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9:00$B!A(B 9:20 | S101 | $B6b;@2=E4?(G^$rMQ$$$?Dc29(BCO$BJQ@-H?1~(B ($B5~Bg9)(B) $B!{(B($B3X(B)$B9)F#(B $B??Fs(B$B!&(B($B@5(B)$BKR(B $BBYJe(B$B!&(B($B@5(B)$BA0(B $B0lW"(B | CO shift gold catalyst Water-Gas shift
| S-14 | 46 |
9:20$B!A(B 9:40 | S102 | Pt-Re/ZrO2$B?(G^>e$G$NDc29?e@-%,%9%7%U%H$NH?1~=iB.EYB,Dj(B ($B9)3X1!Bg9)(B) $B!{(B($B@5(B)$BHSED(B $BH%(B$B!&(B$B;3K\(B $BBsH~(B$B!&(B$B0p3@(B $B9n(B$B!&(B($B@5(B)$B8^==Mr(B $BE/(B | Water Gas Shift Pt-Re Catalyst Initial reaction rate
| S-14 | 774 |
9:40$B!A(B 10:00 | S103 | $B%"%k%^%$%H?(G^$rMQ$$$?G3NAEECSMQ(BCO$B%7%U%HH?1~?(G^$N3+H/(B ($BElG@9)Bg(B) $B!{(B($B3X(B)$B:4F#(B $B=(L@(B$B!&(B($B3X(B)$BH,LZ(B $B>;9T(B$B!&(B($B@5(B)$B:y0f(B $B@?(B$B!&(B($B@5(B)$B55;3(B $B=(M:(B | water gas shift reaction CO anodized aluminum
| S-14 | 130 |
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10:00$B!A(B 10:20 | S104 | $B>:29A`:nK!$rMQ$$$?8GBNEE2r2A(B ($BL>Bg1!9)(B) $B!{(B($B3X(B)$B5HED(B $BM%2p(B$B!&(B($B@5(B)$B;3ED(B $BGn;K(B$B!&(B($B@5(B)$BED@n(B $BCRI'(B | Fuel cell type reactor TPD Oxygen transportation
| S-14 | 305 |
10:20$B!A(B 10:40 | S105 | $BC4;}6bB0?(G^I=LL>e$N2=3XH?1~%@%$%J%_%/%92rL@$N$?$a$ND69bB.2=NL;RJ,;RF0NO3XK!$N3+H/(B ($BElKLBg1!9)(B) $B!{(B($B@5(B)$B1sF#(B $BL@(B$B!&(B($B3X(B)$BE"(B $BA1o.(B$B!&(B($B3X(B)$BBg>B(B $B9(>4(B$B!&(B($BElKLBgL$Mh%;(B) ($B@5(B)$BNkLZ(B $B0&(B$B!&(B($BElKLBg1!9)(B) ($B@5(B)$B8E;3(B $BDL5W(B$B!&(B($B@5(B)$BDZ0f(B $B=(9T(B$B!&(B($B@5(B)$BH+;3(B $BK>(B$B!&(B($B@5(B)$B9b1)(B $BMN=<(B$B!&(BDel Carpio Carlos$B!&(B($B@5(B)$B5WJ](B $BI4;J(B$B!&(B($BElKLBgL$Mh%;(B/$BElKLBg1!9)(B) ($B@5(B)$B5\K\(B $BL@(B | ultra-accelerated quantum chemical molecular dynamics method supported catalysts chemical reaction dynamics
| S-14 | 432 |
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| S-14 | 231 |
(11:00$B!A(B12:00)$B!!(B($B:BD9(B $BB?8P(B $B516=(B) |
11:00$B!A(B 11:20 | S107 | Pt/SnO2$B$K$h$k(BCO$B;@2=H?1~(B:$B;@2=4T85=hM}$N8z2L(B ($BElBg1!9)(B) $B!{(B($B@5(B)$B5FCO(B $BN4;J(B$B!&(B($B5~Bg1!9)(B) $BED8}(B $B7=0l(B$B!&(B$B>>0f(B $BIRL@(B$B!&(B($B@5(B)$B9>8}(B $B9@0l(B | Pt/SnO$2$ TEM CO oxidation
| S-14 | 585 |
