Monitoring of phenolic compounds in the food industry and for environmental and medical
applications has become more relevant in recent years. Conventional methods for detection …

Engineered nanostructures are materials with promising properties, enabled by precise
design and fabrication, as well as size-dependent effects. Biomedical applications of …

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

Laccase is a multi-copper enzyme widely expressed in fungi, higher plants, and bacteria
which facilitates the direct reduction of molecular oxygen to water (without hydrogen …

Biosensors are analytical tools that can be used as simple, real-time and effective devices in
clinical diagnosis, food analysis, and environmental monitoring. In the last years …

As a kind of two-dimensional layered nanomaterial, MoS 2 nanosheets have been widely
used in the field of biosensors. In this work, a novel laccase based biosensor for catechol …

Electrospinning has emerged as a very powerful method combining efficiency, versatility
and low cost to elaborate scalable ordered and complex nanofibrous assemblies from a rich …

In the recent past, numerous new types of nanostructured carriers, as support matrices, have
been engineered to advance the traditional enzyme immobilization strategies. The current …

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

Electrospinning is a simple, low-cost and versatile method for fabricating submicron and
nano size fibers. Due to their large surface area, high aspect ratio and porous structure …