[1] Azmir, J., Zaidul, I.S.M., Rahman, M.M., Sharif, K.M., Mohamed, A., Sahena, F., Jahurul, M.H.A., Ghafoor, K., Norulaini, N.A.N., Omar, A.K.M. (2013). Techniques for extraction of bioactive compounds from plant materials: A review. J Food Eng., 117, 426-436.
[2] Bankova, V.S., Castro, S.L.d., and Marcucci, M.C. (2000). Propolis: recent advances in chemistry and plant origin. Apidologie, 3, 3-15.
[3] Hanifi S., Ahmadi S., and Oromiehei A., (2013). Mechanical Properties and Biodegradability of Polypropylene/Starch Reinforced Nanoclay Blends. Iranian Journal of Polymer Science and Technology, 26, 139 - 148.
[4] Chang,
Chang, C.C.,
Yang, M.H.,
Wen, H.M,.
Chern, J.C., (2002). Estimation of Total Flavonoid Content in Propolis by Two Complementary Colorimetric Methods. J. Food Drug Anal., 10, 178-182.
[5] اشراقی، س.س.؛ والافر، ش.؛ (1382) بررسی اثرات ضدباکتریایی برهموم (Propolis) کندوی عسل بر گونه های بیماریزای نوکاردیا. مجله دانشگاه علوم پزشکی و خدمات بهداشتی-درمانی شهید صدوقی یزد، جلد 11، شماره 2، ص 42-48.
[7] Pastor, C., Sanchez-Gonzalez, L., Chafer, M., Chiralt, A., Gonzalez-Martinez, C., (2010). Physical and antifungal properties of hydroxypropylmethylcellulose based films containing propolis as affected by moisture content. Carbohyd. Polym., 82, 1174-1183.
[8] Bruschi, M.L., Franco, S.L., and Gremião, M.P.D. (2003). Application of an HPLC Method for Analysis of Propolis Extract. J. Liq. Chromatogr. R. T., 26, 2399-2409.
[9] González-Martín, M.I., Escuredo, O., Revilla, I., Vivar-Quintana, A. M., Coell, M. C., Riocerezo, C. P., and Moncada, G. W. (2015). Determination of the Mineral Composition and Toxic Element Contents of Propolis by Near Infrared Spectroscopy. Sensors, 15, 27854-27868.
[10] Tosi, E.A., Re´, E., Ortega, M. E., Cazzoli, A. F. (2007). Food preservative based on propolis: Bacteriostatic activity of propolis polyphenols and flavonoids upon Escherichia coli. Food Chem., 104, 1025-1029.
[11] Kumazawa, S., Hamasaka, T., and Nakayama, T. (2004). Antioxidant activity of propolis of various geographic origins. Food Chem., 84, 329-339.
[12] Sanpa, S., Sutjarittangtham, K., Tunkasiri, T., Eitssayeam, S., Chantawannakul, P. (2012). Antimicrobial Effect of Brazillian Propolis/Polycaprolactone Polymer on some Human Pathogenic Bacteria. Adv. Mat. Res., 506, 537-540.
[13] Sanpa, S., Sutjarittangtham, K., Tunkasiri, T., Eitssayeam, S., Chantawannakul, P. (2012). Ultrasonic Extraction of Thai Propolis for Antimicrobial and Antioxidant Properties. Adv. Mat. Res., 506, 371-374.
[14] Alvarez, M.V.,
Ponce, A. G.,
Goyeneche, R., and
Moreira, M. R. (2017). Physical Treatments and Propolis Extract to Enhance Quality Attributes of Fresh-Cut Mixed Vegetables. J. Food Process. Pres., 41, e13127.
[15] Toepfl, S.,
Toepfl, S.,
Mathys, A.,
Heinz, V. &
Knorr, D. (2006). Review: Potential of High Hydrostatic Pressure and Pulsed Electric Fields for Energy Efficient and Environmentally Friendly Food Processing. Food Rev. Int., 22, 405-423.
