Analysis of Mercury (Hg) in Whitening Cream Distributed in Palu City by Atomic Absorption Spectroscopy
Journal: JACSON-Journal of Applied Chemical Science (Vol.5, No. 1)Publication Date: 2018-06-20
Authors : Endah Dwijayanti; Susanti;
Page : 430-433
Keywords : whitening cream; mercury (Hg); wet destruction; atomic absorption spectroscopy;
Abstract
This study aimed to obtain chemical data of mercury from some whitening cream distributed in Palu City. The whitening cream samples consisted of 3 groups (A, B and C), each sample of the group was extracted through wet destructions. The qualitative analysis was with HCl 2.0 M, KI 0.50 N, NaOH 2.0 N reagents, while the quantitative analysis was performed with Atomic Absorption Spectroscopy (AAS). The results of the qualitative analysis indicated that the A sample reacted with NaOH 2.0 N reagent delivered yellow precipitates and C sample with KI 0.50 N reagent delivered red precipitates. Both data indicated that both samples showed positive reaction of Hg (II). However, the B samples did not occur the positive reaction indicating Hg. Based on Indonesian National Agency of Drug and Food Control (BPOM) regulation, (No.HK.03.1.23.07.11.6662 of 2011) related to the requirements of microbe and heavy metals contamination in cosmetics, the Hg (II) concentration in cream should be no more than 1,000.0 μg g-1. AAS results found in present study demonstrated that A sample holded mercury content over the level required by the BPOM, which it was 4,554.00 μg g-1. The B and C samples were 47.18 and 780.32 μg g-1 respectively, both samples did not exceed the limits set by the regulation but continuous application might be toxic for body.
Other Latest Articles
- The Effectiveness of Bio-Slurry and Inorganic Fertilizer Combination on the Performance of Rice (Oryza sativa L)
- Effect of Concentration of Soursop (Annona muricata) Leaf and Soaking Time on Protein and Fat Contents and Sensory Quality of Raw Chicken Meat
- Use of Polymer Membranes for Modeling Desulfurization in the Process of Pervaporation through Artificial Neural Network
- Performances of Zeolite, Coconut Shell, and Zeolite+Coconut Shell-Based Water Cartridges to Minimize Contaminants of Drinking Water
- Working in Twilight Zones: Some Reflections on the Conceptual and Methodological Issues of Inter-Disciplinary Approach in Public Health
Last modified: 2018-06-16 15:56:06