Hydrothermally obtained β-MnO2 nanoparticles/activated carbonized coconut fibers composites, electrochemical properties study for future energy storage devices

“…The a-type has been primarily studied for glucose sensing because of its unique 2 × 2 and 1 × 1 tunnels, which promote electrode kinetics. 16,17 In contrast, despite b-MnO 2 being widely discussed as a material for Li-ion batteries 18,19 or supercapacitors 20,21 due to its high specic capacity, its use as an active material for glucose sensors has been reported in a few studies.…”

Acetate-assisted in situ electrodeposited β-MnO₂ for the fabrication of nano-architectonics for non-enzymatic glucose detection

“…The a-type has been primarily studied for glucose sensing because of its unique 2 × 2 and 1 × 1 tunnels, which promote electrode kinetics. 16,17 In contrast, despite b-MnO 2 being widely discussed as a material for Li-ion batteries 18,19 or supercapacitors 20,21 due to its high specic capacity, its use as an active material for glucose sensors has been reported in a few studies.…”

Acetate-assisted in situ electrodeposited β-MnO₂ for the fabrication of nano-architectonics for non-enzymatic glucose detection

Multiscale control of MnO2 growth via [WO6]-perturbed [MnO6] assembly toward a favorable balance between capacitance and rate performance

In-situ functionalization of MnO2 nanoparticles by natural tea polyphenols: A greener sorbent for dispersive solid-phase extraction of parabens from wastewater and cosmetics