Long-term exposure to As through drinking water is an important health problem in Latin
America (LA), causing both carcinogenic and non-carcinogenic effects (McClintock TR …

In this study, a novel flexible and disposable electrochemical sensor was fabricated through
the straightforward laser-induced synthesis of catalytic Au nanoparticles (AuNPs)@ LIG …

A carbon nanotube flow-through membrane electrode decorated by gold nanoparticles
(GCME) was utilized for the detection of As (III) in water. The carbon nanotube membrane …

Point of use (POU) sensors are extremely relevant, being capable of providing fast and
reliable analysis in remote and resource-limited settings. Of all the diverse techniques …

An ultrasensitive electrochemical sensor to detect arsenic (III), a highly toxic heavy metal ion,
has been successfully developed. The sensing platform composed of L-cysteine (Lcyst) …

Emerging sensor technology has led to develop high-performance sensors that satisfy most
of the sensing parameters. However, still further advances are needed for sensors to …

Nanocomposites of gold nanoparticles (AuNPs) and conducting polymers, polypyrrole (PPy)
and polyaniline (PANI), were prepared by simple oxidative polymerization of the …

Arsenic is an extremely poison element in earth crust and its contamination in environment
is a global hazard. In this study, an efficient electrochemical detection of arsenite [As (III)] has …

A sensitive electroanalytical method for the determination of arsenite, based on a
heterostructure of aminated multiwalled carbon nanotubes and gold nanoparticles, was …

Environmental conversion of As (III) to less toxic As (V) is a critical step for the arsenic
pollution remediation. In the present study, MoS 2 ultrathin nanosheets modified carbon felt …