11:20$B!A(B 11:40 | S108 | $B29EY<~4|A`:n2<$K$*$1$k(BCO$B;@2=H?1~$K5Z$\$986NAG;EY$N1F6A(B ($BFAEgBg1!@hC<650iIt(B) $B!{(B($B3X(B)$B9uED(B $B>!Li(B$B!&(B($BFAEgBg(BSTS$B8&(B) ($B@5(B)$B30NX(B $B7r0lO:(B$B!&(B($BFAEgBg9)(B) $B1|;3(B $BBgJe(B$B!&(B($BFAEgBg(BSTS$B8&(B) ($B@5(B)$BCf@n(B $B7I;0(B$B!&(B($B@5(B)$B?y;3(B $BLP(B | CO oxidation adsorption temperature cycling
| S-14 | 853 |
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| S-14 | 319 |
|
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13:00$B!A(B 13:40 | S113 | [$BE8K>9V1i(B] $B;:6H3W?7$N$?$a$Nu$HE8K>(B ($BElKLBgL$Mh%;%s%?!<(B) $B!{(B($B@5(B)$B5\K\(B $BL@(B | Quantum Chemical Molecular Dynamics
| S-14 | 1268 |
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| S-14 | 1269 |
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| S-14 | 267 |
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| S-14 | 468 |
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| S-14 | 848 |
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| S-14 | 74 |
(16:00$B!A(B16:40)$B!!(B($B:BD9(B $BJ!86(B $BD9 |
16:00$B!A(B 16:20 | S122 | $B%^%$%/%m%A%c%s%M%kFb$KD4@=$7$??(G^$N(Bin situ$B82Hy@V30J,8wB,Dj(B ($BL>Bg1!9)(B) $B!{(B($B3X(B)$Bc&It(B $BH~5*;R(B$B!&(B($B@5(B)$B;3ED(B $BGn;K(B$B!&(B($B@5(B)$BED@n(B $BCRI'(B | microreactor IR spectroscopy catalyst preparation
| S-14 | 192 |
16:20$B!A(B 16:40 | S123 | $B?e>x5$J70O5$2<$G$N;@2=E47O?(G^$K$h$k=E ($B;:Am8&(B) $B!{(B($B@5(B)$BO<(B $B7CN$(B$B!&(B$B>>B<(B $BL@8w(B$B!&(B$B:4F#(B $B?.Li(B$B!&(B($B@5(B)$BBkk9(B $BMx8x(B | Heavy oil Oxidative cracking Kinetics
| S-14 | 332 |
S$B2q>l(B $BBh(B2$BF|(B |
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10:00$B!A(B 10:20 | S204 | $B%`%i%$%H$+$i$N;@AGIi%$%*%s%i%8%+%k$N@8@.$H$=$N%a%+%K%:%`(B ($B9)3X1!Bg9)(B) $B!{(B($B3X(B)$B>.Cg(B $B@iN$(B$B!&(B($B@5(B)$B$B!&(B($B@5(B)$BD9K\(B $B1Q=S(B | Oxygen radical anion Formation mechanism Mullite
| S-14 | 365 |
10:20$B!A(B 10:40 | S205 | $B;@AGIi%$%*%sJq@]%;%i%_%C%/$K$h$k(BNO$B$N;@2=(B ($B;:Am8&(B) $B!{(B($B@5(B)$B@>2,(B $B>-51(B$B!&(B($BElKL3X1!Bg(B) $BBgC+(B $B;J(B$B!&(B($B;:Am8&(B) $B3k@>(B $B??6W(B$B!&(B$B:4F#(B $B9d0l(B$B!&(B($B@5(B)$B0f>e(B $BJ~Li(B$B!&(B($B@5(B)$B_@@n(B $BAo(B | nitric oxide oxidation C12A7
