Origanum vulgare
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-
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Leaves |
- |
- |
Nanoparticle (chitosan) |
Hosseini et al. (2013)Hosseini, S.F., Zandi, M., Rezaei, M., Farahmandghavi, F., 2013. Two-step method for encapsulation of oregano essential oil in chitosan nanoparticles: preparation, characterization and in vitro release study. Carbohydr. Polym. 95, 50-56.
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Lippia sidoides
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-
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- |
Terpenes (thymol) |
- |
Nanoparticle (chitosan, cashew gum) |
Abreu et al. (2012)Abreu, F.O.M.S., Oliveira, E.F., Paula, H.C.B., de Paula, R.C.M., 2012. Chitosan/cashew gum nanogels for essential oil encapsulation. Carbohydr. Polym. 89, 1277-1282.
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Nanoparticle (alginate, cashew gum) |
de Oliveira et al. (2014)de Oliveira, E.F., Paula, H.C.B., de Paula, R.C.M., 2014. Alginate/cashew gum nanoparticles for essential oil encapsulation. Colloids Surf. B 113, 146-151.
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Eucalyptus camaldulensis
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HD |
Leaves |
Terpenes (eucalyptol) |
Microbicide |
Liposome(phosphatidyl-choline, cholesterol) |
Moghimipour et al. (2012)Moghimipour, E., Aghel, N., Zarei Mahmoudabadi, A., Ramezani, Z., Handali, S., 2012. Preparation and characterization of liposomes containing essential oil of Eucalyptus camaldulensis leaf. J. Nat. Pharm. Prod. 7, 117-122.
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Artemisia arborescens
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HD |
Aerial parts |
Terpenes (camphor, β-thujone and chamazulene) |
Antiviral |
Liposome(phosphatidyl-choline, cholesterol, stearylamine) |
Sinico et al. (2005)Sinico, C., De Logu, A., Lai, F., Valenti, D., Manconi, M., Loy, G., Bonsignore, L., Fadda, A.M., 2005. Liposomal incorporation of Artemisia arborescens L. essential oil and in vitro antiviral activity. Eur. J. Pharm. Biopharm. 59, 161-168.
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Atractylodes macrocephala
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SC CO2
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Rhizomes |
Sesquiterpenes (Atractylone) |
- |
Liposome (lecithin and cholesterol) |
Wen et al. (2010)Wen, Z., Liu, B., Zheng, Z., You, X., Pu, Y., Li, Q., 2010. Preparation of liposomes entrapping essential oil from Atractylodes macrocephalaKoidz by modified RESS technique. Chem. Eng. Res. Des. 88, 1102-1107.
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Schinus molle
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HD |
Woods |
Essential oil (not specified) |
Trypanocidal activity |
Nanoemulsion (Tween® 80, Span®80) |
Baldissera et al. (2013)Baldissera, M.D., Da Silva, A.S., Oliveira, C.B., Zimmermann, C.E.P., Vaucher, R.A., Santos, R.C.V., Rech, V.C., Tonin, A.A., Giongo, J.L., Mattos, C.B., Koester, L., Santurio, J.M., Monteiro, S.G., 2013. Trypanocidal activity of the essential oils in their conventional and nanoemulsion forms: in vitro tests. Exp. Parasitol. 134, 356-361.
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Carapa guianensis
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-
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Seeds |
Essential oil (not specified) |
Trypanocidal activity |
Nanoemulsion (Tween® 80, Span®80) |
Baldissera et al. (2013)Baldissera, M.D., Da Silva, A.S., Oliveira, C.B., Zimmermann, C.E.P., Vaucher, R.A., Santos, R.C.V., Rech, V.C., Tonin, A.A., Giongo, J.L., Mattos, C.B., Koester, L., Santurio, J.M., Monteiro, S.G., 2013. Trypanocidal activity of the essential oils in their conventional and nanoemulsion forms: in vitro tests. Exp. Parasitol. 134, 356-361.
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Eucalyptus globulus
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HD
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- |
Eucalyptol |
Insecticidal |
Nanoemulsion (Tween® 80) |
Sugumar et al. (2014)Sugumar, S., Clarke, S.K., Nirmala, M.J., Tyagi, B.K., Mukherjee, A., Chandrasekaran, N., 2014. Nanoemulsion of eucalyptus oil and its larvicidal activity against Culex quinquefasciatus. Bull. Entomol. Res. 104, 393-402.
