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4	$B?eAG!&%"%;%H%"%k%G%R%IF1;~@=B$EE5$2=3X%W%m%;%9$K$*$1$kA*Br@-(B ($B5~Bg9)(B) ($B@5(B)$B!{2O@%(B $B85L@(B$B!&(B ($B3X(B)$BL>B<(B $B7	Electroorganic synthesis Selectivity Acetaldehyde	O
25	[$B8&5f>^(B] $BFq?eMO@-%(%9%F%k9g@.$rBP>]$H$7$?H?1~%W%m%;%99)3X8&5f(B ($BElKLBg1!9)(B) ($B@5(B)$BKL@n(B $B>0H~(B	The SCEJ Award for Outstanding Research Achievement	O
35	[$BM%=(O@J8>^(B] HSAB$BB'$H(Bd$B%P%s%I%;%s%?! ($B%9%:%-(B) ($B@5(B)$B!{;01:(B $BOBLi(B$B!&(B $BLZKs(B $BJ8OB(B$B!&(B ($B@EBg1!9)(B) ($B@5(B)$BEOIt(B $B0=(B$B!&(B ($B@5(B)$BJ!86(B $BD9	supported metal catalyst d-band center theory HSAB concept	O
48	[$BE8K>9V1i(B] $B?(G^H?1~9)3X$H>o29:nF0$N%a%?%s2=5;=Q$,Bs$/(BCO2$B;q8;2=%W%m%;%9$N6/2=(B(PI) ($B@EBg1!(B) ($B@5(B)$BJ!86(B $BD9	CCU Auto-methana Carbon capture	O
54	$B9g@.%,%9$+$i$N%$%=%Q%i%U%#%sD>@\9g@.$r;X8~$7$?(BCo$BHyN3;RFbJq(BZSM-5$B?(G^$N3+H/(B ($BEl9)BgJ*$B!&(B ($B@5(B)$BF#J/(B $BBgM5(B$B!&(B ($B@5(B)$BB?8P(B $B516=(B	Fischer-Tropsch cobalt zeolite	O
132	$B%J%U%5@\?(J,2r$NDc292=$rL\;X$7$?(BRh$BC4;}(BZSM-5$B$N?(G^9=B$$N:GE,2=(B ($BEl9)BgJ*$B!&(B ($B@5(B)$BF#J/(B $BBgM5(B$B!&(B ($B@5(B)$BB?8P(B $B516=(B	naphtha catalytic cracking light olefins	O
165	$B;@2=%K%C%1%k$rMQ$$$??eAG$N?WB.=hM}$K$*$1$k5$8GH?1~%b%G%k$N9=C[(B ($B5~Bg9)(B) ($B3X(B)$B!{$B!&(B ($B@5(B)$BiCED(B $BN40l(B$B!&(B ($BEl$B!&(B $B;3ED(B $B97(B$B!&(B ($B5~Bg9)(B) ($B@5(B)$B2O@%(B $B85L@(B	Gas-solid reaction Nickel oxide Hydrogen removal	O
209	[$BE8K>9V1i(B] $B8GBNH?1~J* ($B4d=(B	solvent-free reaction organic reaction solid state	O
251	$B?e>x5$E:2C$,G.J,2rC:AG(BCVD$B$K5Z$\$91F6A(B ($B5~Bg9)(B) ($B3X(B)$B!{Fn(B $BNK2O(B$B!&(B ($B3X(B)$B>>ED(B $BK((B$B!&(B ($B@5(B)$B2O@%(B $B85L@(B	CVD Carbon Steam	O
284	$BDc?eAGHf>r7o$G$N(B$B&C(B-$B%P%l%m%i%/%H%s9g@.$r;YG[$9$k86NA5[Ce$r9MN8$7$??(G^H?1~@_7W(B ($BElKLBg1!9)(B) ($B3X(B)$B!{Bg5\(B $BN?G72p(B$B!&(B ($B@5(B)$BW"?9(B $B9@M4(B$B!&(B ($B@5(B)$BKL@n(B $B>0H~(B$B!&(B ($B@5(B)$B9b66(B $B8|(B	catalytic hydrogenation gamma-valerolactone levulinic ester	O