| S-14 | 921 |
(10:40$B!A(B11:20)$B!!(B($B:BD9(B $B>>2,(B $BC$O:(B) |
10:40$B!A(B 11:00 | S206 | $B9b052<$K5$1UJ|EE$rMQ$$$?%U%'%N!<%kJ,2r(B ($BK!@/Bg9)(B) $B!{(B($B3X(B)$BK\ED(B $BJ87I(B$B!&(B($B@5(B)$B@>3$(B $B1QM:(B | discharge vapor liquid
| S-14 | 43 |
11:00$B!A(B 11:20 | S207 | $BD62;GH$K$h$k%U%'%N!<%kJ,2rH?1~(B ($BK!@/Bg9)(B) $B!{(B($B3X(B)$B:4F#(B $BMy(B$B!&(B($B@5(B)$B@>3$(B $B1QM:(B | ultrasonic phenol frequency
| S-14 | 643 |
(11:20$B!A(B12:00)$B!!(B($B:BD9(B $B>.Eg(B $B5A90(B) |
11:20$B!A(B 11:40 | S208 | $BD62;GH>H ($BL>Bg1!9)(B) $B!{(B($B3X(B)$B=;ED(B $B90;V(B$B!&(B($BL>Bg9)(B) $B?%ED(B $BE/Li(B$B!&(B($BL>Bg1!9)(B) ($B@5(B)$BFA;3(B $B1Q><(B$B!&(B($B@5(B)$BFs0f(B $B?8(B | ultrasound polyphenol extraction
| S-14 | 764 |
11:40$B!A(B 12:00 | S209 | $BEE3&=8Cf7?%^%$%/%mGH>H ($B;:Am8&(B) $B!{(B($B@5(B)$B@>2,(B $B>-51(B$B!&(B$B3k@>(B $B??6W(B$B!&(B$B:4F#(B $B9d0l(B$B!&(B$B0f>e(B $BJ~Li(B$B!&(B$B_@@n(B $BAo(B | microwave single mode cavity VOC decomposition
| S-14 | 939 |
|
(13:00$B!A(B14:00)$B!!(B($B:BD9(B $B5WJ](B $BI4;J(B) |
13:00$B!A(B 13:20 | S213 | $BI=LL$r;@2=%A%?%sGvKl$GHoJ$$7$?3h@-C:N3;R$K$h$k%H%k%(%s4^M-6u5$$N=hM}(B ($B6eBg%P%$%*%"!<%-(B) $B!{(B($B@5(B)$BGr@P(B $BJ8=((B$B!&(B($B6eBg1!G@(B) $B>.ED(B $B9/M5(B$B!&(B($B3X(B)$BJ!ED(B $B9';V(B | photocatalyst toluene activated carbon
| S-14 | 67 |
13:20$B!A(B 13:40 | S214 | $BI=LL$r;@2=%A%?%sGvKl$GHoJ$$7$?3h@-C:N3;R$N:F@8=hM}K!(B ($B6eBg1!G@(B) $B!{(B($B3X(B)$BJ!ED(B $B9';V(B$B!&(B$B>.ED(B $B9/M5(B$B!&(B($B6eBg%P%$%*%"!<%-(B) ($B@5(B)$BGr@P(B $BJ8=((B | photocatalyst toluene activated carbon
| S-14 | 68 |
13:40$B!A(B 14:00 | S215 | EDB$B$rMQ$$$?%H%i%8%'%/%H%j! ($B72Bg1!9)(B) $B8EC+(B $BM4(B$B!&(B$B!{(B($B@5(B)$B86Ln(B $B0BEZ(B | Electrodynamic Balance Aerosol Trajectory
| S-14 | 503 |
(14:00$B!A(B15:00)$B!!(B($B:BD9(B $BGr@P(B $BJ8=((B) |
14:00$B!A(B 14:20 | S216 | $B%]%jF};@9g@.%W%m%;%9$K$*$1$k8w3X=cEYDc2<$NM^@)(B ($BF|N)(B) $B!{(B($B@5(B)$B>e@n(B $B>-9T(B$B!&(B($B@5(B)$B>>Hx(B $B=SL@(B$B!&(B($BF|N)%W%i%s%H%F%/%N%m%8!<(B) $B2,K\(B $B@.63(B | Polylactic Acid Lactide Depolymerization
| S-14 | 97 |
