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| Machine | Magnetic beads | Magnetic nanoparticles | magnetite | magnetite interface | magnetocaloric effect | malaysia | maldistribution | Mangosteen | Manned Space Technology | Marangoni | Marangoni convection | Mass production | Mass Spectrometry | mass transfer | mass transfer | mass transfer coefficient | mass transfer rate | Material feed | Material flow | Mathematical model | Maxblend impeller | maximum spoutable bed depth | Mechanism of Mixing | mehanol | melt convection | melt crystallization | membrane | Membrane | membrane distillation | membrane emulsification | membrane lipid | Membrane module | membrane reactor | membrane separation | membrane separation | membrane surface properties | membranes | membranome | membranome | Mercury | Mesoporous Silica | Metabolic analysis | Metabolic engineering | metal | Metal adsorption | metal catalyst | Metal chloride | Metal Hydride | Metal Ion-Free Reaction | metal loaded catalyst | Metal nanoparticle | metal nanoparticles | metal separator | metal-ferrocyanide | Metal-Organic Frameworks | Metallic oxide | Metallosphaera sedula | metallurgical coke | methane | Methane decomposition | methane fermentation | Methane steam reforming | methane/ethane separation | MFI zeolite | MFI zeolite membrane | MFI Zeolites | MFI-Zeolite/metal oxide composites | MHC-epitope fusion protein | MHV1 |
$B!|(B
Machine
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 13-g (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
36 LCA$B$K$b$H$E$/(BCNC$B9):n5!3#$N4D6-BP:v!!!]A4%i%$%U(B $B%5%$%/%k$K$*$1$k(BLCA$B$H4D6-BP:v$N9M;!!](B
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13-gLCA
CNC
Machine
11/28
11:24:45
$B!|(B
Magnetic beads
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 7-e (1$B7o(B)
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746 $B1UE)%O%s%I%j%s%0%7%9%F%`$rMQ$$$?Hy>/:YK&$+$i$N(B $BC&pyN3H?1~8!=P(B
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7-eAllergy
Droplet
Magnetic beads
12/10
21:15:02
$B!|(B
Magnetic nanoparticles
(1$B7o(B)
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314 $B%O%$%V%j%C%I%W%m%b!<%?!<%7%9%F%`$rMQ$$$?<'>lM6(B $BF37?$,$s29G.0dEA;R<#NEK!$N3+H/(B
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7-aGene therapy
Hyperthermia
Magnetic nanoparticles
12/10
00:47:19
$B!|(B
magnetite
(1$B7o(B)
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12-kdispersion
magnetite
interfacial reaction
12/10
17:21:03
$B!|(B
magnetite interface
(1$B7o(B)
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748 $B%^%0%M%?%$%H3&LL$K$*$1$kbgAG5[Ce5!9=(B
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4-earsenic adsorption
magnetite interface
zeta potential
12/10
21:18:03
$B!|(B
magnetocaloric effect
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-d (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
61 $B<+8JG.:F@8$K4p$E$$$?(BAMR$B%R!<%H%5!<%-%e%l!<%?!<(B $B$N35G0@_7W(B
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9-dself-heat recuperation
magnetocaloric effect
energy
12/3
15:32:36
$B!|(B
malaysia
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B K-2 (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
45 [$B%"%8%"9q:]>^(B] Biodiesel Research, Progress and Challenges in Malaysia
(Universiti Teknologi PETRONAS) Bakar Suliana Abu $B!&(B $B!{(BYusup Suzana Binti$B!&(B Uemura Yoshimitsu
K-2 biodiesel
malaysia
oil palm
12/1
11:10:34
$B!|(B
maldistribution
(1$B7o(B)
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2-a maldistribution
honeycomb
CFD
12/10
13:20:32
$B!|(B
Mangosteen
(1$B7o(B)
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$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
479 Supercritical CO2-Modified Hydrothermal Extraction of Bioactive Compounds from Garcinia mangostana Pericarp
(De La Salle U.) $B!{(B($B3X(B)Kimthet Chhouk$B!&(B (Kumamoto U.) ($B@5(B)Quitain Armando T.$B!&(B (De La Salle U.) Gaspillo Pag-asa D.$B!&(B Maridable Julius B.$B!&(B (Tokyo Tech) ($B@5(B)Shimoyama Yusuke$B!&(B (Kumamoto U.) ($B@5(B)Sasaki Mitsuru$B!&(B (Nagoya U.) ($B@5(B)Goto Motonobu
8-cSupercritical Carbon Dioxide
Hydrothermal
Mangosteen
12/10
14:39:45
$B!|(B
Manned Space Technology
(1$B7o(B)
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674 $BFs;@2=C:AG$r;@AG8;$H$9$k6u5$:F@8M-?M1'Ch5;=Q(B
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13-g Manned Space Technology
Air revitalization
CO2
12/10
19:02:17
$B!|(B
Marangoni
(1$B7o(B)
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$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
1 $B1UKl>e%5!<%b%-%c%T%i%j!u$N1F6A$K4X$9$k?tCM2r@O(B
