Electrode fouling is a phenomenon that can severely affect the analytical characteristics of a
technique or a sensor, such as sensitivity, detection limit, reproducibility, and overall …

Carbon nanofibers (CNFs) exhibit great potentials in the fields of materials science,
biomedicine, tissue engineering, catalysis, energy, environmental science, and analytical …

Designing efficient electrode materials for electrochemical water splitting is the most critical
challenge for next-generation hydrogen fuel production. This study describes the …

Diabetes mellitus has become a worldwide epidemic, and it is expected to become the
seventh leading cause of death by 2030. In response to the increasing number of diabetes …

The increased interest in electrospinning (ES) and its recent applications for fabrication of
sensors and biosensors is driven by the development of materials science and …

The most critical challenge in hydrogen fuel production is to develop efficient, eco-friendly,
low-cost electrocatalysts for water splitting. In this study, self-supported carbon nanofiber …

Nanofibers or nanofibrous membranes prepared by electrospinning possess many attractive
properties, including excellent mechanical properties, high specific surface area and high …

Nanofibers are long, wire‐like materials with nanoscale diameters and specific length
diameter ratios. Nanofibers have porous reticular networks with remarkably high specific …

Binary metal oxides, especially NiCo 2 O 4, hold great promise as electrode materials for
high-performance sensors because of their excellent electrical conductivity compared to …

Because of increasing demands for point-of-care chemo-/bio-sensor in analytical sciences,
films-based sensing platforms experience a great upsurge. Electrospinning is recognized as …