14:20$B!A(B 14:40 | S217 | $B%]%jF};@Cf$K$*$1$k%i%/%A%I5$K"@8@.%b%G%k(B ($BF|N)!&EE3+8&(B) $B!{(B($B@5(B)$B>>Hx(B $B=SL@(B$B!&(B($B@5(B)$B>e@n(B $B>-9T(B$B!&(B($BF|N)%W%i%s%H%F%/%N%m%8!<(B) $B2,K\(B $B@.63(B$B!&(B($B5~Bg(B) ($B@5(B)$BBgEh(B $B@5M5(B | Polylactic Acid Degas Bubble Nucleation
| S-14 | 422 |
14:40$B!A(B 15:00 | S218 | GNU Octave$B$K$h$kH?1~9)3X650i65:`$N3+H/(B ($BL>Bg1!9)(B) $B!{(B($B@5(B)$B>>2,(B $BC$O:(B | GNU Octave educational tool Reaction Enigneering
| S-14 | 141 |
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| S-14 | 78 |
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| S-14 | 878 |
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| S-14 | 516 |
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| S-14 | 867 |
10:20$B!A(B 10:40 | T105 | Photocatalytic decomposition of DNP by activated carbon particles coated with titanium oxide film ($B6eBg1!G@(B) $B!{(B($B3X(B)Cao Xiangyu$B!&(B$B>.ED(B $B9/M5(B$B!&(B($B6eBg%P%$%*%"!<%-(B) ($B@5(B)$BGr@P(B $BJ8=((B | photocatalyst regeneration activated carbon
| S-14 | 69 |
10:40$B!A(B 11:00 | T106 | $B%9%F%s%l%96bLVI=LL$KMO ($B6eBg1!%7%9@8(B) $B!{(B($B3X(B)$B>eLn(B $B??M|;R(B$B!&(B($B6eBg%P%$%*%"!<%-(B) ($B@5(B)$BGr@P(B $BJ8=((B$B!&(B($B%U%8%3!<(B) $B1J5H(B $B1Q><(B$B!&(B($B%"%$%/%)!<%/(B) $BN)@P(B $B7{<#(B | photocatalyst spraying method water treatment
| S-14 | 71 |
(11:00$B!A(B12:00)$B!!(B($B:BD9(B $B9b1)(B $BMN=<(B) |
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11:20$B!A(B 11:40 | T108 | $BJ,N%!&3H;6B%?J$K$h$k@-G=8~>e$rL\;X$7$?8w?(G^%3!<%F%#%s%0B?9&2$B2~ ($B;0=EBg1!9)(B) $B!{(B($B3X(B)$B>.>>(B $B?.9,(B$B!&(B($B@5(B)$B@>B<(B $B82(B$B!&(B$B;00f(B $B9d(B$B!&(B$BW"ED(B $B??;K(B | Photocatalyst Gas Separation Membrane CO$2$ Reforming
| S-14 | 187 |
11:40$B!A(B 12:00 | T109 | $B%j%U%m!t2=MQ8w?(G^%U%#%k%?!<$N3+H/(B ($BJ!2,Bg9)(B) $B!{(B($B3X(B)$BCfLn(B $BNC;R(B$B!&(B($B@5(B)$BBg^<(B $B1Q;R(B$B!&(B($B@5(B)$BCfLn(B $B>!G7(B$B!&(B($B%d%9%+%o(B) $B@P4](B $B1N(B | Reflow-oven Photocatalytic ceramic filter Wastewater treatment
| S-14 | 281 |
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(13:00$B!A(B13:40)$B!!(B($B:BD9(B $B4X8}(B $B=(=S(B) |