($B:eBg1!4p9)(B) $B!{(B($B3X(B)$B;3K\(B $BBnLi(B$B!&(B ($B@5(B)$B9bLZ(B $BMNJ?(B$B!&(B ($B@5(B)$B2,Ln(B $BBYB'(B
2-aMarangoni
Thermocapillary
Numerical Simulation
11/12
10:13:44
$B!|(B
Marangoni convection
(1$B7o(B)
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$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
204 $B29EY:9$HG;EY:9$K5/0x$9$k%^%i%s%4%KBPN.$N6&B88z(B $B2L$H%R%9%F%j%7%9FC@-(B
($BN0Bg9)(B) $B!{(B($B@5(B)$B?e8}(B $B>0(B$B!&(B $B5HNf(B $BOB>-(B$B!&(B $B574V(B $B8g(B$B!&(B ($B:eBg1!4p9)(B) ($B@5(B)$B2,Ln(B $BBYB'(B
2-aMarangoni convection
Floating zone technique
Hysteresis phenomena
12/7
16:56:11
$B!|(B
Mass production
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 8-e (1$B7o(B)
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98 $BD6NW3&N.BN$rMQ$$$?9bIJ
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8-e Supercritical fluid
Graphene
Mass production
12/5
15:08:03
$B!|(B
Mass Spectrometry
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 13-c (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
49 $B%=%U%H%W%i%:%^%$%*%s8;$rMQ$$$?$P$$1lCfM-5!%(%"(B $B%m%>%k$ND>@\
($BL>Bg%(%3(B) $B!{(B($B@5(B)$BI[L\(B $BM[;R(B$B!&(B $B;y6L(B $B7{<#(B$B!&(B ($B4Z9q3$MNBg(B) $BKQ(B $B8-T"(B$B!&(B ($BL>Bg%(%3(B) ($B@5(B)$B?"LZ(B $BJ]><(B$B!&(B ($BL>Bg9)(B) ($B@5(B)$B5A2H(B $BN<(B$B!&(B ($B4Z9q7DFnBg(B) Lee Sang Chun$B!&(B ($BL>Bg%(%3(B) $BKL@n(B $BK.9T(B$B!&(B ($B@5(B)$B@.@%(B $B0lO:(B
13-cOganic Aerosol
Mass Spectrometry
Soft Plasma Ionization
12/1
19:25:14
$B!|(B
mass transfer
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-f (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
242 $BHy>.N.O)$K$*$1$k5$1U%9%i%0N.$rMxMQ$7$?(BCO2$B5[(B $B<}A`:n$K4X$9$k8&5f(B
($B5~Bg9)(B) $B!{(B($B3X(B)$BJ!ED(B $B5.;K(B$B!&(B ($B3X(B)$B:4F#(B $BOBJb(B$B!&(B ($B@5(B)$BKR(B $BBYJe(B$B!&(B ($B@5(B)$BA0(B $B0lW"(B
5-fmicro slug flow
mass transfer
CO2 sorption
12/8
00:08:15
$B!|(B
mass transfer
(4$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
137 $BIOMOG^>=@O$K$*$1$k3KH/@8$H3H;68=>]$K4X$9$k4pAC(B $B8&5f(B
($BJ<8K8)Bg1!9)(B) $B!{(B($B@5(B)$BJ!0f(B $B7<2p(B$B!&(B ($B3X(B)$BBg66(B $BN<2p(B$B!&(B ($B@5(B)$BA0ED(B $B8w<#(B
12-gAnti-solvent crystallization
Nucleation
Mass transfer
12/6
15:25:46
206 $B@8BN9bJ,;RJ#9gKl$N?75,D4@=$HE|:?%M%C%H%o!<%/@)(B $B8f$K$h$k?eMO@-?'AGJ,;R$NA*BrJ,N%(B
($BF|Bg1!@8J*;q8;(B) $B!{(B($B3X(B)$B8b(B $BK2(B$B!&(B ($B@5(B)$BF+(B $B7E(B$B!&(B ($B@5(B)$B:#0f(B $B@5D>(B
4-a Food polymer
composite membrane
mass transfer
12/7
17:03:16
252 $B%-%H%5%sKl$N5!3#E*6/EY$HJ*
($BF|Bg1!@8J*;q8;(B) $B!{(B($B3X(B)$BLnK\(B $BN5J?(B$B!&(B ($B@5(B)$BF+(B $B7E(B$B!&(B ($B@5(B)$B:#0f(B $B@5D>(B
4-achitosan membrane
alkali treatment
mass transfer
12/8
14:28:31
777 $BAj4V0\F0%8%"%>%+%C%W%j%s%0H?1~$rMxMQ$7$?%P%C%A(B $B%^%$%/%mM;9g7?H?1~%7%9%F%`$NI>2A(B
($BFAEgBg(BSTS) $B!{(B($B@5(B)$B30NX(B $B7r0lO:(B$B!&(B ($BFAEgBg1!@hC<650i(B) ($B3X(B)$B;3:j(B $BAoB@(B$B!&(B ($BFAEgBg(BSTS) ($B@5(B)$BKY2O(B $B=S1Q(B$B!&(B ($B@5(B)$B?y;3(B $BLP(B$B!&(B ($B@5(B)$BCf@n(B $B7I;0(B
5-f microreactor
liquid-liquid reaction
mass transfer
12/10
21:44:52
$B!|(B
mass transfer coefficient
(2$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-f (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
64 $B5$1U==;zN.<0B?9&HDEc$N1UAjJ*uBV$N1F6A(B
($B;38}Bg(B) $B!{(B($B@5(B)$BCfHx(B $B>!Ui(B$B!&(B ($BBgEg>&A%9b@l(B) ($B@5(B)$B8EK\(B $B7$B!&(B ($B;38}Bg1!0e(B) ($B@5(B)$B5HK\(B $B@?(B
2-d Mass transfer coefficient
Sieve plate column
Bubble interactions
12/3
19:07:37
541 $B%j%]%=!<%`!&%Y%7%/%k$N%J%NKl3&LL$r2p$7$?(BDoxorubicin $B$NJ*
($B:eBg1!4p9)(B) $B!{(B($B3X(B)$BC$0f(B $B9d(B$B!&(B ($B3X(B)$BNS(B $B7$B!&(B ($B:eBg4p9)(B) $B@Z@P(B $B$^$I$+(B$B!&(B ($B2,;3Bg4DM}(B) ($B@5(B)$BEgFb(B $B$B!&(B ($B:eBg1!4p9)(B) ($B@5(B)$BGO1[(B $BBg(B
4-fmembranome
mass transfer coefficient
doxorubicine
12/10
16:25:57
$B!|(B
mass transfer rate
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-f (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
650 $B8~N.B?CJCj=P$K$h$k%3!<%k%?!<%k5[<}L}$NJ,N%(B
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4-fcoal tar absorption oil
countercurrent multistage extraction
mass transfer rate
12/10
18:31:05
$B!|(B
Material feed
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 10-b (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
581 $B2=3X%W%i%s%H$K$*$1$k@8;:NLJQ2=$KBP1~$7$?0[>o86(B $B0xFCDj%7%9%F%`$N9=C[(B
($B2,;3Bg1!<+(B) $B!{(B($B3X(B)$B5H4V(B $BfFB@O:(B$B!&(B ($B@5(B)$BNkLZ(B $BOBI'(B$B!&(B ($B@5(B)$B=!_7(B $BNI?C(B
10-bFault diagnosis system
Material feed
Principal component analysis
12/10
17:09:22
$B!|(B
