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D')-6')$6&*((* $:&*+=* MgO 26 !$.$1),-'19)/' 8$1,;'2-%'))/' <*))/' $ &*+('&' ;*2-,= )*)$8&,2-*11,;'28$6$ .$&$08* $82,<* (*6),3 .$14;')/ )* L1'8-&$))$( (,8&$28$.'. @* &,2. 4 .&,%'<')/ (,8&$C$-$6&*C,, )*)$<,2.'&2)$6$ $82,<* (*6),3, .$14;'))$6$ .&, $.-,(*19)/5 421$%,35. D,2. 4. P,8&$C$-$6&*C,3 ;*2-,= MgO G'1,;,)* 2&'<),5 &*+('&$% 8&,2-*11,-$% 2,)-'+,&$%*))/5 $:&*+=$% $82,<* (*6),3, $.&'<'1'))*3 &*+1,;)/(, ('-$<*(, (DEF, L1'8-&$))*3 (,8&$28$.,3), 2$2-*%13'- 60–80 )(. K*8,( $:&*+$(, % 5$<' .&$%'<'))/5 ,221'<$%*),7 $.&'<'1')$ %1,3),' .$%'&5)$2-)$-*8-,%)$7 <$:*%8, )* ($&C$1$6,> , &*+('& ;*2-,= 6,<&$82,<* , $82,<* (*6),3. H&, .$($?, -'&($6&*%,('-&,, , &')-6')$C*+$%$6$ *)*1,+* 42-*)$%1')/ -'&($-&$.)/' C*+$%/' .'&'5$</ 6,<&$82,<* (*6),3. B=')')$ %1,3),' -'(.'&*-4&/ .&$='22* <'6,<&*-*=,, , 28$&$2-, )*6&'%* )* &*+('& ;*2-,= $82,<* (*6),3. # .$($?9> &')-6')$C*+$%$6$ *)*1,+* , L1'8-&$))$7 (,8&$28$.,, <$8*+*)* %$+($A)$2-9 .$14;'),3 )*)$<,2.'&2)/5 .$&$08$% MgO .&, +*<*))/5 421$%,35. !"#$% &"'()*'+), 1. #'&6''% I.Q. @*)$5,(,3. – P.: J+<-%$ PI , 2003. – 288 2. 2. Huang Lei, Dian-Qing Li. Influence of nano-MgO particle size on bactericidal action // Chinese Science Bulletin. – 2005. – Vol. 50, R 6. – P. 514–519. 27 3. Venkateswara K.R., Sunandana C.S. Structure and microstructure of combustion synthesized MgO nanoparticles and nanocrystalline MgO thin films synthesized by solution growth route // Journal of Materials Science. – 2008. – Vol. 43, R 1. – D. 146–154. 4. Jo-Yong Park, Yun-Jo Lee. Chemical synthesis and characterization of highly oil dispersed MgO nanoparticles // J. Ind. Eng. Chem. – 2006. – Vol. 12, R 6. – P. 882–887. 5. "4&+,)* J.F., I$</(;48 F.S., "*;*'% F.F. D')-6')$C*+$%/7 *)*1,+ )*)$.$&$08$%. – K$(28: J+<-%$ K$(. .$1,-'5. 4)--*, 2010. – 140 2. 6. G$195,) G.G. B:?*3 5,(,3. J+:&*))/' 61*%/. – H'&(9: J+<-%$ H'&(. 6$2. -'5). 4)--*, 2006. – "). 3. – 378 2. H$14;')$ 2.06.2011