13:00$B!A(B 13:20 | T113 | $BD62;GH>H ($BElKLBg9)(B) $B!{(B($B3X(B)$B>>0f(B $B1Q$B!&(B($B@5(B)$B5WJ](B $B@5$B!&(B($B@5(B)$BKL@n(B $B>0H~(B$B!&(B($B@5(B)$BJFK\(B $BG/K.(B | ultrasonic polymerization radical polymerization kinetics
| S-14 | 299 |
13:20$B!A(B 13:40 | T114 | $B%;%k%m!<%9$NE|2=B%?J$K5Z$\$9D62;GH>Hr7o$N1F6A(B ($BL>Bg1!9)(B) $B!{(B($B@5(B)$B0BED(B $B7<;J(B$B!&(B$B2CF#(B $BBg51(B$B!&(B$BDaED(B $B>!Mx(B$B!&(B($B@5(B)$BKYE:(B $B9@=S(B$B!&(B($B;0=EBg1!@8;q(B) $B0@4'(B $B??5*;R(B$B!&(B$B0@4'(B $BOBO:(B | ultrasound cellulose enzymatic hydrolysis
| S-14 | 328 |
(13:40$B!A(B14:40)$B!!(B($B:BD9(B $BKL@n(B $B>0H~(B) |
13:40$B!A(B 14:00 | T115 | $BI=LLA}6/%i%^%sK!$K$h$k6bB0HyN3;RI=LL$N@v>tI>2A(B ($BL>Bg1!9)(B) $B!{(B($B3X(B)$B:g86(B $BM%0l(B$B!&(B($B@5(B)$B;38}(B $B5#(B$B!&(B($B@5(B)$B>>2,(B $BC$O:(B$B!&(B($B@5(B)$B9aED(B $BG&(B | ultrasound surface enhanced Raman nano particle
| S-14 | 343 |
14:00$B!A(B 14:20 | T116 | $BD62;GH>H ($BL>Bg%(%3%H%T%"(B) $B!{(B($B3X(B)$B9b0f(B $B?5Lo(B$B!&(B($BL>Bg1!(B) ($B@5(B)$B>.Eg(B $B5A90(B | Biodiesel Calcium oxide ultrasound
| S-14 | 527 |
14:20$B!A(B 14:40 | T117 | $BG.4T85$H%W%i%:%^4T85=hM}$K$h$kItJ,4T85;@2=%A%?%s$N2D;k8wNN0h$G$N8w?(G^FC@-(B ($BEl9)Bg(B) $B!{(B($B3X(B)$Bhq(B $B=a\](B$B!&(B($B@5(B)$B?9(B $B?-2p(B$B!&(B($B@5(B)$BNkLZ(B $B@5><(B | thermal plasma TiO2
| S-14 | 777 |
(14:40$B!A(B15:40)$B!!(B($B:BD9(B $B@>2,(B $B>-51(B) |
14:40$B!A(B 15:00 | T118 | $B5$K"$N5$(B-$B1U3&LL$rMxMQ$7$?%W%i%:%^H?1~(B ($B@iMU9)Bg9)(B) $B!{(B($B3X(B)$B_@ED(B $B8-NI(B$B!&(B($B3X(B)$BJ!2,(B $BBgJe(B$B!&(B($B@5(B)$B>.NS(B $B4p$B!&(B($B@5(B)$BHx>e(B $B70(B | plasma reaction electric discharge Gas-liquid interface
| S-14 | 569 |
15:00$B!A(B 15:20 | T119 | $BBg5$05%^%$%/%m(BICP$B%j%"%/%?!<$N3+H/(B ($B@iMU9)Bg9)(B) $B!{(B($B3X(B)$BJ!2,(B $BBgJe(B$B!&(B($B%j%P!<%Y%k(B) $B>b%v9>(B $B@5L&(B$B!&(B$B2CF#(B $B630l(B$B!&(B$BCSED(B $B=$(B$B!&(B($B@iMU9)Bg9)(B) ($B@5(B)$B>.NS(B $B4p$B!&(B($B@5(B)$BHx>e(B $B70(B | micro-plasma inductively coupled plasma atmospheric pressure
| S-14 | 570 |
15:20$B!A(B 15:40 | T120 | N2-O2$B%W%i%:%^Cf$N?6F0Ne5/J,;RH?1~$K$h$kCbAGF10LBNJ,N%(B-$B;@AG6!5k0LCV$N1F6A(B- ($BEl9)Bg1!M}9)(B) $B!{(B($B@5(B)$B?9(B $B?-2p(B$B!&(B($B@5(B)$B;T@n(B $B??;K(B$B!&(B($B@5(B)$BNkLZ(B $B@5><(B | Isotope separation Nitrogen isotope N2-O2 plasma