[16] Pellati, F., Prencipe, F. P., Bertelli, D., Benvenuti, S. (2013). An efficient chemical analysis of phenolic acids and flavonoids in raw propolis by microwave-assisted extraction combined with high-performance liquid chromatography using the fused-core technology. J. Pharmaceut. Biomed., 81-82, 126-132.
[17] Kaufmann, B. and Christen, P. (2002). Recent extraction techniques for natural products: microwave-assisted extraction and pressurised solvent extraction. Phytochem. Analysis, 13, 105-13.
[18] Marr, R. and Gamse, T. (2000). Use of supercritical fluids for different processes including new developments—a review. Chem. Eng. Process., 39, 19-28.
[19] Lang, Q. and Wai, C. M. (2001). Supercritical fluid extraction in herbal and natural product studies — a practical review. Talanta, 53, 771-782.
[20] Trusheva, B., Trunkova, D., and Bankova, V. (2007). Different extraction methods of biologically active components from propolis: a preliminary study. Chemistry Cent. J., 1, 1-4.
[21] Kubiliene, L., Laugaliene, V., Pavilonis, A., Maruska, A., Majiene, D., Barcauskaite, K., Kubilius, R., Kasparaviciene, G., Savickas, A. (2015). Alternative preparation of propolis extracts: comparison of their composition and biological activities. BMC Complem. Altern. M.,. 15, 156-162.
[22] Herrera, M.C. and de Castro, M.D. (2005). Ultrasound-assisted extraction of phenolic compounds from strawberries prior to liquid chromatographic separation and photodiode array ultraviolet detection. J. Chromatogr. A, 1100, 1-7.
[23] Li, H., Pordesimo, L., and Weiss, J. (2004). High intensity ultrasound-assisted extraction of oil from soybeans. Food Res. Int., 37, 731-738.
[24] Vilkhu, K., Mawson, R., Simons, L., Bates D. (2008). Applications and opportunities for ultrasound assisted extraction in the food industry — A review. Innov. Food Sci. Emerg., 9, 161-169.
[25] Vinatoru, M., (2001). An overview of the ultrasonically assisted extraction of bioactive principles from herbs. Ultrason. Sonochem., 8, 303-313.
[26] پورفرزاد، ا.؛ حدادخداپرست، م. ح.؛ حبیبی نجفی، م . ب.؛ حسن زاده خیاط ، م؛. (1392) کارایی امواج فراصوت در استخراج فروکتان از غده سریش با استفاده از طرح باکس بنکن؛ پژوهش و نوآوری در علوم و صنایع غذایی، جلد (2)، شماره (3)، ص 219-228.
[27] شلماشی، ا.؛ امانی، ف.؛ (1394) کاربرد سطح پاسخ در بهینه سازی استخراج روغن از مغز گردو و هسته میوه انبه با استفاده از امواج فراصوت. فناوریهای نوین غذایی، جلد (3)، شماره (2)، ص 1-10.
[28] روحانی، ر.؛ عین افشار، س.؛ و احمدزاده، ر.؛ (1394) استخراج ترکیبات آنتوسیانینی و آنتی اکسیدانی پرچم گل زعفران به کمک فناوری امواج فراصوت. پژوهشهای علوم و صنایع غذایی ایران، جلد (2)، شماره (11)، ص 161-170.
[29] de Lima, G.G., de Souza, R. O., Bozzi, A. D., Poplawska, M. A., Devine, D. M., Nugent, M. J. (2016). Extraction Method Plays Critical Role in Antibacterial Activity of Propolis-Loaded Hydrogels. J. Pharm. Sci., 105, 1248-57.
[30] Biscaia, D. and Ferreira, S.R.S. (2009) Propolis extracts obtained by low pressure methods and supercritical fluid extraction. J. Supercrit. Fluid., 51, 17-23.
[31] Popova, M., Silici, S., Kaftanoglu, O., Bankova, V. (2005). Antibacterial activity of Turkish propolis and its qualitative and quantitative chemical composition. Phytomedicine, 12, 221-228.
