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Development of Cost-effective Mosquito Repellent and Distribution Method by Extracting Patchouli Oil

The Journal of Industrial Distribution & Business / The Journal of Industrial Distribution & Business, (E)2233-5382
2019, v.10 no.12, pp.15-23
https://doi.org/https://doi.org/10.13106/ijidb.2019.vol10.no12.15
KWON, Woo-Taeg
KWON, Lee-Seung
YOO, Ho-Gil
LEE, Woo-Sik

Abstract

Purpose : We will develop the distribution method of wide oil extract technology to develop repellent using this technology and study mosquito repellent persistence. Research design, data and methodology : A positive control group containing purified water, ethanol and picaridin was prepared, and the experimental control group was prepared in the same proportion as the positive control group, and 0.6% of broad oil was added. The results were summarized using the calculation method according to the avoidance effect and statistically tested by t-test using the excel statistics program. Results : Experiments on skin surface area and voice control of participants showed that men had 8.9% wider skin surface area than women, and voice control tests showed that women were bitten by mosquitoes five times more than men. Both the positive and the experimental control groups had a valid duration of up to three hours, but from the time of five hours, the positive control group had 77% and the experimental control had 90%, indicating a difference of 14.4% over the positive control group. Conclusions : The mosquito repellents developed in this study on the basis of safety and continuity are cost-effective in terms of mosquito repellent, and in addition fragrance, odor removal, perfume, ink, skin care and massage effect.

keywords
Picaridin, Patchouli oil, Mosquito, Repellency, Avoidance agents

Reference

1.

Yuliani, A., & Sri, H. A. (2012). Evaluation of PhysicoChemical Properties of Patchouli Oils (Pogostemon cablin) Separated by Fractional Distillation Method. Paper presented at the 8th IMT-GT Uninet Biosciences Conferences, Banda Aceh, Indonesia (pp. 22-24).

2.

Lawal, H. O., Adewuyi, G. O., Fawehinmi, A. B., &Etatuvie, S. O. (2013). Chemical evaluation of mosquito repellent formulation prepared from the essential oil of plants. Journal of Natural Products, 6(2013), 33-37.

3.

Hu, L. F., Li, S. P., Cao, H., Liu, J. J.,Gao, J. L., Yang, F. Q., & Wang, Y. T. (2006). GC-MS fingerprint of Pogostemon cablin in China. Journal of Pharmaceutical and Biomedical Analysis, 42(2006), 22-24.

4.

Kusuma, H. S., & Mahfud, M. (2017). GC-MS analysis of essential oil of Pogostemon cablin growing in Indonesia extracted by microwave-assisted hydrodistillation. International Food Research Journal, 24(4), 1525-1528

5.

Teris, A. B., & Daniel, J. (2017). The essential oil of patchouli, Pogostemon cablin : A review. Flavour and Fragrance Journal, 33(1), DOI: 10.1002/ffj.3418.

6.

Park, S. H., Oh, H. W., Kwon, H. R., Seo, M. J., Yu, Y. M., & Youn, Y. N. (2014). Insecticidal Activities of Tussilago farfara Extracts against Culex pipiens pallens and Tetranychus urticae. CNU Journal of Agricultural Science, 41(2), 177-185.

7.

Park, J. H., Ryu, K. Y., Jee, H. J., Lee, B. M., & Gho, H. G. (2008). Evaluation of Insecticidal Activity of Plant Extracts against Three Insect Pests. Korean Society of Applied Entomology, 47(1), 59-64

8.

Kyung, S. H., & Yoon, Y. H. (1999). Evaluation of Insecticidal Activity of Plant Extracts against Three Insect Pests. The Korean Society of Pesticide Science, 3(1), 46-50.

9.

Choi, I. J., Kwon, H. H., Lee, H. H., Son, H. G., Hong, S. G., Kang, J. W., & Park, Y. S. (2013). Evaluation of Insecticidal Activity of Plant Extracts against the Diamondback Moth, Plutella xylostella (Lepidoptera:Plutellidae) on Vegetable Plant. Korean J Plant Res, 26(1), 19-25.

10.

Kim, S. G., Jin, J. H., Lim, C. K., Jang, H. H., & Cho, S. Y. (2009). Evaluation of Insecticidal Efficacy of Plant Extracts Against Major Insect Pests. The Korean Journal of Pesticide Science, 13(3), 165-170.

11.

Kim, K. W., & Kim, S. Y. (2005). Herbicidal and Fungicidal Activities of Methanol Extracts from Native Plants in Korea. The Korean Journal of Weed Science, 25(3), 221-232.

12.

Baik, J. A., Song, M., & Jang, M. H. (2010). Insecticidal Effect of Some Local Native Fragrant Plantson Larvae of the Mosquito. Korean Society for Horticultural Science, 28(S1), 170-171

13.

Chang, I. C., & Hwang, H. G. (2007). Physicians’acceptance of pharmacokinetics based clinical decision support systems. Expert Systems with Applications, 33(2), 296-303.

14.

Kijsanayotin, B., Pannarunothai, S., & Speedie, S. M. (2009). Factors influencing health information technology adoption in Thailand’s community health centers: Applying the UTAUT model. International Journal of Medical Informatics, 78(6), 404-416.

15.

Kim, H. K., & Kim, W. K. (2017). An Exploratory Study for Artificial Intelligence Shopping Information Service. Journal of Distribution Science, 15(4), 69-78.

16.

Miltaen, C. L., Popovic, A., & Oliveria, T. (2013). Determinants of end-user acceptance of biometrics:Integrating the “Big 3” of technology acceptance with privacy context. Decision Support Systems, 56, 103-114.

17.

Parasuraman, A., Zeithaml, V. A., & Malhotra, A. (2005). ES-QUAL a Multiple-item Scale for Assessing Electronic Service Quality. Journal of Service Research, 7(3), 213-233.

18.

Sadhya, D., & Singh, S. K. (2016). Privacy preservation for soft biometrics based multimodal recognition system. Computers & Security, 58, 160-179.

19.

Salisbury, R. P., Pearson, A., & Miller, D. W. (2001). Identifying barriers that keep shoppers off the World Wide Web: developing a scale of perceived web security. Industrial Management & Data Systems, 101(4), 165-176.

20.

Touray, A., Salminen, A., & Murse, A. (2014). Internet adoption at the User Level: Empirical Evidence from The Gambia. Information Technology for Development, 21(2), 281-296.

21.

Venkatesh, V., & Bala, H. (2008). Technology acceptance model 3 and a research agenda on interventions. Decision Sciences, 39(2), 273-315.

22.

Wei, J., Lowry, P. B., & Seedorf, S. (2016). The assimilation of RFID technology by Chinese companies:A technology diffusion perspective. Information &Management, 52(6), 625-642.

23.

Wua, J. H., & Wang, S. H. (2005). What drives mobile commerce? An empirical evaluation of the revised technology acceptance model. Information &Management, 42(5), 719-7.

The Journal of Industrial Distribution & Business