Hexagonal CoOOH Nanoflakes Synthesized From Three-Dimensional Cellulose Membrane Matrix With Enhanced Detection of Ascorbic Acid

In this work, cobalt oxyhydroxide (CoOOH) nanoflakes/cellulose composite membranes (CCM) were fabricated by a simple one-step method and green route without further treatment. The CoOOH nanoflakes were synthesized in the high-purity cellulose membranes (CM) matrix that expected to enhance its detection performance of ascorbic acid in comparison to the traditional paper-based sensors that were made of commercially available filter paper. The structure and properties of CM and CCM were characterized by SEM, EDS, FT-IR, XRD and XPS, etc. The combination mechanism between nanoflakes and cellulose was well analyzed and discussed by various characterizations and experiments. When the CCM was immersed into the ascorbic acid (AA) solution, the color changing from colorless to blue was observed only in 2 min. Furthermore, the CCM can be used for AA determination in real samples.

Upconversion luminescence detection of ascorbic acid based on NaGdF4:Yb,Er@NaYF4 nanoparticles and oxidase-like CoOOH nanoflakes

An upconversion luminescence system was developed for the determination of ascorbic acid by using NaGdF4:Yb,Er@NaYF4 nanoparticles and oxidase-like CoOOH nanoflakes.

A fluorescence and colorimetric dual-mode assay of alkaline phosphatase activity via destroying oxidase-like CoOOH nanoflakes

A fluorescence and colorimetric dual-mode assay of alkaline phosphatase activity was developed using a CoOOH nanoflake/o-phenylenediamine (OPD) sensing system.

A CoOOH nanoflake-based light scattering probe for the simple and selective detection of uric acid in human serum

In the presence of uricase, uric acid generated H2O2, which further decomposed CoOOH nanoflakes to release Co2+, resulting in smaller nanoparticles with lower light scattering. Based on the relationship between the reduced light scattering and uric acid concentration, the simple strategy was applicable to uric acid sensing in human serum samples.