Sistema Oscilador Mejorado para Aplicaciones de Microbalanza (QCM) en Medios Líquidos y Propuesta de un Nuevo Método de Caracterización para Biosensores Piezoeléctricos

Ferizzola, Montagut; Javier, Yeison

doi:10.4995/thesis/10251/9688

Cited by 1 publication

(1 citation statement)

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“…Unlike other systems, HFF-QCMs do not produce a shift in frequency after a change in mass density has been detected on the surface. Instead, they produce a shift in signal phase [5]. The relationship between mass and signal phase is shown in eq.…”

Section: Introductionmentioning

confidence: 99%

Immobilization of DNA probes on a high frequency piezoelectric biosensor

Monsalve

González

Grajales

2020

DYNA

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In recent years, researchers have taken to biosensors as effective tools for detection due to their portability, low-cost, fast response, and practicality. Piezoelectricity gave way to quartz crystal microbalances (QCM), of which high-frequency QCMs (HFF-QCM 100MHz) are still being researched. In this paper, we use DNA immobilization on a HFF-QCM via self-assembled monolayers (SAM) technique. Immobilization was initially verified with ATR-FTIR. Then, DNA was immobilized in real time on the HFF-QCM crystals. A variation in the phase of the signal suggests fixation of DNA to the surface, in accordance with ATR-FTIR results. A density of 629 ng/cm2 was computed. Also, a positive correlation between immobilized DNA and DNA concentration, and the appearance of a saturation point between 1 and 5 μM were shown after analysis of different DNA concentrations.

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Section: Introductionmentioning

confidence: 99%