Xanthone is an antioxidant compound contained in the rind of mangosteen. There are some methods to extract Xanthone from rind of mangosteen, and one of them is hydrothermal extraction. Hydrothermal extraction is a method to obtain xanthone from rind of mangosteen using water at teIn this work, the effect of extraction temperature, pressure, and mode (batch and continuous), and particle size of starting material on the yield and recovery of extracted xanthone and phenolic compounds was investigated. Extraction was carried out at various temperatures (120, 150, and 180^oC) and pressures (1, 3, and 5 MPa) and constant flow rate of 1 mL/min. The xanthone content and antioxidant efficiency of extract was examined by using spectrophotometer, while the concentration of total phenolic compounds in the extract was determined with folin ciocalteu reagent and examined using spectrophotometer In order to confirm the extracted phenolic compounds, the extract residue was analyzed by using FTIR. The experimental result showed that the increase in pressure and temperature caused an increase in total phenolic compound concentration and yield of xanthone. In addition, the result also showed that antioxidant activities were observed in the extract of mangosteen rind.

hydrothermal extraction; magosteen rind; xanthone; total phenolic compounds

Adachi, Shuji, Properties of subcritical water and its utilization, Division of Food Science and Biotechnology, Graduate School of Agriculture, Kyoto University. (2009).

Amashukeli, X., Pelletier, C.C., Kirby, J.P. , Grunthaner, F.J. Subcritical water extraction of amino acids from Atacama Desert soils. Journal of geophysical research, vol. 112. (2007).

Ersam, T., Senyawa Kimia Mikromolekul Beberapa Tumbuhan Artocarpus Hutan Tropika Sumatra Barat, Disertasi, ITB, Bandung.(2001).

Harborne, J.B., Metode Fitokimia, Penerbit ITB,Bandung. (1987),

Jung, H.A.,Bao Ning S,Keller, W.J, Mehta, R.G.,Kinghorn, A.D, Antioxidant Xanthones from the Pericarp of Garcinia mangostana (Mangosteen). Division of Medicinal Chemistry and Pharmacognosy, College of Pharmacy, The Ohio State University, Columbus, Ohio.(2006).

Kitada , K., Machmudah , S., Sasaki , M., Goto , M., Nakashima , Y., Kumamoto, S., Hasegawa,T.: Antioxidant and Antibacterial Activity of Nutraceutical Compounds from Chlorella vulgaris Extracted in Hydrothermal Condition, Separation Science and Technology, 44:5, 1228-1239.(2009).

Kruse , A., Dinjus, E., Hot compressed water as reaction medium and reactant Properties and synthesis reactions. Institut fur Technische Chemie, Chemisch-hysikalische Verfahren, Forschungszentrum Karlsruhe.(2007).

Machmudah, S., Sulaswatty, A., Sasaki, M. Goto, M., Hirose, T.. Supercritical CO2 Extraction of Nutmeg Oil: Experiments and Modeling. The Journal of Supercritical Fluids, 39, 30-39.(2005).

Magadula, J.J., Tewtrakul, S. Anti-HIV-1 protease activities of crude extracts of some Garcinia species growing in Tanzania. African Journal of Biotechnology Vol. 9 (12), pp. 1848-1852, 22 March, 2010.(2010).

Mahabusarakam, W.. Wiriyachitra, P. Chemical constituent of Garcinia mangostana. Journal of Natura1 Products Vol. 50, No. 3, pp. 474-478, Maydun.(1987).

Mariela, G., Bernardo G., Roxana, R. Elida, R. , María, A.A.M. Spectrophotometric Determination of Phenolic Compounds in Propolis. Facultad de Bioquímica, Química y Farmacia. Universidad Nacional de Tucumán. San Miguel de Tucumán. República Argentina. (2003).

Möckel, H. J., Welter, G., and Melzer, H.. Correlation between reversed-phased retention and solute molecular surface type and area. I. Theroretical outlines and retention of various hydrocarbon classes. J. Chromatogr. A, 388, 255-266. (1987).

