2021
DOI: 10.1021/acsami.1c17243
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Impedance-Based Nanoporous Anodized Alumina/ITO Platforms for Label-Free Biosensors

Abstract: We report an experimental and computational approach for the fabrication and characterization of a highly sensitive and responsive label-free biosensor that does not require the presence of redox couples in electrolytes for sensitive electrochemical detection. The sensor is based on an aptamer-functionalized transparent electrode composed of nanoporous anodized alumina (NAA) grown on indium tin oxide (ITO)-covered glass. Electrochemical impedance changes in a thrombin binding aptamer (TBA)-functionalized NAA/I… Show more

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Cited by 10 publications
(13 citation statements)
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“…The temperature of different formulations was recorded using a thermal imager. To measure the photoelectric performance of formulations (P6, PLT, PEDOT, and P6@PEDOT@PLT), the samples were deposited on an indium tin oxide (ITO)-coated glass by oven-drying . The sample-deposited ITO glass was repeatedly irradiated by NIR (1.0 W/cm 2 , on/off: 20/20 s), with the generated electric current being measured by a digital multimeter (DMM-93B + ).…”
Section: Methodsmentioning
confidence: 99%
“…The temperature of different formulations was recorded using a thermal imager. To measure the photoelectric performance of formulations (P6, PLT, PEDOT, and P6@PEDOT@PLT), the samples were deposited on an indium tin oxide (ITO)-coated glass by oven-drying . The sample-deposited ITO glass was repeatedly irradiated by NIR (1.0 W/cm 2 , on/off: 20/20 s), with the generated electric current being measured by a digital multimeter (DMM-93B + ).…”
Section: Methodsmentioning
confidence: 99%
“…The results showed that the sensing response is produced by modified ionic transport under the effect of steric hindrance and surface charge modification induced by ligand–receptor attachment between thrombin and the aptamer-covered alumina film. The constructed sensor detected TB with a detection limit of 10 pM and offered production simplicity, cost-effectiveness, and miniaturization [ 62 ].…”
Section: Electrochemical Biosensorsmentioning
confidence: 99%
“…Electrochemical impedance spectroscopy can measure target concentrations via changes in the degree of crowding on electrode interface, avoiding tedious steps for addition and preservation of labeled probes, making detection operations and device integration much more accessible for further bedside diagnosis of infectious diseases. , However, in planar electrodes, due to the low molecular weight of nucleic acids, there is little change in the degree of crowding before and after nucleic acid hybridization, resulting in an unobvious change in impedance, limiting the utility of electrochemical impedance spectroscopy for infectious disease nucleic acid testing. , A growing body of evidence suggests that the rigidity of nucleic acids can be enhanced greatly by forming a double-stranded complex, and their molecular volume would change more by confined structures of electrode interface. Inspired by this, the nanopore structure with a high surface area was introduced into the electrodes . Nucleic acids can block the pore by forming a rigid double-stranded structure, and this structure sharply reduces the real surface area of nanopore electrodes, thus amplifying changes of impedance value and addressing the sensitivity limitations of impedance methods toward detecting small nucleic acid molecules. …”
Section: Introductionmentioning
confidence: 99%