Efficient Chemical Surface Modification Protocol on SiO2 Transducers Applied to MMP9 Biosensing

Abstract: The bioreceptor immobilization process (biofunctionalization) turns to be one of the bottlenecks when developing a competent and high sensitivity label-free biosensor. Classical approaches seem to be effective but not efficient. Although biosensing capacities are shown in many cases, the performance of the biosensor is truncated by the inefficacious biofunctionalization protocol and the lack of reproducibility. In this work, we describe a unique biofunctionalization protocol based on chemical surface modificat… Show more

“…Ensuring the prevention of recombination between the generated electrons and holes is crucial for achieving effective photocatalysis [76][77][78]. In the photocatalytic procedure, the active radicals include OH * , O2 *and the photogenerated holes.…”

Development of SiO2/rGO from Rice Husk for Photocatalysis, Antioxidant, Electrochemical and Green Sensor Detection Studies

“…Ensuring the prevention of recombination between the generated electrons and holes is crucial for achieving effective photocatalysis [76][77][78]. In the photocatalytic procedure, the active radicals include OH * , O2 *and the photogenerated holes.…”

Development of SiO2/rGO from Rice Husk for Photocatalysis, Antioxidant, Electrochemical and Green Sensor Detection Studies

Techniques for characterizing biofunctionalized surfaces for bioanalysis purposes

Development of rare earth doped SiO2/rGO from rice husk for antioxidant, photocatalysis, electrochemical and sensor studies