298	$BH>2sJ,A`:n$rMQ$$$?(BZIF-8$BJq@\5e7A%7%j%+$ND4@=(B ($B?@8MBg1!9)(B) ($B3X(B)$B!{2OED(B $B<~1Q(B$B!&(B ($B?@8MBg9)(B) $B@>@n(B $BM%(B$B!&(B ($B?@8MBg1!9)(B) $BEgED(B $BBg$B!&(B ($B@5(B)$BC+20(B $B7$B!&(B ($B@5(B)$BF|=P4V(B $B$k$j(B$B!&(B ($B@5(B)$BKY9>(B $B9';K(B$B!&(B ($B@5(B)$B8VED(B $B1YG7(B$B!&(B ($B@5(B)$B;T66(B $BM40l(B$B!&(B ($B@5(B)$BBgB<(B $BD>?M(B$B!&(B ($B@5(B)$B@>;3(B $B3P(B$B!&(B ($B@5(B)$BNkLZ(B $BMN(B	ZIF-8 latent heat silica microcapsule	O
336	$B%1%_%+%k%k!<%T%s%07?Dc29%a%?%s2~ ($BElKLBg1!9)(B) ($B3X(B)$B!{9uED(B $BM*2p(B$B!&(B ($BElKLBg(BNICHe) ($B@5(B)$B@.(B $B4pL@(B$B!&(B ($BElKLBg(BWPI-AIMR) ($B@5(B)$B2#(B $BE/(B$B!&(B ($BElKLBgB?858&(B) ($B@5(B)$Bcx5o(B $B9bL@(B$B!&(B($BElKLBg(BWPI-AIMR/$BElKLBgB?858&(B/$BElKLBg(BNICHe) ($B@5(B)$B0$?,(B $B2mJ8(B	chemical looping methane reforming kinetic analysis Cerium oxide	O
345	$B%<%*%i%$%HC4;}(BRh$B?(G^$*$h$S(BCO$B$rMQ$$$?%a%?%s$+$i(BC1$B!"(BC2$B4^;@AG2=9gJ*$X$NE>49H?1~(B ($BElBg@88&(B) ($B@5(B)$B!{LPLZ(B $Bt!I'(B$B!&(B ($BElBg1!9)(B) ($B3X(B)$BIZ1J(B $BD>8&(B$B!&(B ($BElBg@88&(B) ($B@5(B)$B>.AR(B $B8-(B	methane partial oxidation zeolite Rh catalyst	O
378	$B%[%9%U%#%s%j%,%s%I$r8GDj$7$?B?9& ($B6eBg1!9)(B) ($B3X(B)$B!{>>K\(B $B8w(B$B!&(B ($B@5(B)$B@1Ln(B $BM'(B$B!&(B ($B@5(B)$B;01:(B $B2B;R(B$B!&(B ($BKLBg1!M}(B) $B4d0f(B $BCR90(B$B!&(B $B_7B<(B $B@5Li(B	Continuous-Flow Synthesis Supported phosphine Palladium catalyst	O
421	[$BM%=(O@J8>^(B] CH4 Production from Hydrothermal Gasification of Ethanol Using Carbon-supported Ni Catalysts (Kyoto U.) ($B@5(B)$B!{Cf@n(B $B9@9T(B$B!&(B $B	Bio-ethanol Hydrothermal gasification Carbon-supported Nickel catalyst	O
454	In-situ APR$B$rMxMQ$7$??"J*L}$N?eAG2=J,2r(B ($BET;TBg(B) ($B@5(B)$B!{9bDE(B $B=J?M(B$B!&(B $B>.Eg(B $B9AEM(B$B!&(B $B?9(B $B9nG7(B	Hydrodeoxygenation Catalyst Plant oil	O
470	$B%Z%m%V%9%+%$%H7?(BLaM0.95Rh0.05O3 (M : Cr, Co, Fe)$B?(G^$rMQ$$$?%a%?%sItJ,;@2=H?1~(B ($B0q>kBg1!M}9)(B) ($B@5(B)$B!{B?ED(B $B>;J?(B$B!&(B ($BElBg1!9)(B) $B>.Ln(B $B5.@5(B$B!&(B ($B@5(B)$B5FCO(B $BN4;J(B	Partial oxidation Perovskite oxide Regeneration	O
475	$B%T%;%sM6F3BN$r8w?(G^$H$9$k2D;k8w>H ($B?@8MBg1!9)(B) ($B3$(B)$B!{9>(B $B1'HA(B$B!&(B $BKY(B $BN[B@O:(B$B!&(B $BFbF#(B $BfFB@(B$B!&(B ($B9CFnBgM}(B) $BCI>e(B $BGn;K(B$B!&(B ($B?@8MBg1!9)(B) ($B@5(B)$BC+20(B $B7$B!&(B ($B@5(B)$B;T66(B $BM40l(B$B!&(B ($B@5(B)$B@>;3(B $B3P(B	Photocatalyst Organic Semiconductor Decomposition of Water	O
