Aligned gap multiple split ring resonator biosensor for DNA hybridization detection at microwave frequency

Abstract: In this paper, the interest of microwave signals for biological detection applications using metamaterial structure as a biosensor element has been demonstrated. Microwave sensing is highly challenging for biological detection as it presents the attractive advantages of being contactless, non-invasive at low power level and yet its label free. The resonant frequency of the sensor is measured as 4.96 GHz. The shift in resonant frequency is employed as the sensor output for deoxyribonucleic acid (DNA) detection.… Show more

“…The measurements were performed by using the true non-contact mode with an HQ: NSC14/Al BS Cantilever of 8 nm radius and 5.0 force N/m. Topographical parameters, such as mean roughness (Sa) and depth, were examined by following the common procedures reported in surface characterization studies of DNA immobilization (Rusni and Ismail, 2017;Cardoso et al, 2016;Patel et al, 2010;Aghaei et al, 2017). The non-contact mode produces minor vibration amplitude, which keeps the oligonucleotides over the WE unimpaired.…”

Developing a nano-biosensor for early detection of pancreatic cancer

“…The measurements were performed by using the true non-contact mode with an HQ: NSC14/Al BS Cantilever of 8 nm radius and 5.0 force N/m. Topographical parameters, such as mean roughness (Sa) and depth, were examined by following the common procedures reported in surface characterization studies of DNA immobilization (Rusni and Ismail, 2017;Cardoso et al, 2016;Patel et al, 2010;Aghaei et al, 2017). The non-contact mode produces minor vibration amplitude, which keeps the oligonucleotides over the WE unimpaired.…”

Developing a nano-biosensor for early detection of pancreatic cancer