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Ocimum basilicum
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-
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Leaves |
Phenylpropene (estragole) |
Microbicide |
Nanoemulsion (Tween® 80) |
Ghosh et al. (2013)Ghosh, V., Mukherjee, A., Chandrasekaran, N., 2013. Ultrasonic emulsification of food-grade nanoemulsion formulation and evaluation of its bactericidal activity. Ultrason. Sonochem. 20, 338-344.
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Eucalyptus globulus + Jatropha curcas+ Pongamia glabra
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HD + Aqueous + Aqueous |
- |
Eucalyptol Phorbol esters Karingin |
Insecticidal |
Nanoemulsion (Tween® 80) |
Pant et al. (2014)Pant, M., Dubey, S., Patanjali, P.K., Naik, S.N., Sharma, S., 2014. Insecticidal activity of eucalyptus oil nanoemulsion with karanja and jatropha aqueous filtrates. Int. Biodeterior. Biodegrad. 91, 119-127.
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Stenachaenium megapotamicum
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HD |
Flowers and leaves |
Terpenes (fokienol, thymol and others) |
Microbicide |
Nanoemulsion (Tween® 80) |
Danielli et al. (2013)Danielli, L.J., dos Reis, M., Bianchini, M., Camargo, G.S., Bordignon, S.A.L., Guerreiro, I.K., Fuentefria, A., Apel, M.A., 2013. Antidermatophytic activity of volatile oil and nanoemulsion of Stenachaenium megapotamicum(Spreng.) Baker. Ind. Crops Prod. 50, 23-28.
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Copaifera multijuga
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Direct |
Trunks |
Diterpenic acids and sequiterpenes (β-caryophyllene) |
Topical anti-inflammatory |
Nanoemulsion (Tween® 80, Span®80) |
Dias et al. (2012)Dias, D.d.O., Colombo, M., Kelmann, R.G., De Souza, T.P., Bassani, V.L., Teixeira, H.F., Veiga Jr., V.F., Limberger, R.P., Koester, L.S., 2012. Optimization of headspace solid-phase microextraction for analysis of β-caryophyllene in a nanoemulsion dosage form prepared with copaiba (Copaifera multijugaHayne) oil. Anal. Chim. Acta 721, 79-84.
Dias et al. (2014)Dias, D.d.O., Colombo, M., Kelmann, R.G., Kaiser, S., Lucca, L.G., Teixeira, H.F., Limberger, R.P., Veiga Jr., V.F., Koester, L.S., 2014. Optimization of copaiba oil-based nanoemulsions obtained by different preparation methods. Ind. Crops Prod. 59, 154-162.
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Cymbopogon nardus
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-
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Leaves |
Terpenes (limone and citonellal) |
Repelent (insect) |
Nanoemulsion (glycerol, cetearyl alcohol/cocoyl glucoside) |
Sakulku et al. (2009)Sakulku, U., Nuchuchua, O., Uawongyart, N., Puttipipatkhachorn, S., Soottitantawat, A., Ruktanonchai, U., 2009. Characterization and mosquito repellent activity of citronella oil nanoemulsion. Int. J. Pharm. 372, 105-111.
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Melaleuca alternifolia
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-
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Leaves |
Terpenes (unspecified) |
Microbicide |
Nanoemulsion (lecithin, palm or sunflower oil) |
Donsì et al. (2011)Donsì, F., Annunziata, M., Sessa, M., Ferrari, G., 2011. Nanoencapsulation of essential oils to enhance their antimicrobial activity in foods. Food Sci. Technol. 44, 1908-1914.
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HD
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Leaves |
Terpenes (terpinen-4-ol, and terpinenes) |
- |
Nanoemulsion Nanocapsule (lecithin, Tween® 80, Span®® 80, PECL) |
Flores et al. (2011)Flores, F.C., Ribeiro, R.F., Ourique, A.F., Rolim, C.M.B., da Silva, C.d.B., Pohlmann, A.R., Beck, R.C.R., Guterres, S.S., 2011. Nanostructured systems containing an essential oil: protection against volatilization. Quim. Nova 34, 968-972.
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Jasmine |
-
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-
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Terpenes (linalool) |
- |
Nanocapsule (gelatin, arabic gum, Tween® 80, Span® 80) |
Lv et al. (2014)Lv, Y., Yang, F., Li, X., Zhang, X., Abbas, S., 2014. Formation of heat-resistant nanocapsules of jasmine essential oil via gelatin/gum arabic based complex coacervation. Food Hydrocolloid 35, 305-314.
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