Pitojo, Setijo. Budidaya Manggis. Semarang : Aneka Ilmu.(2007).

Richter, B. E., Jones, B. A., Ezzell, J. L., and Porter, N. L. Accelerated solvent extraction: A technique for sample preparation. Anal. Chem., 68, 1033-1039. (1996).

Rogalinski, T., Herrmann, S., and Brunner, G. Production of amino acid from bovine serum albumin by continuous subcritical water hydrolysis. J. Supercrit. Fluids, 36, 49-58. (2005).

Rogalinski, T., Liu, K. Albrecht, T. Brunner. G.. Hydrolysis kinetics of biopolymers in subcritical water. J. of Supercritical Fluids 46, 335–341. (2008).

Saim, N., Osman, R., , Rozita Osman, Md Yasin, W.H.A., Dol Hamid, R. Subcritical water extraction of essential oil from coriander (Coriandrum sativum L.) seeds. Fakulti Sains Gunaan, Universiti Teknologi MARA, Shah Alam, Selangor.(2008).

Sasaki, M., T. Adschiri, K. Arai. Bioresour. Technol., 2003; 86, 301–304.

Schmid G .Nanoparticles: Theory to application. Weinheim: Wiley-VCH) (2004).

Sereewatthanawut, I., S. Prapintip, K. Watchiraruji, M. Goto, M. Sasaki, A. Shotipruk. Bioresour. Technol., 2008; 99, 555–561

Singh, P.P, Saldaña. M.D.A. Subcritical water extraction of phenolic compounds from potato peel. Journal Food Research International 44 2452–2458. (2011).

Stevi, G.D., Dewa, G.K., Vanda ,S.K. Aktivitas antioksidan Ekstrak Fenolik dari Kulit Buah Manggis (Garcinia mangostana L.).Journal MIPA Unsrat online 1 (1) 11-15.(2012).

Sudarmadji S, Suhardi. Analisis Bahan Makanan dan Pertanian. Yogyakarta: Liberty. (1996).

Sudjadi.Metode Pemisahan, Penerbit Kanisius, Yogyakarta.(1988).

Sutriani L .Ekstraksi . online at http://medicafarma.blogspot.com/2008/11/ekstraksi.(2008).

Tambunan, R.M. Telaah Kadungan Kimia dan Aktivitas Antimikroba Kulit Buah Manggis. Tesis. Institut Teknologi Bandung, Bandung .(1998).

Wagner, W. and Pruß, A. The IAPWS formulation 1995 for the thermodynamic properties of ordinary water substance for general and scientific use. J. Phys. Chem. Ref. Data, 31, 387-535.(2002).

Wahyudiono, T. Kanetake, M. Sasaki, M. Goto. Chem. Eng. Technol., 2007; 30, 1113–1122

Wiboonsirikul, J., Adachi s. Extraction of Functional Substances from Agricultural Products or By-products by Subcritical Water Treatment. Division of Food Science and Biotechnology, Graduate School of Agriculture, Kyoto University. Kyoto .(2008).

Zarena, A.S. Udaya Sankar. K. Xanthones enriched extracts from mangosteen pericarp obtained by supercritical carbon dioxide process. Journal of Separation and Purification Technology 80 (2011) 172–178 .(2011).

P. Wilhelm, dan D. Stephan, Photodegradation of rhodamine B in aqueous solution via SiO2TiO2nano-spheres. Technische Universitat Munchen, Garching, Germany, 2007.

S. Bakkialakshmi, P. Selvarani, S. Chenthamarai, Fluorescence quenching of Rhodamine B base by two amines, Department of Physics, Annamalai University, Annamalainagar 608 002, Tamil Nadu, India, 2013.

J. Alarcon, Fiber Optic Devince For Sensing Analysis and Metode Of Making Same, GooglePatent US 7787923 B2, 2010.