High entropy alloys (HEA) are one of the modern-era alloys accelerating with greater velocity because of their excellent properties and different applications. In the present paper, we have successfully fabricated HEA (23Fe-21Cr-18Ni-20Ti-18Mn) powders by ball milling the elemental Fe, Cr, Ni, Ti, and Mn powders for 15 h. The advancement of the milling process and phase transformation of HEAs were studied by using X-ray diffraction (XRD) and scanning electron microscope (SEM). The crystallite size and the lattice strain of the HEA were calculated by using the Williamson-Hall (W-H) equation and the values were found to be 7 nm and 0.0176%, respectively. Similarly, the true lattice parameter was calculated using the Nelson–Riley (N-R) extrapolation method, and the value was found to be 3.544 Å. We have successfully investigated the electrochemical response of 15 h ball milled 23Fe-21Cr-18Ni-20Ti-18Mn HEA powders to determine the ascorbic acid (AA) using cyclic voltammetry. We have modified the carbon paste electrode with ball milled HEA of concentrations 0, 2, 4, 6, 8, and 10 mg, and among them, 8 mg HEA modified carbon paste electrode (HEA-MCPE) depicted the highest current sensitivity. We reported the effect of modifier concentration, analyte concentration, scan rate, and pH on the oxidation peak of AA. The electrochemical active surface area of carbon paste and MCPE was calculated using the Nernst equation and the values were found to be 0.0014 cm2 and 0.0027 cm2, respectively. The fabricated HEA-MCPE showed excellent current sensitivity, stability, anti-fouling, and selectivity.
The degradation of
methylene blue and rhodamine B dyes using potassium
hexatitanate nanoparticles (KTNPs) and potassium hexatitanate nanotubes
(KTNTs) synthesized via a hydrothermal method as efficient photocatalysts
under UV light irradiation was investigated. The kinetics of degradation
was determined for the two different catalysts––KTNPs
and KTNTs––by monitoring the optical absorption of the
dyes. The as-synthesized KTNPs were found to be spherical in shape
with an average particle size of ∼36 ± 1.7 nm, whereas
the KTNTs evidenced a tubular hollow structure with ∼7 nm internal
diameter and ∼12 nm external diameter, as perused by structural
and morphological studies. The larger surface area of KTNTs showed
a greater impact on the photodegradation of dyes manifesting their
high potential as compared to KTNPs under UV irradiation, and the
reusability studies showed more than 90% (KTNTs) and 80% (KTNPs) degradation
of the dyes even after the fourth cycle elucidating their stability.
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