Recently, magnetic iron oxide particles have been emerged as significant nanomaterials
due to its extensive range of application in various fields. In this regard, synthesis of iron …

Various kinds of nanomaterials have been described in recent years that represent stable
and low-cost alternatives to biomolecules (such as enzymes) for use in (bio) analytical …

Rational design and construction of electrocatalytic nanomaterials is vital for improving the
sensitivity and selectivity of nonenzymatic electrochemical sensors. Here, we report a novel …

A low cost iron phthalocyanine (FePc)-MnOx composite catalyst was prepared for the
oxygen reduction reaction (ORR) in the cathode of microbial fuel cells (MFCs). The catalysts …

We demonstrate a facile, two-step coating/calcination approach to grow a uniform MnO
nanoparticle@ mesoporous carbon (MnO@ C) composite on conducting substrates, by …

In this article, a brief overview of manganese oxide nanomaterials (NMs) potential towards
oxygen reduction reaction (ORR) for microbial fuel cell (MFC), bioremediations, and battery …

High-performance hydrogen peroxide sensors provide valuable signals of biological
interactions, disorders, and developing of diseases. Low-cost metal oxides are promising …

Facilely constructed metal nanoparticles with highly active sites, high economic impact, and
stable electrocatalysts are crucial to developed sensory protocol for oxygen reactive species …

A new type of three-dimensional electrochemical sensor platform, MnO2 nanosheets/carbon
foam (MnO2/CF) hybrid nanostructure, was successfully fabricated for the nonenzymatic …

In this paper, the effect of the deposition potential on characteristics, phase compositions
and photocatalysis performances of SnO 2 nanostructures obtained by electrodeposition …