Material flow
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-c (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
677 $B?e6d$N%^%F%j%"%k%U%m!<%D!<%k%-%C%H$N3+H/(B
($B4tIlBg9)(B) $B!{(B($B3X(B)$BBg@n(B $B>M90(B$B!&(B ($B@5(B)$B
9-cMercury
Vensim
Material flow
12/10
19:08:21
$B!|(B
Mathematical model
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-c (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
120 A mechanism of photocatalytic decomposition of 2,4-dinitrophenol in an aqueous solution containing TiO2 fine particle suspension
(Kyushu U.) $B!{(B($B@5(B)Chand Rumi$B!&(B ($B@5(B)Shiraishi Fumihide
5-cPhotocatalytic reaction
Mathematical model
Reactant and product inhibitions
12/6
12:41:02
$B!|(B
Maxblend impeller
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 2-b (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
664 $B%^%C%/%9%V%l%s%IJP?43IYBAe$K$*$1$kF0NO$*$h$S:.(B $B9g;~4V$K5Z$\$9%9%1!<%k%"%C%W$N1F6A(B
($B2#9qBg1!9)(B) $B!{(B($B3X(B)$B1`ED(B $B0l;K(B$B!&(B ($B@5(B)$B?N;V(B $BOBI'(B$B!&(B ($B@5(B)$B;03Q(B $BN4B@(B$B!&(B ($B@5(B)$B>e%N;3(B $B<~(B
2-b eccentric mixing
Maxblend impeller
scale up effect
12/10
18:50:26
$B!|(B
maximum spoutable bed depth
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 2-c (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
691 Spout-Fluid Bed$B$NN.F0FC@-(B
($BJ!2,Bg9)(B) $B!{(B($B@5(B)$B1JEg(B $BBg(B$B!&(B ($B3X(B)$B>>Hx(B $B63Je(B$B!&(B ($B@5(B)$B@Pi6(B $BMxJ8(B
2-cspout-fluid bed
maximum spoutable bed depth
PIV
12/10
19:33:08
$B!|(B
Mechanism of Mixing
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 2-b (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
63 $BBPN.:.9g$N4pK\9=B$(B
($B85:eBg(B) $B!{(B($B@5(B)$B0f>e(B $B5AO/(B
2-bFluid Mixing
Convective Mixing
Mechanism of Mixing
12/3
18:39:38
$B!|(B
mehanol
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-h (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
679 $B%a%?%N!<%k$rMQ$$$k3lC:$NC&?e%W%m%;%9(B
(IHI) $B!{VC(B $B861I(B$B!&(B $B9bF#(B $B@?(B$B!&(B ($B@5(B)$B?\ED(B $B=SG7(B
4-hlignite
mehanol
dewatering
12/10
19:09:06
$B!|(B
melt convection
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 3-f (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
295 $B@E<'>l=E>vEE<'IbM7(BCuCo$B9g6b1UE)$N2aNd5Q6E8GAH?%(B $B9=B$$K5Z$\$9M;1UFbBPN.$N1F6A(B
($BElKLBg1!9)(B) $B!{(B($B3X(B)$B0f>e(B $B5.=<(B$B!&(B ($B3X(B)$B9u_7(B $BN<(B$B!&(B ($BElKLBg9)(B) ($B3X(B)$BKL86(B $BMc(B$B!&(B ($BElKLBg1!9)(B) ($B@5(B)$B?y2,(B $B7r0l(B$B!&(B ($B@5(B)$B5WJ](B $B@5$B!&(B ($B@5(B)$BDMED(B $BN4IW(B$B!&(B ($BElKLBgB?858&(B) $BBG1[(B $B2m?N(B$B!&(B $BJ!;3(B $BGnG7(B
3-f Undercooled solidification
melt convection
Electromagnetically levitated droplet
12/9
18:57:57
$B!|(B
melt crystallization
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 12-g (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
486 $BM;1U>=@O$N%9%?!<%H%"%C%WA`:n;~$NNd5QLL>e$G$N%9(B $B%1!<%k7A@.$NF0E*2aDx(B
($BElG@9)Bg1!9)(B) $B!{(B($B3X(B)$B9)F#(B $BfF;|(B$B!&(B ($B;0I)%l%$%h%s(B) ($B@5(B)$BF|Ln(B $BCRF;(B$B!&(B ($BElG@9)Bg1!9)(B) ($B@5(B)$BBl;3(B $BGn;V(B
12-gmelt crystallization
scaling
crystal morphology
12/10
14:46:37
$B!|(B
membrane
(5$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (2$B7o(B), 12-i (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
148 $B0BDj2=:^$K$h$j5!G=2=$5$l$?6d%J%NN3;R$rMQ$$$?%J(B $B%NN3;R@QAX7?J,N%Kl$N3+H/(B
($B?@8MBg1!9)(B/$B@hC$B!&(B ($B@5(B)$B:4Gl(B $BBgJe(B$B!&(B ($B@5(B)$B>>;3(B $B=(?M(B
12-imembrane
Nanoparticles
self-assembly
12/6
16:37:10
208 $B%"%k%.%s;@Kl$N0BDj7A@.$H1TIR$JJ,;R%5%$%:G'<15!(B $BG=$KBP$9$k%0%k%m%s;@%V%m%C%/$NLr3d(B
($BF|Bg1!@8J*;q8;(B) $B!{(B($B3X(B)$B2CEg(B $B7IB@(B$B!&(B ($B@5(B)$BF+(B $B7E(B$B!&(B ($B@5(B)$B:#0f(B $B@5D>(B
4-a alginate
membrane
molecular size recognition
12/7
17:03:30
267 $B=[4D<0(BVP$B;n834o$rMQ$$$?(BY$B7?%<%*%i%$%HKl$K$h$k(BIPA $BC&?e2aDx$NDI@W(B
($B1'ET5\Bg9)(B) $B!{(B($B3X(B)$B@PED(B $B=a(B$B!&(B ($B1'ET5\Bg1!9)(B) $BBg_7(B $B8,2p(B$B!&(B ($B@5(B)$B:4F#(B $B9d;K(B$B!&(B ($B@5(B)$B0KF#(B $BD>
4-a Y type zeolite
membrane
dehydration
12/8
21:09:30
430 MTW$B7?%<%*%i%$%HKl$K$h$k4^?eM-5!MOG^$+$i$N?e$N(B $BA*BrJ,N%(B
($BKLBg1!9)(B) $B!{(B($B3X(B)$BJ?ED(B $B:L(B$B!&(B Zhang Yaqi$B!&(B ($B@5(B)$BCf:d(B $BM$B@(B$B!&(B ($B@5(B)$BB?8P(B $B516=(B$B!&(B ($B@5(B)$BA}ED(B $BN4IW(B
4-aMTW type zeolite
membrane
crystalline morphology
12/10
13:28:35
697 $B%i%C%+!<%2A(B
($BL>Bg1!9)(B) $B!{(B($B@5(B)$BJR6M(B $B@?G7(B$B!&(B ($B3X(B)$BF#ED(B $BOBLi(B$B!&(B ($B@5(B)$BF~C+(B $B1Q;J(B
4-b membrane
enzyme
decolorization
12/10
19:43:40
$B!|(B
Membrane