525	$B9b ($B;0I)=E9)(B) ($BK!(B)$B!{Kv?9(B $B=EFA(B$B!&(B ($B@5(B)$B=);3(B $BCNM:(B$B!&(B ($BK!(B)$BNkLZ(B $B>"(B	Heavy-Hydrocarbon Fuels Thermal Decomposition and Coking Prediction Technologies detailed chemical kinetic mechanism	O
533	$B@\?(J,2rH?1~$N@8@.J*AH@.M=B,$K$*$1$k5!3#3X=,$NMxMQ(B ($B?.=#Bg(B) ($B@5(B)$B!{EhED(B $B8^I4N$(B$B!&(B ($B@5(B)$BD9ED(B $B8w@5(B$B!&(B ($B@5(B)$BJ!D9(B $BGn(B$B!&(B ($B@5(B)$B8E;3(B $BDL5W(B	machine learning feature engineering catalytic cracking	O
547	Fe$B7O?(G^$N3J;RN22+$r3hMQ$7$?Dc5i%"%k%+%s(B(C2-C4)$B$NC&?eAG(B:$B5$Aj(BH2S$B$NB%?J8z2L(B ($B@EBg1!9)(B) ($B@5(B)$B!{EOIt(B $B0=(B$B!&(B $B0MED(B $BM5B@(B$B!&(B $BJ?ED(B $BK>(B$B!&(B $B2OLn(B $BK'3$(B$B!&(B ($B@5(B)$BJ!86(B $BD9	Hydrogen sulfide Dehydrogenation Fe	O
580	Ni-Co$B:.9gN22=J*$+$i$N(BNi$B?;=PB.EY$K5Z$\$9A0=hM}$N8z2L(B ($B6eBg1!9)(B) ($B3X(B)$B!{@nED(B $B42G7(B$B!&(B ($B@5(B)$B;3K\(B $B9d(B$B!&(B ($B@5(B)$B4_ED(B $B>;9@(B$B!&(B ($B=;M'6bB09[;3(B) ($BK!(B)$BJ?74(B $B?-0l(B	Nickel-Cobalt mixed sulfide Ni leaching Sulfer oxidation	O
581	Carbon Insertion in Propylene Formation from Hydrocarbon Pool of HZSM-5 Catalyzed MTO Reaction Studied by Isotopic Transient Kinetic Analysis (U. Tokyo) ($B3X(B)$B!{(BMa Jing$B!&(B ($B@5(B)Moteki Takahiko$B!&(B ($B@5(B)Ogura Masaru	Methanol-to-Olefins (MTO) Propylene Steady-state Isotopic Transient Kinetic Analysis (SSITKA)	O
594	$B%P%$%*%^%9J,2rJ*$r86NA$H$7$?%"%k%-%k%0%k%3%7%I$N?75,9g@.K!(B ($BElKLBg1!9)(B) ($B3X(B)$B!{A0ED(B $BD>51(B$B!&(B ($B3X(B)$B:{;3(B $BCNNf(B$B!&(B ($B@5(B)$BW"?9(B $B9@M4(B$B!&(B ($B@5(B)$B9b66(B $B8|(B$B!&(B ($B@5(B)$BKL@n(B $B>0H~(B	alkyl glucoside resin catalyst levoglucosan	O
662	$B%^%$%/%m%+%W%;%k30I=LL$G$N%7%j%+GvKl7A@.$K%7%i%s=$>~:^$,5Z$\$91F6A(B ($B?@8MBg1!9)(B) ($B3X(B)$B!{0BB<(B $B=<(B$B!&(B $BEgED(B $BBg$B!&(B ($B@5(B)$BC+20(B $B7$B!&(B ($B@5(B)$BKY9>(B $B9';K(B$B!&(B ($B@5(B)$BF|=P4V(B $B$k$j(B$B!&(B ($B@5(B)$B8VED(B $B1YG7(B$B!&(B ($B@5(B)$B;T66(B $BM40l(B$B!&(B ($B@5(B)$BBgB<(B $BD>?M(B$B!&(B ($B@5(B)$BNkLZ(B $BMN(B$B!&(B ($B@5(B)$B@>;3(B $B3P(B	3-Aminopropyltriethoxysilane SiO2 Thin Film Silica Microcapsule	O