[32] Lima, B., Tapia, A., Luna, L., Fabani, M. P., Schmeda-Hirschmann, G., Podio, N. S., Wunderlin, D. A., Feresin, G. E. (2009). Main flavonoids, DPPH activity, and metal content allow determination of the geographical origin of propolis from the Province of San Juan (Argentina). J. Agr. Food Chem., 57, 2691-2698.
[33] Association of Official Analytical, C. and Helrich, K. (1990). Official methods of analysis of the Association of Official Analytical Chemists., Arlington, VA: The Association.
[34] Mello, B.C.B.S., Petrus, J.C.C., and Hubinger, M.D. (2010). Concentration of flavonoids and phenolic compounds in aqueous and ethanolic propolis extracts through nanofiltration. J. Food Eng., 96, 533-539.
[35] Moreira, L.,
Dias, L.G.,
Pereira, J. A.,
Estevinho, L. (2008). Antioxidant properties, total phenols and pollen analysis of propolis samples from Portugal. Food Chem. Toxicol., 46, 3482-3485.
[36] Dias, L.G., Pereira, A.P., and Estevinho, L.M. (2012). Comparative study of different Portuguese samples of propolis: Pollinic, sensorial, physicochemical, microbiological characterization and antibacterial activity. Food Chem. Toxicol., 50, 4246-4253.
[37] Choi, Y.M.,
Noh, D.O.,
Cho, S.Y.,
Suh, H.J.,
Kim, K.M.,
Kim, J.M. (2006). Antioxidant and antimicrobial activities of propolis from several regions of Korea. LWT - Food Science and Technology, 39, 756-761.
[38] Da Silva, Carmen, F.C., Favaro-Trindade, S., de Alencar, S. M., Thomazini, M.,and Balieiro, J. C. C. (2011). Physicochemical properties, antioxidant activity and stability of spray-dried propolis. Vol. 3. 94-100.
[39] Woisky, R.G. and Salatino, A. (1998). Analysis of propolis: some parameters and procedures for chemical quality control. J. Apicult. Res., 37, 99-105.
[40] Tosic, S., Stojanovic, G., Mitic, S., Pavlovic, A., Alagic, S. (2017). Mineral Composition of Selected Serbian Propolis Samples. Vol. 61.
[41] Hossain, M.B.,
Brunton, N.P.,
Patras, A,.
Tiwari, B.,
O'Donnell, C.P.,
Martin-Diana, A.B.,
Barry-Ryan, C. (2012). Optimization of ultrasound assisted extraction of antioxidant compounds from marjoram (Origanum majorana L.) using response surface methodology. Ultrason. Sonochem., 19, 582-590.
[42] Yang, L., Yan, Q.H., Ma, J.Y., Wang, Q., Zhang, J.W., and Xi, G.X. (2013). High Performance Liquid Chromatographic Determination of Phenolic Compounds in Propolis. Tropical J. Pharmaceut. Res., 12, 771-776.
[43] Kosalec, I., Bakmaz, M., and Pepeljnjak, S. (2003). Analysis of propolis from the continental and Adriatic regions of Croatia. Acta Pharm., 53, 275-85.
[44] اونق، ع.؛ توکمهچی، ا.؛ ادیب حسامی، م.؛ ابراهیمزاده، س.؛ (1389) مطالعه تاثیر عصاره الکلی برهموم (پروپولیس) حاصل از کندوهای زنبور عسل آذربایجان غربی علیه رشد قارچهای درماتوفیت و غیر درماتوفیت و آنالیز ترکیبات سازنده آن با روش GC-MS. مجله پزشکی ارومیه، جلد (21)، شماره (3)، ص 206-214.
[45] Volpi, N. and Bergonzini, G. (2006). Analysis of flavonoids from propolis by on-line HPLC–electrospray mass spectrometry. J. Pharmaceut. Biomed., 42, 354-361.
)
)