Multi-Analyte Implantable Biosensing Platform
11. Spectroscopic and computational investigation of polymer coatings and analyte systems for use with guided shear horizontal surface acoustic wave (SH-SAW) sensors for liquid phase detection
12. A fractal analysis of analyte-receptor binding and dissociation kinetics for biosensor and biomedical applications
13. Photoresist modeling for 365 nm and 257 nm laser photomask lithography and multi-analyte biosensors indexed through shape recognition
14. Expanding the detection of analytes by use of mediators and ligands in developing new spectroelectrochemical sensor
15. Development of an optically based porous silicon biosensor
16. Silicon oxynitride integrated optical waveguide fluoroimmunosensor: Multiple analyte sensing
17. Fundamental studies of analyte/film interactions and their applications for chemical sensor devices
18. Development of plasmonics-based photoacoustic immunoassay and a photonic crystal substrate for sensitivity enhancement
19. Biosensing techniques in surface plasmon resonance microchips: Chemical signal processing for analyte binding
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