Estimation of available oxygen in powder form of oxygen releaser in henna based hair dyes
International Journal of Applied Chemistry |
© 2017 by SSRG - IJAC Journal |
Volume 4 Issue 2 |
Year of Publication : 2017 |
Authors : Jayaganesh Sankar, Bachan Singh Rawat, Jainendra Malankar, Venkataramana Arbettu Padmanabha |
How to Cite?
Jayaganesh Sankar, Bachan Singh Rawat, Jainendra Malankar, Venkataramana Arbettu Padmanabha, "Estimation of available oxygen in powder form of oxygen releaser in henna based hair dyes," SSRG International Journal of Applied Chemistry, vol. 4, no. 2, pp. 39-42, 2017. Crossref, https://doi.org/10.14445/23939133/IJAC-V4I4P108
Abstract:
Cream based hair colour offers the hydrogen peroxide as an oxidizing agent, it promote the oxidation of hair dyes and helps to deliver the desired colours. Henna based powder of hair dyes containing the inorganic peroxides. Inorganic peroxides namely barium peroxide, calcium peroxide, magnesium peroxide, sodium perborate mono hydrate, sodium perborate penta hydrate etc., used as an oxidizing agent; whenever the inorganic peroxides reacts with water it releases the oxygen. Inorganic peroxide reaction mechanisms are similar to hydrogen peroxide. Articles deals about the estimation of available oxygen in barium peroxide, sodium perborate and calcium peroxide in powder hair dyes. Theoretical value and estimated values are match together and having higher regression coefficient values. Calcium peroxide releases more amount oxygen when compared to the sodium perborate and barium peroxide. Around 10% of calcium peroxide incorporation henna based hair dye formula it releases the 1.6 % of available oxygen; however, around 20% of barium peroxide incorporated in the formula releases 1.5% of available oxygen. This study is a viable tool for the formulator for adjusting the available oxygen content. This article confirms that among the powder form of oxidizing agent, calcium peroxide releases higher amount of oxygen and also having the high purity. Therefore the incorporation of calcium peroxide in henna based formula delivers the superior colour and produces the long lasting colour with low price.
Keywords:
Iodimetric method, calcium peroxide, barium peroxide, sodium perborate, available oxygen, henna based powder hair dyes
References:
1. Divya Bajpai and T.K. Tyagi, “Laundry detergents: An overview” Journal of Oleo Science, 6 (7):327-340, 2007.
2. K. Mohammadreza, M. Nahid, R. Masumeh and G. Bagheri, “Quantitative determination of sodium perborate and sodium per carbonate in detergent powders by Infrared spectrometry”, Journal of Analytical Chemistry, 67(4): 330-334, 2012.
3. M. Emi, P.T. Sunitha and L.T.Philip, “Effect of different concentrations of detergent on dissolved oxygen consumption in anabas testudineus”, Environmental science, toxicology & Food technology, 5(3):01-03, 2013.
4. Indian standard IS:3598, Specification for Sodium perborate mono and tetra hydrate, 1983.
5. D.P. Cassidy and R.L. Irvine, “Use of calcium peroxide to provide oxygen for contaminant biodegradation in a saturated soil”, J. Haz. Mat. 69(1)25-39, 1999.
6. G. Liu and D.M. Porterfield, “Oxygen enrichment with magnesium peroxide for minimizing hypoxic stress of flooded corn”. J. Plant Nutr. Soil Sci. 11:733-740, 2014.
7. D.Golberg, Y. Bando, K. Fushimi, M. Mitome, L. Bourgeois, C.C. Tang, “Nanoscale oxygen generators: MgO2-based fillings of BN nanotubes”. J. Phys. Chem. B 107, 8726–8729, 2003.
8. S.E, Agarry and K.M. Oghenejoboh, “Biodegradation of Bitumen in Soil and Its Enhancement by Inorganic Fertilizer and Oxygen Release Compound: Experimental Analysis and Kinetic Modeling”. J Microbial Biochem Technol, S4(02) 1-8, 2014.
9. Christel Pierlot, Véronique Nardello, Jordane Schrive, Caroline Mabille, Jacques Barbillat, Bernard Sombret, and Jean-Marie Aubry, “Calcium Peroxide Diperoxohydrate as a Storable Chemical Generator of Singlet Oxygen for Organic Synthesis”, J. Org. Chem., 67 (8), 2418–2423, 2002.
10. J. Khodaveisia, H. Banejadb, A. Afkhamic, E. Olyaieb, S. Lashgaria, R. Dashti; “Synthesis of calcium peroxide nanoparticles as an innovative reagent for in situ chemical oxidation”, Journal of Hazardous materials, 1437 – 1440, 2011.
11. Marcia Carneiro Valera, Carlos Henrique Ribeiro Camargo, Claudio Antonio Talge Carvalho, Luciane Dias De Oliveira, Samira Esteves Afonso Campargo and Cristiana Martins Rodrigues, “Effectiveness of carbamide peroxide and sodium perborate in non-vital discolored teeth” Journal of Applied Oral Science, 17(3):254-261, 2009.
12. D.N. Hanh, B.K. Rajbhandari and A.P. Annachhatre, “Bioremediation of sediments from intensive aquaculture shrimp farms by using calcium peroxide as slow oxygen release agent”, Environmental Technology, 26(5), 581-589, 2005.