(3$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (2$B7o(B), 5-d (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
5 $B?(G^0lBN2=%b%8%e!<%k$NBQ5W@-8~>e$H
($BEl5~%,%9(B) $B!{5WJF(B $B9b@8(B$B!&(B $BCSED(B $BM[0l(B$B!&(B $B0f4X(B $B9'Lo(B$B!&(B $BLp2CIt(B $B5W9'(B$B!&(B ($BF|K\FC$B!&(B $B9bLZ(B $BJ]9((B$B!&(B $BI':d(B $B1Q><(B$B!&(B $BEDCf(B $BM5G7(B$B!&(B $B;0Lp(B $B9LJ?(B$B!&(B $B3aC+(B $B>;90(B$B!&(B $B@n@%(B $B9-
5-dHydrogen
Palladium
Membrane
11/12
18:49:45
166 $B%$%*%sG'<1%]%j%"%s%U%)%i%$%H$rMQ$$$??75,5!G=Kl(B $B$N3+H/(B
($BEl9)Bg;q8;8&(B) $B!{(B($B3X(B)$B2\L>(B $B$B!&(B ($B@5(B)$BBg66(B $B=(Gl(B$B!&(B ($B@5(B)$BED4,(B $B9'7I(B$B!&(B ($B@5(B)$B;38}(B $BLT1{(B
4-apolyampholyte
ion recognition
membrane
12/6
22:13:22
688 $BG;8|(BO/W$B%(%^%k%7%g%s$NKl:Y9&F)2a5sF0$K4X$9$k?t(B $BCME*8!F$(B
($B?@8MBg9)(B/$B@hC$B!&(B ($B?@8MBg1!9)(B/$B@hC$B!&(B ($B3X(B)$BI[;\(B $B$R$m$_(B$B!&(B ($B@5(B)$B>>;3(B $B=(?M(B
4-aCLSVOF
Emulsion
Membrane
12/10
19:25:23
$B!|(B
membrane distillation
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
579 $B29EY:9Kl>xN1$K$*$1$kKl8|$5$N:GE,CM(B
($BEl9)Bg1!M}9)(B) $B!{(B($B3X(B)$B2,:j(B $BfFJ?(B$B!&(B ($BEl9)Bg9)(B) $B5WJ](B $BNIGn(B$B!&(B ($BEl9)Bg1!M}9)(B) ($B@5(B)$BW"ED(B $BM:0lO/(B$B!&(B ($B@5(B)$B0KEl(B $B>O(B
4-a membrane distillation
desalination
temperature polarization
12/10
17:08:46
$B!|(B
membrane emulsification
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 7-h (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
653 $BKlF}2=$K$h$kB?Aj%(%^%k%7%g%s$r4p:`$H$7$?;i
($BC^GHBg@84D7O(B) $B!{(B($B3X(B)$BBgDM(B $BM4:H(B$B!&(B ($BEl5~ET;TBg9)(B) ($B@5(B)$B9u4d(B $B?r(B$B!&(B ($BC^GHBg@84D7O(B) ($B@5(B)$B:4F#(B $B@?8c(B$B!&(B ($B@5(B)$B;T@n(B $BAO:n(B
7-hlipid vesicle
multiple-emulsion
membrane emulsification
12/10
18:33:52
$B!|(B
membrane lipid
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 7-b (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
438 $B@8BNKl7O$K$*$1$k%j%s;i
($BElKLBg9)(B) $B!{(B($B3X(B)$B|f@n(B $BM4;R(B$B!&(B ($B@5(B)$BKL@n(B $B>0H~(B$B!&(B ($B@5(B)$BCfEg(B $B0l5*(B$B!&(B ($B@5(B)$BJFK\(B $BG/K.(B
7-bkinetic model
membrane lipid
co-oxidation
12/10
13:37:55
$B!|(B
Membrane module
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
565 $B3$?e$r6nF0MO1U$H$7$?%U%)%o!<%I!&%*%9%b%7%9GS?e(B $B=hM}%7%9%F%`(B(II):$B%7%9%F%`@-G=$H1?E>>r7o$H$N4X(B $B78(B
($B;38}Bg1!M}9)(B) $B!{(B($B@5(B)$B1sF#(B $B@kN4(B$B!&(B ($B3X(B)$B=EF#(B $BBgJe(B$B!&(B $B=BC+(B $B??;K(B$B!&(B $B@t@n(B $B?52p(B$B!&(B ($B@5(B)$BHf2E(B $B=<(B
4-a Forward osmosis
Membrane module
Effluent treatment
12/10
16:45:48
$B!|(B
membrane reactor
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
132 C12A7$B%^%$%(%J%$%H%a%s%V%l%s%j%"%/%?!<$rMQ$$$?(B $B%a%?%s;@2=H?1~(B
($BL>Bg1!9)(B) $B!{(B($B3X(B)$B>>1J(B $B7=8^(B$B!&(B ($B@5(B)$B;3ED(B $BGn;K(B$B!&(B ($B@5(B)$BED@n(B $BCRI'(B
5-e membrane reactor
C12A7mayenite
fuel cell type reactor
12/6
14:28:31
$B!|(B
membrane separation
(5$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (2$B7o(B), 12-g (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
190 $B%P%$%*%(%?%N!<%kG3NA$+$i$N%(%?%N!<%k$H%,%=%j%s(B $B$NKlJ,N%(B
($B@.l~BgM}9)(B) $B!{(B($B3X(B)$B1:>e(B $BBsO:(B$B!&(B ($B@5(B)$BK\6?(B $B>H5W(B$B!&(B ($B@5(B)$BN$@n(B $B=EIW(B$B!&(B ($B@5(B)$B;3:j(B $B>O90(B
13-ibioethanol
membrane separation
PDMS
12/7
15:14:36
345 $B%i%s%@%`G[8~(Bsilicalite-1$BKl$KBP$9$k>x5$F)2aJ,N%(B $BFC@-$N8!F$(B
($BAaBgM}9)Am8&(B/$BAaBg@h?JM}9)(B) ($B@5(B)$B>>J}(B $B@5I'(B$B!&(B ($BAaBg@h?JM}9)(B) $B!{(B($B3X(B)$B$B!&(B $B6b;R(B $BBsLp(B
4-a zeolite
membrane separation
silicalite-1
12/10
10:42:19
385 $B6d%+%A%*%s8r497?(BY$B7?%<%*%i%$%HKl$K$h$k%W%m%Q%s(B/ $B%W%m%T%l%sJ,N%$N2DG=@-(B
($BAaBg@h?JM}9)(B/$BAaBgM}9)Am8&(B) ($B@5(B)$B>>J}(B $B@5I'(B$B!&(B ($BAaBg@h?JM}9)(B) $B!{(B($B3X(B)$BH$B!&(B ($B3X(B)$B
4-amembrane separation
zeolite membrane
Ag-Y-type zeolite
12/10
11:56:43
443 $BKlJ,N%$rMQ$$$?G;=L$K$h$k(BCaOx$B$N3K2=!&@.D95sF0$N(B $B4Q;!(B
($BAaBg@h?JM}9)(B) $B!{(B($B3X(B)$B@FF#(B $B8-;J(B$B!&(B ($B@5(B)$BJ?Bt(B $B@t(B$B!&(B ($B@5(B)$B>.KY(B $B?<(B
12-g Calcium Oxalate
membrane separation
crystallization
12/10
13:46:06
698 $B=K!$rMQ$$$?(BMCM-22$BKl$N9g@.$H>x5$F)2aK!$K$h(B $B$k?e(B/IPA$BJ,N%(B
($B:eBg1!4p9)(B) $B!{(B($B3X(B)$B;3K\(B $BIK1J(B$B!&(B ($BEl9)Bg1!M}9)(B) ($B@5(B)$BW"ED(B $BM:0lO/(B$B!&(B ($B:eBg1!4p9)(B) ($B@5(B)$BFbED(B $B9,L@(B$B!&(B ($B@5(B)$B9>F,(B $BLw9,(B$B!&(B ($B@5(B)$B@>;3(B $B7{OB(B
4-azeolite membrane
membrane separation
seeding method
12/10
19:48:35
$B!|(B
membrane separation
(2$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
456 $B%P%$%*%^%9$N%,%92=$HKlJ,N%$NM;9g$K$h$k%a%?%s@=(B $BB$%W%m%;%9$N@-G=I>2A(B
