Litcius/Paper detail

Kelvin probe force microscopy on patterned large-area biofunctionalized surfaces: a reliable ultrasensitive platform for biomarker detection

Cinzia Di Franco, Matteo Piscitelli, Eleonora Macchia, Cecilia Scandurra, Michele Catacchio, Luisa Torsi, Gaetano Scamarcio

2023Journal of Materials Chemistry C14 citationsDOIOpen Access PDF

Abstract

antibodies physisorbed on a 50 μm × 90 μm area when assayed with increasing concentrations of antigens in phosphate buffer saline (PBS) standard solutions, in air and at a fixed scanning location. A comprehensive investigation of the influence of the main experimental parameters that may interfere with the outcomes of KPFM immune-assay is provided, showing the robustness and reliability of our approach. The data are supported also by a thorough polarization modulation infrared reflection-absorption spectroscopy (PM-IRRAS) analysis of the physisorbed biolayer, in the spectral region of the amide I, amide II and amide A bands. Our findings demonstrate that a 10 min incubation in 500 μL PBS encompassing ≈ 30 antigens (100 zM) triggers an extended surface potential shift that involves the whole investigated area. Such a shift quickly saturates at increasing ligand concentration, showing that the developed sensing platform works as an OFF/ON detector, capable of assessing the presence of a few specific biomarkers in a given assay volume. The reliability of the developed methodology KPFM is an important asset in single molecule detections at a wide electrode interface.

Topics & Concepts

Kelvin probe force microscopeMaterials scienceMicroscopyReproducibilityAnalytical Chemistry (journal)ChemistryBiophysicsNanotechnologyOpticsAtomic force microscopyChromatographyPhysicsBiologyForce Microscopy Techniques and ApplicationsMechanical and Optical ResonatorsNear-Field Optical Microscopy
Kelvin probe force microscopy on patterned large-area biofunctionalized surfaces: a reliable ultrasensitive platform for biomarker detection | Litcius