| S-14 | 648 |
(15:40$B!A(B16:40)$B!!(B($B:BD9(B $B@6=;(B $B2EF;(B) |
15:40$B!A(B 16:00 | T121 | Study of Carbon Monoxide Oxidation over CeO2 using ultra accelerated quantum chemical molecular dynamics. ($BElKLBg1!9)(B) $B!{(B($B3X(B)Alam Md. Khorshed$B!&(B($BElKLBgL$Mh%;(B) ($B@5(B)$BNkLZ(B $B0&(B$B!&(B($BElKLBg1!9)(B) Sahnoun Riadh$B!&(B($B@5(B)$B8E;3(B $BDL5W(B$B!&(B($B@5(B)$BDZ0f(B $B=(9T(B$B!&(B($B@5(B)$BH+;3(B $BK>(B$B!&(B($B@5(B)$B1sF#(B $BL@(B$B!&(B($B@5(B)$B9b1)(B $BMN=<(B$B!&(B($B@5(B)Del Carpio Carlos A$B!&(B($B@5(B)$B5WJ](B $BI4;J(B$B!&(B($BElKLBgL$Mh%;%s%?!<(B/$BElKLBg1!9)(B) ($B@5(B)$B5\K\(B $BL@(B | CeO2 CO tight binding quantum chemical molecular dynamics
| S-14 | 861 |
16:00$B!A(B 16:20 | T122 | Ultra Accelerated Quantum Chemical Molecular Dynamics Study of the Mechanism of Hydrogen Spillover at Pt/$B&C(B-Al2O3 Catalyst Surface. ($BElKLBg1!9)(B) $B!{(B($B@5(B)Ahmed Farouq$B!&(B($BElKLBgL$Mh%;(B) ($B@5(B)$BNkLZ(B $B0&(B$B!&(B($BElKLBg1!9)(B) Sahnoun Riadh$B!&(B($B@5(B)$B8E;3(B $BDL5W(B$B!&(B($B@5(B)$BDZ0f(B $B=(9T(B$B!&(B($B@5(B)$BH+;3(B $BK>(B$B!&(B($B@5(B)$B1sF#(B $BL@(B$B!&(B($B@5(B)$B9b1)(B $BMN=<(B$B!&(B($B@5(B)Del Carpio Carlos A$B!&(B($B@5(B)$B5WJ](B $BI4;J(B$B!&(B($BElKLBgL$Mh%;%s%?!<(B/$BElKLBg1!9)(B) ($B@5(B)$B5\K\(B $BL@(B | Hydrogen spillover Pt/$B&C(B-Al2O3 catalyst surface Ultra accelerated quantum chemical molecular dynamics program
| S-14 | 863 |
16:20$B!A(B 16:40 | T123 | Theoretical Investigation on Formation of Enantiomerically Pure Compounds using Gold Catalyzed Asymmetric Synthesis ($BElKLBg1!9)(B) $B!{(B($B3X(B)Hema Malani$B!&(B($BElKLBgL$Mh%;(B) ($B@5(B)$BNkLZ(B $B0&(B$B!&(B($BElKLBg1!9)(B) Riadh Sahnoun$B!&(B($B@5(B)$B8E;3(B $BDL5W(B$B!&(B($B@5(B)$BDZ0f(B $B=(9T(B$B!&(B($B@5(B)$BH+;3(B $BK>(B$B!&(B($B@5(B)$B1sF#(B $BL@(B$B!&(B($B@5(B)$B9b1)(B $BMN=<(B$B!&(B($B@5(B)Del Carpio Carlos A$B!&(B($B@5(B)$B5WJ](B $BI4;J(B$B!&(B($BElKLBgL$Mh%;%s%?!<(B/$BElKLBg1!9)(B) ($B@5(B)$B5\K\(B $BL@(B | Quantum Chemical Molecular Dynamics Asymmetric Synthesis Gold Catalyst
| S-14 | 290 |