The detection of glucose has important significance in clinical medicine and the food
industry, especially in the diagnosis of diabetes. In recent years, electrochemical non …

Low-dimensional copper oxide nanostructures are very promising building blocks for
various functional materials targeting high-demanded applications, including energy …

The new generation of glucose biosensors has gained immense research interest owing to
its cost effectiveness, quick response, good stability, reproducibility, and low detection limit …

Electrochemical non-enzyme sensors based on metal and metal oxide nanocomposites are
still a new challenge and a huge potential area. In this work, a ternary flower-like Cu 2 O-Cu …

More than five decades have been invested in understanding glucose biosensors. Yet, this
immensely versatile field has continued to gain attention from the scientific world to better …

In this review, we present an overview of different methods for preparing Cu-based materials
with a focus on the preparation of hollow structural materials using Kirkendall effect …

In this work, multifunctional CuO nanowires (NWs) electrode-based extended-gate (EG) field-
effect transistor (FET) has been explored for both pH and glucose sensing applications. The …

Biosensors are essential components for effective healthcare management. Since biological
processes occur on molecular scales, nanomaterials and nanosensors intrinsically provide …

Defect engineering in CuO nanomaterials has been extensively investigated because this
technology can greatly improve the performance of CuO components in a variety of …

An enzyme-free glucose electrochemical sensor was constructed based on MnCo-based
nanoparticles with hierarchical carbon (Co/MnO@ HC), which was derived from …