674	CO2$B%a%?%s2=H?1~MQ(BNi-$BC:AG7O?(G^$N3+H/(B ($B2,;3Bg1!4D@8(B) ($B3X(B)$B!{>.86(B $B@?90(B$B!&(B ($B@5(B)$B%&%C%G%#%s(B $B%b%O%^%C%I%"%:%O(B$B!&(B ($B@5(B)$B2CF#(B $B2E1Q(B	CO2 methanation Ni-carbon catalyst Ion-exchange resin	O
707	$B%a%A%k%7%/%m%X%-%5%sC&?eAGMQ(BPt$B?(G^$X$N(BSe$BE:2C8z2L(B ($B6eBg1!9)(B) ($B3X(B)$B!{0KF#(B $BBgLo(B$B!&(B ($B@5(B)$B;3K\(B $B9d(B$B!&(B ($B@5(B)$B4_ED(B $B>;9@(B$B!&(B ($BF|E4%(%s%8(B) ($BK!(B)$B2CF#(B $Bl*(B$B!&(B ($BK!(B)$B?9ED(B $B7rB@O:(B$B!&(B ($BK!(B)$BBg66(B $B0!	Methylcyclehexane dehydrogenation Pt catalyst Se addition	O
736	$BFs41G=@-C:AG(BNi/NiO$B%J%N%U%!%$%P! ($BElKLBg1!4D(B) ($B3X(B)$B!{0$It(B $BM':H(B$B!&(B ($B@5(B)$B3T(B $B3$?4(B$B!&(B ($B@5(B)Smith Richard	Solvothermal transition metal catalyst ethyl levulinate	O
745	$BC:AGC4;}6bB0?(G^$rMQ$$$??];@$N?e>x5$2~ ($B5~Bg1!9)(B) ($B3X(B)$B!{F#ED(B $Bh=9>(B$B!&(B ($B@5(B)$BCf@n(B $B9@9T(B	Steam reforming Acetic acid Nickel-based catalysts	O
788	$BHsDj>oA`:n$K$h$kDcG;EY(BCO2$B$ND>@\2s<}!&(BCH4$B9g@.5;=Q$N3+H/(B ($B;:Am8&(B) ($B@5(B)$B!{9b:d(B $BJ8I'(B$B!&(B $BN-(B $BI'M&(B$B!&(B $BDD(B $B;E85(B$B!&(B $BK>7n(B $B9d5W(B$B!&(B $B9bLZ(B $B1Q9T(B$B!&(B ($B%G%k%U%H9)Bg(B) $B1:@n(B $BFF(B$B!&(B ($B;:Am8&(B) ($B@5(B)$BARK\(B $B9@;J(B	CO2 capture CO2 utilization methanation	O
843	$BD62;GHL82=;~$N1UCf%-%c%S%F!<%7%g%s$N2;6A2=3XH/8w$K$h$k2D;k2=$H6/EYJ,I[$NDjNL(B ($B$B!&(B ($B3X(B)$B!{Fs5\(B $BBg$B!&(B ($B@5(B)$B8^Eg(B $B?r(B$B!&(B ($B@5(B)$B?eED(B $B7I(B	ultrasonic atomization cavitation sonochemiluminescence	O
874	NaOH$BE:2CG.?e>r7o2<$K$*$1$k(B1-Fluorooctane$B$NC&%U%CAG2=N($K$*$h$\$9H?1~>r7o$N1F6A(B ($BCf1{Bg1!M}9)(B) ($B3X(B)$B!{4X8}(B $B>!Lp(B$B!&(B ($B3X(B)$B1sF#(B $B=c(B$B!&(B ($BCf1{BgM}9)(B) ($B@5(B)$B:dIt(B $B=_0l(B$B!&(B ($B@5(B)$BA%B$(B $B=S9'(B	hydrothermal defluorination 1-Fluorooctane	O

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$B2=3X9)3X2q(B $BBh(B51$B2s=)5(Bg2q(B (2020)

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(C) 2021 $B8x1W
Most recent update: 2021-02-07 15:20:01
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