($BL>9)Bg(B) $B!{(B($B@5(B)$BFn1@(B $BN<(B$B!&(B ($B@5(B)$B4dED(B $B=$0l(B$B!&(B ($B@5(B)$B?9(B $B=(
4-abiomass gasification
feasibility study
membrane separation
12/10
14:10:02
760 $B%W%i%:%^(BCVD$BK!$K$h$k%"%b%k%U%!%9%+!<%\%sKl$N:n(B $B@=$HF)2aFC@-I>2A(B
($B9-Bg1!9)(B) $B!{(B($B@5(B)$BD9_7(B $B425,(B$B!&(B ($B@5(B)$B6b;X(B $B@58@(B$B!&(B ($B@5(B)$B5H2,(B $BJ~5W(B$B!&(B ($B@5(B)$BETN1(B $BL-N;(B
4-a Plasma CVD
Amorphous carbon membrane
Membrane separation
12/10
21:31:20
$B!|(B
membrane surface properties
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
625 $BKl:`NA$NI=LLJ*@-$,(BPseudomonas putida$B$N%P%$%*%U(B $B%#%k%`7A@.$K5Z$\$91F6A(B
($B?@8MBg1!9)(B/$B@hC$B!&(B ($B@5(B)$B:4Gl(B $BBgJe(B$B!&(B ($B@5(B)$B_7ED(B $BM&@8(B$B!&(B ($B@5(B)$B>>;3(B $B=(?M(B
4-abacterial adhesion
biofilm
membrane surface properties
12/10
18:00:03
$B!|(B
membranes
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
455 $BG.M65/AjJ,N%K!$G:n@=$7$?BQMO:^@-%]%j%"%_%ICf6u(B $B;e8B30_I2aKl(B
($B%f%K%A%+(B) $B!{(B($B@5(B)$B86(B $BM-4u(B$B!&(B ($B@5(B)$B>.Ln(B $B5.Gn(B
4-a polyamide
membranes
solvent resistant
12/10
14:09:07
$B!|(B
membranome
(6$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (2$B7o(B), 4-f (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
526 $B;iKC;@%Y%7%/%kKl$NFC@-!&5!G=$K$*$h$\$93&LL=$>~(B $BJ,;R$N8z2L(B
($B:eBg1!4p9)(B) ($B3X(B)$B2#0f(B $BCR:H(B$B!&(B ($B:eBg1!(B) $B!{(B($B3X(B)$B6aF#(B $BBg(B$B!&(B ($B:eBg1!4p9)(B) ($B@5(B)$BGO1[(B $BBg(B
12-imembranome
fatty acid vesicle
hydrolysis
12/10
16:07:21
528 Span80$B%Y%7%/%k$rMxMQ$9$kKlM;9g7?(BDDS$B$N$?$a$NKl(B $BI=AX%G%6%$%s(B
($B:eBg1!4p9)(B) $B!{(B($B3X(B)$BNS(B $B7$B!&(B ($B3X(B)$BC$0f(B $B9d(B$B!&(B ($B:eBg4p9)(B) $B@Z@P(B $B$^$I$+(B$B!&(B ($B2,;3Bg4DM}(B) ($B@5(B)$BEgFb(B $B$B!&(B ($B:eBg1!4p9)(B) ($B@5(B)$BGO1[(B $BBg(B
7-emembranome
Span80 vesicle
DDS
12/10
16:10:02
541 $B%j%]%=!<%`!&%Y%7%/%k$N%J%NKl3&LL$r2p$7$?(BDoxorubicin $B$NJ*
($B:eBg1!4p9)(B) $B!{(B($B3X(B)$BC$0f(B $B9d(B$B!&(B ($B3X(B)$BNS(B $B7$B!&(B ($B:eBg4p9)(B) $B@Z@P(B $B$^$I$+(B$B!&(B ($B2,;3Bg4DM}(B) ($B@5(B)$BEgFb(B $B$B!&(B ($B:eBg1!4p9)(B) ($B@5(B)$BGO1[(B $BBg(B
4-fmembranome
mass transfer coefficient
doxorubicine
12/10
16:25:57
555 $BJ?9UF)@O$K$*$1$k%j%]%=!<%`8GDj2=%O%$%I%m%2%k$N(B $B8w3XJ,3dG=(B
($B:eBg1!4p9)(B) $B!{(B($B3X(B)$B?yED(B $B0lGO(B$B!&(B ($B3X(B)$B@P>e(B $B6,98(B$B!&(B ($B@5(B)$BGO1[(B $BBg(B
4-a Membranome
Liposome
Hydrogel
12/10
16:38:28
557 $B;i(B $B2A(B
($B:eBg1!4p9)(B) ($B@5(B)$BGO1[(B $BBg(B$B!&(B ($B:eBg4p9)(B) $B!{(B($B3X(B)$B:dEl(B $B7z:H(B$B!&(B ($B:eBg1!4p9)(B) ($B3X(B)$B?yED(B $B0lGO(B
4-a Membranome
Phospholipid
Hydrogel
12/10
16:38:54
575 $B%j%]%=!<%`Kl>e$K$*$1$k%/%(%s;@2sO)4XO"9ZAG$NH?(B $B1~@)8f(B
($B:eBg1!4p9)(B) ($B@5(B)$BGO1[(B $BBg(B$B!&(B $B!{(B($B3X(B)$BDA:d(B $BH;J?(B
7-aMembranome
TCA cycle
Aconitase
12/10
17:04:13
$B!|(B
membranome
(6$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 12-m (2$B7o(B), 12-a (2$B7o(B), 12-g (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
374 $B%j%]%=!<%`Kl>e$GM6F3$5$l$kIT@FG'<1(B/$B9g@.(B
($B:eBg1!4p9)(B) $B!{(B($B3X(B)$B@P>e(B $B6,98(B$B!&(B ($B3X(B)$BF#86(B $B?5J?(B$B!&(B ($B@5(B)$BGO1[(B $BBg(B
12-mliposome Membrane
asymmetricity
membranome
12/10
11:27:14
376 $B%j%]%=!<%`Kl>e$GM6F3$5$l$k(BL-Pro$B?(G^(BMichael$BIU2C(B $BH?1~(B
($B:eBg1!4p9)(B) ($B3X(B)$B@P>e(B $B6,98(B$B!&(B $B!{(B($B3X(B)$BW"@%(B $B@5E5(B$B!&(B ($B@5(B)$BGO1[(B $BBg(B
12-mliposome Membrane
L-Proline
membranome
12/10
11:31:04
391 $B;il$H$9$k(BHammerhead Ribozyme$B3h@-$N@)8f(B
($B:eBg1!4p9)(B) $B!{(B($B3X(B)$BEDCf(B $B@6;VO/(B$B!&(B ($B3X(B)$B?{(B $B7C;L(B$B!&(B ($B@5(B)$BGO1[(B $BBg(B
7-aHammerhead Ribozyme
Metal Ion-Free Reaction
Membranome
12/10
11:59:28
392 $B;0@.J,7O%j%]%=!<%`Kl$N%J%N%I%a%$%s@-$NI>2A$J$i(B $B$S$K(BRNA$BJ,;R$H$NAj8_:nMQ$N@)8f(B
($B:eBg1!4p9)(B) $B!{(B($B3X(B)$B?{(B $B7C;L(B$B!&(B ($B3X(B)$B7K(B $BC#Li(B$B!&(B ($B@5(B)$BGO1[(B $BBg(B
12-aNano-Domain
RNA Recognition
Membranome
12/10
12:01:39
393 $B%Y%7%/%kKl3&LL$K$*$1$k?(G^H?1~$NI>2A$H@)8f(B
($B:eBg1!4p9)(B) ($B3X(B)$B?{(B $B7C;L(B$B!&(B $B!{(B($B3X(B)$B4d:j(B $BJ8I'(B$B!&(B ($B@5(B)$BGO1[(B $BBg(B
12-aVesicle Interface
Catalytic Reaction
Membranome
12/10
12:02:21
675 $BIT6Q0lKlAH@.$rM-$9$k5pBg%Y%7%/%k$rMQ$$$?%"%_%m(B $B%$%I7A@.8=>]$ND>@\4Q;!(B
($B2,;3Bg4DM}(B) ($B@5(B)$BEgFb(B $B$B!&(B ($B:eBg1!4p9)(B) $B!{9bC+(B $BM&51(B$B!&(B ($B@5(B)$BGO1[(B $BBg(B
12-gamyloid
polymorphism
membranome
12/10
19:07:57
$B!|(B
Mercury
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-c (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
677 $B?e6d$N%^%F%j%"%k%U%m!<%D!<%k%-%C%H$N3+H/(B
($B4tIlBg9)(B) $B!{(B($B3X(B)$BBg@n(B $B>M90(B$B!&(B ($B@5(B)$B
