Dyes are aromatic organic compound which have an affinity towards the substrate to which they are being applied to. The presence of dyes in wastewater samples is not safe for human even at low level. The presence of dyes in wastewater which are discharged from textile industry must be analysed. Hence, a precise, fast, accurate, simple and inexpensive analytical method with low detection limit is needed for the determination of dyes in wastewaters. The differential pulse anodic stripping voltammetric (DPASV) technique using bare glassy carbon electrode (GCE) as a working electrode and phosphate buffer at pH 4.2 as a supporting electrolyte has been proposed for Reactive Black 5 (RB5) determination. Several experimental voltammetric parameters were being optimized for obtaining a maximum response before analytical validation of the proposed technique being carried out. The optimum parameters were initial potential (Ei) = +0.3 V, end potential (Ef) = +1.0 V, scan rate (v) = 0.04 V/s, accumulation time (tacc) = 50 s, accumulation potential (Eacc) = 0.4 V and pulse amplitude = 0.075 V. The well-defined anodic peak appeared at 0.77972 V. The response was linear from 0.5 to 1.25 mg/L (R2=0.9986) with LOD of 0.050 mg/L. The relative standard deviation (RSD) achieved were 0.08 %, 0.62 % and 0.50 %, respectively for three consecutive days. The % recovery range achieved was from 89.71 % to 111.15 %. It can be concluded that the proposed technique is precise, accurate, inexpensive, fast and has a potential to be an alternative analytical technique for RB5 analysis. The proposed method will in the future be tested for the amount of RB5 in the wastewater samples from textile industry.
Ascorbic acid is a water-soluble vitamin and commonly known as Vitamin
C. Human cannot synthesize the ascorbic acid. It is naturally rich in citrus
fruits and most of the vegetables. Hence, these fruits and vegetables become
main source of ascorbic acid to meet the requirement of a dietary intake. The
differential pulse anodic stripping voltammetric (DPASV) technique has
been proposed for ascorbic acid analysis in commercial Roselle juices based
on the electrochemical oxidation of the ascorbic acid at glassy carbon
electrode (GCE). Phosphate buffer solution (PBS) at pH 5.0 was used as a
supporting electrolyte. The optimum parameters used were Ei = +0.00 V, Ef
= 0.80 V, tacc = 60 s,