Self-Templated Highly Porous Gold Electrodes for Antibiofouling Electrochemical (Bio)Sensors
Anisa Degjoni, Cristina Tortolini, Daniele Passeri, Andrea Lenzi, Riccarda Antiochia

TL;DR
Researchers developed a porous gold electrode that resists biofouling, a common issue in biosensors, by using a self-templated method with hydrogen bubbling.
Contribution
The novel self-templated highly porous gold film significantly enhances antibiofouling properties in electrochemical biosensors.
Findings
The h-PG film has an electrochemically active surface area 88 times higher than unmodified electrodes.
The h-PG-modified electrode showed rapid regeneration after biofouling exposure due to pore size and electrostatic effects.
The h-PG film performed well in real serum and plasma samples, indicating biomedical potential.
Abstract
Biofouling arises from non-specific adsorption of several components present in complex biofluids, such as full blood, on the surface of electrochemical biosensors, with a resulting loss of functionality. Most biomarkers of clinical relevance are present in biological fluids at extremely low concentrations, making antibiofouling strategies necessary in electrochemical biosensing. Here, we demonstrate the effect of a highly porous gold (h-PG) film electrodeposited on a gold screen-printed electrode (AuSPE) using a self-templated method via hydrogen bubbling as an antibiofouling strategy in electrochemical biosensor development following exposure of the electrode to bovine serum albumin (BSA) at two different concentrations (2 and 32 mg/mL). The h-PG film has a high electrochemically active surface area, 88 times higher than the AuSPE electrode, with a pore size ranging from 2 to 50 μm. A…
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Taxonomy
TopicsNanoporous metals and alloys · Electrochemical sensors and biosensors · Molecular Junctions and Nanostructures