9-cMercury
Vensim
Material flow
12/10
19:08:21
$B!|(B
Mesoporous Silica
(2$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
365 $BD6NW3&K!$rMQ$$$?%a%=%]!<%i%9%7%j%+C4;}?(G^$ND4(B $B@=$HA*BrE*?eAG2=H?1~$X$N1~MQ(B
($BElKLBg1!9)(B) $B!{(B($B3X(B)$B@6?e(B $BB@0l(B$B!&(B ($B@5(B)$BBgED(B $B>;$B!&(B ($B@5(B)$B:4F#(B $BA1G7(B$B!&(B ($B@5(B)$BCv8T(B $B9((B
5-aSupercritical CO2
Mesoporous Silica
Catalyst Preparation
12/10
11:02:48
453 $B3F~%a%=%]!<%i%9%7%j%+$N%"%_%sL)EY$H(BCO2 $B5[CeFC@-$N4X78(B
($B4tIlBg1!9)(B) $B!{(B($B3X(B)$BHu8}(B $BC#Bg(B$B!&(B ($B4tIlBg9)(B) ($B@5(B)$B5\K\(B $B3X(B$B!&(B ($B4tIlBg@8L?%;(B) ($B@5(B)$B6a9>(B $BLwB'(B$B!&(B (RITE) ($B@5(B)$BM>8l(B $B9nB'(B$B!&(B ($B4tIlBg9)(B) ($B@5(B)$B>e5\(B $B@.G7(B
4-e mesoporous silica
amine modification
CO2 adsorption
12/10
14:06:25
$B!|(B
Metabolic analysis
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 7-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
224 $B9b8zN($J%P%$%*%W%m%;%9$r
($B:eBg1!>pJs(B) $B!{(B($B@5(B)$BJ?Bt(B $B7I(B$B!&(B $B8MC+(B $B5HGn(B$B!&(B $B2Oyu(B $BM%$B!&(B $BGrLZ(B $B9'E5(B$B!&(B ($B@5(B)$B@6?e(B $B9@(B
7-aBacillus subtilis
Bioproduction
Metabolic analysis
12/7
18:48:42
$B!|(B
Metabolic engineering
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 7-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
712 $BHy:YAtN`$N:YK&9)>l$N
($B:eBg1!>pJs(B/JST-CREST) $B!{(B($B@5(B)$B5H@n(B $B>!FA(B$B!&(B $BCgEh(B $BMc(B$B!&(B $B>.@n(B $B7r0l(B$B!&(B ($B3X(B)$B3aH+(B $B=(0l(B$B!&(B ($BM}8&(BQBiC/$B:eBg1!>pJs(B/JST-CREST) ($B@5(B)$B8E_7(B $BNO(B$B!&(B ($B:eBg1!>pJs(B/JST-CREST) ($B@5(B)$BJ?Bt(B $B7I(B$B!&(B ($B@5(B)$B@6?e(B $B9@(B
7-aCyanobacteria
Systems biology
Metabolic engineering
12/10
20:14:50
$B!|(B
metal
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 7-b (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
705 $BF0J*:YK&
($BNk.@n(B $B0!4u;R(B$B!&(B $B:{;3(B $B??M32Z(B$B!&(B $BC01)(B $BM4B@(B$B!&(B $B;3ED(B $BNP(B$B!&(B Hanun Ilva
7-bmetal
proliferation
chronium
12/10
20:00:54
$B!|(B
Metal adsorption
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
141 $BCj=P:^FbJq3&LL3h@-:^=$>~%7%j%+%2%k$K$h$k4u>/6b(B $BB0$N5[CeJ,N%(B
($BF1;V$B!&(B ($B@5(B)$B>>K\(B $BF;L@(B$B!&(B ($B@5(B)$B6aF#(B $BOB@8(B
4-eSilica gel
Surfactant
Metal adsorption
12/6
15:46:13
$B!|(B
metal catalyst
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-c (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
239 Hydrogen production by in-situ steam reforming of metal-loaded carbon
(Hirosaki U.) $B!{(B($B3X(B)Zhang Peng$B!&(B ($B@5(B)Guan Guoqing$B!&(B ($B@5(B)Abuliti Abudula
9-c Hydrogen production
metal catalyst
carbon
12/7
23:34:49
$B!|(B
Metal chloride
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-f (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
340 $B6bB01v2=J*$N%"%s%b%K%"5[<}!&C&N%B.EYFC@-(B
($BL>Bg9)(B) $B!{(B($B3X(B)$B>>Hx(B $B7D0l(B$B!&(B ($BL>Bg1!9)(B) ($B3X(B)$B;3LnFb(B $BN6(B$B!&(B ($B@5(B)$B7&ED(B $B8w9((B$B!&(B ($B@5(B)$B>>ED(B $B?N$B!&(B ($B%G%s%=!<(B) $BI[;\(B $BBn:H(B
9-fAmmonia
Metal chloride
Reaction rate
12/10
10:28:58
$B!|(B
Metal Hydride
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
412 CO$B5[Ce:^$H?eAG5[B"9g6b$rMQ$$$??eAG@:@=%W%m%;%9(B $B$N3+H/(B
($B?@8M@=9]=j(B) $B!{(B($B@5(B)$BF#_7(B $B>4Mx(B$B!&(B $BC+8}(B $B9T?-(B$B!&(B $BN1@n(B $Bf{J?(B$B!&(B ($B@5(B)$B;01:(B $B??0l(B
9-eCO Adsorbent
Metal Hydride
Hydrogen
12/10
12:42:55
$B!|(B
Metal Ion-Free Reaction
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 7-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
391 $B;il$H$9$k(BHammerhead Ribozyme$B3h@-$N@)8f(B
($B:eBg1!4p9)(B) $B!{(B($B3X(B)$BEDCf(B $B@6;VO/(B$B!&(B ($B3X(B)$B?{(B $B7C;L(B$B!&(B ($B@5(B)$BGO1[(B $BBg(B
7-aHammerhead Ribozyme
Metal Ion-Free Reaction
Membranome
12/10
11:59:28
$B!|(B
metal loaded catalyst
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
187 $B%"%s%b%K%"J,2r$rL\E*$H$7$?(BNi$BC4;}(BSiO2$B?(G^$N7P;~(B $BE*$J3h@-Dc2<5sF0$N4Q;!(B
($B72Bg1!9)(B) $B!{(B($B3X(B)$BG.3$(B $BNIJe(B$B!&(B ($B;:Am8&(B) ($B@5(B)$B9bLZ(B $B1Q9T(B$B!&(B ($B72Bg1!9)(B) ($B@5(B)$BLnED(B $BNh<#(B$B!&(B ($B;:Am8&(B) ($B@5(B)$BARK\(B $B9@;J(B
5-ahydrogen production
ammonia
metal loaded catalyst
12/7
14:14:54
$B!|(B
Metal nanoparticle
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
743 $BB@M[EECS8zN(8~>e$K8~$1$?I=LL%_%/%m(B/$B%J%N9=B$$H(B $B6bB0%J%NN3;R$K$h$k8w%^%M!<%8%a%s%H(B
($BEl9)Bg2=3X(B) $B!{(B($B3X(B)$B;3ED(B $B3+M}(B$B!&(B ($B3X(B)$BFn(B $B41M4(B$B!&(B $BH-B<(B $B9@FA(B$B!&(B (INSA de Lyon $B%j%h%sBg(B) Alain Fave$B!&(B ($BEl9)Bg2=3X(B) ($B@5(B)$B0K86(B $B3X(B
9-e Metal nanoparticle
micro/nano structure
Si solar cell
12/10
21:11:40
$B!|(B
metal nanoparticles
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-f (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
563 $B%^%$%/%m%j%"%/%?!<$rMQ$$$?%J%N%Q%C%1!<%8%s%0K!(B $B$K$h$k6bB0%J%NN3;RFbJq%]%j%$%_%IHyN3;R$N:n@=(B
($B;:Am8&(B) $B!{(B($B@5(B)$B@P:d(B $B9'G7(B$B!&(B $B@P3@(B $B8|(B$B!&(B ($B@5(B)Chatterjee Maya$B!&(B ($B@5(B)$BNkLZ(B $BL@(B$B!&(B $BNkLZ(B $BIR=E(B$B!&(B ($B@5(B)$B@nGH(B $BH%(B
5-fpolyimide nanoparticles
metal nanoparticles
microreactor
12/10
16:45:04
$B!|(B
metal separator
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
566 $BC:AGHoJ$$K$h$kG3NAEECSMQ6bB0%;%Q%l!<%?!<$N3+H/(B
($BL>8E20;T9)8&(B) $B!{(B($B@5(B)$B5\ED(B $B9/;K(B$B!&(B ($BEl6?@=:n=j(B) $B0K_7(B $B2B?-(B$B!&(B $BBg0f(B $BLPM:(B$B!&(B $BBg@n(B $B@5?M(B$B!&(B ($BL>Bg%(%3(B) $BD@(B $B7D=U(B$B!&(B ($BBg:eEEDLBg(B) $B?9ED(B $B@.><(B$B!&(B ($BL>Bg%(%3(B) $BKL@n(B $BK.9T(B
9-ePolymer Electrolyte Membrane Fuel Cell
metal separator
carbon coats
12/10
16:46:38
$B!|(B
metal-ferrocyanide
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
733 $B%"%K%*%s8r49A!0]$X$NITMO2=%U%'%m%7%"%s2=6bB0Hy(B $BN3;R$NC4;}%a%+%K%:%`(B
($B@iMUBg1!9)(B) $B!{(B($B3X(B)$B?y;3(B $B$^$$(B$B!&(B $B>.Eg(B $BN4(B$B!&(B ($B@5(B)$BG_Ln(B $BB@Je(B$B!&(B ($B@5(B)$B:XF#(B $B630l(B$B!&(B ($B4D6->t2=8&(B) $BF#86(B $BK.IW(B$B!&(B $B?\6?(B $B9b?.(B
4-e radiation-induced graft polymeriation
metal-ferrocyanide
impregnation
12/10
20:57:56
$B!|(B
Metal-Organic Frameworks
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
144 $B6bB0M-5!9=B$BN$rMQ$$$?5$BNJ,N%Kl$N:n@=J}K!$N8!(B $BF$(B
($B;:Am8&(B) $B!{(B($B@5(B)$B86(B $B?-@8(B$B!&(B ($B@5(B)$B5H=!(B $BH~5*(B$B!&(B ($B@5(B)$B:,4_(B $B=(G7(B$B!&(B ($B@5(B)$B86C+(B $B8-<#(B$B!&(B ($B@5(B)$B86(B $B=E$B!&(B ($BEl9)Bg;q8;8&(B) ($B@5(B)$B;38}(B $BLT1{(B
4-aGas Separation Membrane
Metal-Organic Frameworks
Permselectivity
12/6
16:00:42
$B!|(B
Metallic oxide
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 2-f (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
103 $B%^%$%/%mGH2CG.$K$h$k6bB0>K;@1v:.9g?eMO1U$NC&>K(B $BH?1~(B
($B9-Bg1!9)(B) $B!{(B($B@5(B)$BJ!0f(B $B9qGn(B$B!&(B ($B3X(B)$B0f@n(B $BM'2p(B$B!&(B ($B@5(B)$B;3K\(B $BE0Li(B$B!&(B ($B@5(B)$B5HED(B $B1Q?M(B$B!&(B ($B86;RNO5!9=(B) ($B@5(B)$B@%@n(B $BCR?C(B$B!&(B $BNkLZ(B $B@/9@(B
2-fMetallic oxide
Microwave
Denitration
12/5
17:46:55
$B!|(B
Metallosphaera sedula
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 7-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
741 Metallosphaera sedula$BM3Mh(BPCNA$B$rMxMQ$7$?9ZAGJ#(B $B9gBN$N9=C[(B
($BElBg1!9)(B) $B!{(B($B3X(B)$B4dED(B $B;KLi(B$B!&(B ($B@5(B)$BJ?@n(B $B=(I'(B$B!&(B ($B@5(B)$BD9Eo(B $B519T(B
7-aMetallosphaera sedula
PCNA
P450
12/10
21:09:13
$B!|(B
metallurgical coke
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-c (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
457 $B2:OB$J2~
($B5~Bg9)(B) $B!{(B($B@5(B)$BiCED(B $BN40l(B$B!&(B ($B3X(B)$B4d@%(B $B0lMN(B$B!&(B ($B3X(B)$B;3ED(B $B9WJ?(B$B!&(B ($B@5(B)$B;01:(B $B9'0l(B
9-cmetallurgical coke
low-rank coal
upgrading
12/10
14:11:45
$B!|(B
methane
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
254 Electroless Plating$BK!$GD4@=$7$?6bB0C4;}(BTiO2$B8w(B $B?(G^$K$h$k%a%?%s$N?e>x5$2~
($B?@8MBg1!9)(B) $B!{(B($B3X(B)$BKRLn(B $B?-I'(B$B!&(B ($B@5(B)$B;T66(B $BM40l(B$B!&(B ($B@5(B)$B@>;3(B $B3P(B
5-aPhotocatalyst
Hydrogen
methane
12/8
14:29:15
$B!|(B
Methane decomposition
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
72 $B%7%j%+HoJ$=hM}$r;\$7$?(BNi$B7O9=B$BN?(G^$K$h$k%a%?(B $B%sJ,2rFC@-(B
($B@EBg9)(B) $B!{(B($B3X(B)$B2CF#(B $B=(E5(B$B!&(B ($B3X(B)$B?yK\(B $B980l(B$B!&(B ($B@5(B)$BEOIt(B $B0=(B$B!&(B ($B@5(B)$BJ!86(B $BD9
5-a Structured catalyst
Methane decomposition
Silica-coating
12/4
15:14:56
$B!|(B
methane fermentation
(3$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 13-b (3$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
604 $B?)IJ9)>l$+$i$NGQ?)MQL}$rMQ$$$?%a%?%sH/9ZA0=hM}(B $BK!$N3+H/(B
($B@E2,8)9)5;8&(B) $B!{(B($B@5(B)$B)(B$B!&(B ($B;3M|f%5M(B) $B>>B<(B $B1Q8y(B$B!&(B $BK>7n(B $B8wL@(B
13-bmethane fermentation
waste oil
pretreatment
12/10
17:36:25
744 Effects of organic loading rate on the performance of the ASBR methane fermentation of syrup wastewater
(Tokyo Tech) $B!{(B($B3X(B)Kwon Sang Hagk$B!&(B ($B@5(B)Nakasaki Kiyohiko
13-bmethane fermentation
hydraulic retention time
substrate concentration
12/10
21:12:09
789 $BDc29>r7o2<$G1?E>2DG=$J9bB.%a%?%sH/9ZAuCV$N3+H/(B
($B=;M'=E5!3#(B) $B!{(B($B@5(B)$BF#K\(B $BE5G7(B$B!&(B $B0pMU(B $B1Q$B!&(B ($B9q4D8&(B) $B$B!&(B ($BD92,5;2JBg1!9)(B) $B7&ED(B $B7C0l(B
13-bmethane fermentation
low temperature
EGSB
12/10
21:54:45
$B!|(B
Methane steam reforming
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
142 Ni$B7O9=B$BN?(G^I=LL$NN3;R%b%k%U%)%m%8!
($B@EBg1!9)(B) $B!{(B($B3X(B)$B<,;3(B $BM:Bg(B$B!&(B ($B@EBg9)(B) $B;3K\(B $BOB@5(B$B!&(B ($B@5(B)$BEOIt(B $B0=(B$B!&(B ($B@5(B)$BJ!86(B $BD9
5-a Methane steam reforming
Structured catalyst,
Electroless plating
12/6
15:47:49
$B!|(B
methane/ethane separation
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
265 $B%7%j%+J#9gKl$rMQ$$$?%a%?%s(B/$B%(%?%sJ,N%(B
($B>;3(B $B3(H~(B$B!&(B ($B3X(B)$BFb3$(B $B7C2p(B$B!&(B ($B3X(B)$BCSED(B $BJb(B$B!&(B $BC*66(B $BN=(B$B!&(B ($B@5(B)$BLnB<(B $B4490(B
4-a silica hybrid membrane
counter diffusion CVD
methane/ethane separation
12/8
18:41:54
$B!|(B
MFI zeolite
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
261 $B5[Ce$rMQ$$$?%<%*%i%$%HJ,N%Kl$N%_%/%m9=B$I>2AK!(B $B$N3+H/(B
($BAaBg@h?JM}9)(B/$BAaBgM}9)Am8&(B) ($B@5(B)$B>>J}(B $B@5I'(B$B!&(B ($BAaBg@h?JM}9)(B) $B!{(B($B3X(B)$BCSED(B $B3YO:(B$B!&(B $BHSEg(B $BM%5.(B
4-a MFI zeolite
zeolite membrane
adsorption
12/8
17:36:15
$B!|(B
MFI zeolite membrane
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
262 $B9bB.%,%9F)2a(BMFI$B%<%*%i%$%HKl$N3+H/(B
($B$B!&(B $B7s=!(B $B7EB@(B$B!&(B $BHSED(B $B9,Fs(B$B!&(B $BE\LZ(B $B=(2p(B$B!&(B ($B3X(B)$B>>;3(B $B3(H~(B$B!&(B ($B=;M'EE9)(B) $BI6;3(B $BGn6)(B$B!&(B $B7,86(B $B0lLi(B$B!&(B ($B
4-a MFI zeolite membrane
porous silica substrate
seed coating
12/8
18:29:05
$B!|(B
MFI Zeolites
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B K-2 (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
48 [$B>7BT9V1i(B] Distribution, Strength and Dealumination Behavior of Acid Sites in Nanostructured MFI Zeolites and Their Catalytic Consequences
(KAIST) Kim Kyoungsoo$B!&(B Ryoo Ryong$B!&(B $B!{(BChoi Minkee
K-2 Nanostructure
MFI Zeolites
Catalytic Consequences
12/1
11:46:10
$B!|(B
MFI-Zeolite/metal oxide composites
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
59 MFI$B7?%<%*%i%$%H(B/$B6bB0;@2=J*J#9g?(G^$K$h$k%J%U%5(B $B$+$i$N%W%m%T%l%s@=B$(B
($B@iBeED2=9)7z@_(B) $B!{(B($B@5(B)$BDxEg(B $B??:H(B$B!&(B $BK\5\(B $B$"$E$5(B$B!&(B $B>(B $B<~J?(B$B!&(B $BH,LZ(B $BE_
5-aPropylene
Catalytic cracking of naphtha
MFI-Zeolite/metal oxide composites
12/3
14:54:46
$B!|(B
MHC-epitope fusion protein
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 7-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
507 $B0dEA;RF3F~%K%o%H%j$K$h$k%9%.2VJ4%"%l%k%2%s%(%T(B $B%H!<%W%Z%W%A%I4^M-(BMHC$B%?%s%Q%/
($B6eBg1!9)(B) $B!{(B($B@5(B)$B2On5(B $B2BE5(B$B!&(B $B1|1`(B $B7rB@(B$B!&(B $BNSED(B $BM*4u(B$B!&(B ($B@5(B)$B0fF#(B $B>4(B$B!&(B ($B@5(B)$B>eJ?(B $B@5F;(B
7-aJapanese cedar pollinosis
MHC-epitope fusion protein
genetically manipulated chicken
12/10
15:27:47
$B!|(B
MHV1
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 1-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
22 $B9b05AjJ?9U$N(BMHV1-ASOG$B%b%G%k$K$h$k?d;;(B
($BF|BgM}9)(B) ($B@5(B)$B7*86(B $B@6J8(B$B!&(B $B2CF#(B $BB@;V(B$B!&(B ($B@5(B)$B>>ED(B $B909,(B$B!&(B $B!{(B($B@5(B)$BFJLZ(B $B>!8J(B
1-aASOG
MHV1
PRASOG
11/20
17:00:54

$B9V1i?=$79~$_0lMw(B($B%-!<%o!<%IJL(B)

$B
$B2=3X9)3X2q(B $BBh(B78$BG/2q(B ($BBg:e(B, 2013)

(C) 2013 $B8x1W
Most recent update: 2013-02-12 18:58:58
For more information contact $B2=3X9)3X2q4X@>;YIt(B $BBh(B78$BG/2q(B $BLd$$9g$;78(B
E-mail: inquiry-78awww3.scej.org
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