A $B2q>l(B | |||||
---|---|---|---|---|---|
$B9V1i(B $B;~9o(B | $B9V1i(B $BHV9f(B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $BJ,N`(B | $BHV9f(B $B | |
$B3X@8>^!&:`NA3&LL(B | |||||
(11:00$B!A(B12:30) ($B:BD9(B $B2<;3(B $BM52p(B) | |||||
A109 | Dual crosslinking of a star block copolymer hydrogel using ionic and supramolecular interactions | star block copolymer ionic crosslinking supramolecular hydrogel | 12-e | 94 | |
A110 | $B0!1t4T85H?1~$rMQ$$$?(Bp-type Si$B%o%$%d9g@.$G$N(BB$BG;EY@)8f(B | silicon doping boron | 12-k | 89 | |
A111 | LPI-CNF$B$rMQ$$$?%j%A%&%`6u5$EECS@56KMQ%7!<%H>uEE6K$N3+H/(B | Carbon Paper Lithium-air Battery Cathode | 12-k | 9 | |
A112 | $B%3%m%$%I5;=Q$K$h$kC:AGA!0]J#9g:`NA(B(CFRTP)$B$N%j%5%$%/%k@-$N8~>e(B | CFRTP Particle Recycle | 12-a | 57 | |
A113 | $B%^%$%/%mGH2CG.$K$h$k;@2=%0%i%U%!%$%HM3Mh%0%i%U%'%s7OC:AG:`NA$NDc7g4Y2=(B | Graphene Graphite oxide Microwave | 12-k | 35 | |
A114 | $B%9%W%l!<$rMQ$$$?HyN3;R9g@.K!$K$h$k(BNi$B%J%NN3;R$NO"B39g@.(B | Ni nanoparticle spray | 12-d | 82 | |
(13:30$B!A(B15:30) ($B:BD9(B $B>.NS(B $BBgM4(B) | |||||
A119 | $B%+%j%_%g%&%P%s$NE)2 | K-alum Semi-batch cooling water addition | 12-g | 14 | |
A120 | $B%"%Q%?%$%H$K$*$1$k93$,$s;nLt$N5[C&Ce5sF0$H1~MQ(B | Hydroxyapatite Mitoxantrone Doxorubicin | 12-a | 59 | |
A121 | $B%"%;%A%k%5%j%A%k;@$NHs@~7AIOMOG^E:2C>=@O$K$*$1$kN37BJ,I[5sF0(B | Acetylsalicylic acid anti-solvent crystallization crystal size distribution | 12-g | 15 | |
A122 | $B%O%$%I%m%?%k%5%$%H$K$*$1$k1"%$%*%s5Z$SLt:^$N5[C&Ce5sF0(B | Hydrotalcite 5-Fluorouracil Pyridoxine | 12-a | 60 | |
A123 | $B%+%j%_%g%&%P%s$NHs@~7A2sJ,Nd5Q>=@O$K$*$1$kN37BJ,I[5sF0(B | Controled cooling crystallization Non seeding K-alum | 12-g | 16 | |
A124 | $B6b>e$N%"%Q%?%$%H$K$*$1$k%?%s%Q%/ | quartz crystal microbalance Hydroxyapatite protein and drug | 12-a | 61 | |
A125 | $B?eMO@-9bJ,;RMOB82<$K$*$1$k0BB)9a;@$NH?1~>=@O(B | benzoic acid crystallization water soluble polymer | 12-g | 17 | |
A126 | $B9bJ,;R | Thermal interface material Carbon fiber Composite | 12-i | 68 | |
B $B2q>l(B | |||||
$B9V1i(B $B;~9o(B | $B9V1i(B $BHV9f(B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $BJ,N`(B | $BHV9f(B $B | |
$B3X@8>^!&:`NA3&LL(B/$BH?1~9)3X(B/$BD6NW3&(B | |||||
(11:00$B!A(B12:30) ($B:BD9(B $B>1Ln(B $B8|(B) | |||||
B109 | $BHy:Y2C9)B?9&HD$rMQ$$$?%^%$%/%m%l%s%:%"%l%$$N4JJX$J:n@=K!$N3+H/(B | Microfabrication Microlens Microneedle | 12-i | 80 | |
B110 | $B;0;@2=%b%j%V%G%sH>?eOBJ*7k>=$N7|By1UE:2C$K$h$k(BZMH$BIUCeM^@)8z2L$N8!F$(B | Scaling | 12-g | 41 | |
B111 | $B%^%$%/%m%S!<%:E:2C$K$h$k%O%$%I%m%2%kCfJ* | Diffusion Hydrogels Microbeads | 12-e | 8 | |
B112 | FBRM$B$H(BFT -IR-ATR$B$rMQ$$$?3K2=!&@.D9%Q%i%a!<%?$N?dDj(B | Cooling Crystallization Crystal Growth Parameter Estimation | 12-g | 40 | |
B113 | $BN3;R0BDj2=%(%^%k%7%g%s$r$b$A$$$?1U(B-$B1U3&LL$G$NJ* | mass transfer liquid-liquid interface particle-stabilized emulsion | 12-b | 74 | |
B114 | 1 wt%$B0J2<$N%+!<%\%s%J%N%A%e!<%V$rMQ$$$?%(%"%m%2%k<+N)Kl$N3+H/$HG.3&LL:`NA1~MQ(B | Thermal interface material Carbon nanotube Ag particles | 12-i | 96 | |
(13:30$B!A(B15:15) ($B:BD9(B $BLnED(B $BM%(B) | |||||
B119 | $B%(%l%/%H%m%9%T%K%s%0K!$K$h$k%+!<%\%s%J%N%A%e!<%VJ#9gEE5$3h@-9bJ,;R%"%/%A%e%(!<%?$N:n@=$H@-G=I>2A(B | electrospinning actuator carbon nanotube | 12-k | 36 | |
B120 | $B8w@~NO3XE*NEK!$N$?$a$NM-5!H>F3BN%]%j%^!<%J%NN3;R$N:n@=$H3h@-$N%*%s(B/$B%*%U@)8f(B | photodynamic therapy organic semiconducting nanoparticle drug delivery system | 12-d | 66 | |
B121 | $BKlF}2=K!$K$h$k1UE)7B$*$h$S(BDripping/Jetting$BA+0\E@$NM=B,(B | membrane emulsification dripping jetting | 12-b | 38 | |
B122 | $B3-3LG3@.M3Mh$N;@2=%+%k%7%&%`$rMQ$$$?%(%9%F%k8r49H?1~$K4X$9$k4pAC8&5f(B | Calcium oxide Kinetic model Transesterification | 5-a | 31 | |
B123 | $B1x@w?e$N>t2=%7%9%F%`$K8~$1$?%a%A%l%s%V%k!<$r%b%G%k$H$7$?D62;GHJ,2r%W%m%;%9$N3+H/(B | Ultrasound methylene blue bath type | 5-b | 87 | |
B124 | AlFe2O4$B%J%NN3;R(BLB$BKl$rMQ$$$??bD>G[8~%+!<%\%s%J%N%A%e!<%V$N9g@.$H9=B$I>2A(B | CNT CVD LB | 5-h | 39 | |
B125 | $BD6NW3&Fs;@2=C:AG$K$*$1$kMOpJs$NE,MQ(B | equation of state supercritical carbon dioxide melting depression | 8-b | 95 | |
C $B2q>l(B | |||||
$B9V1i(B $B;~9o(B | $B9V1i(B $BHV9f(B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $BJ,N`(B | $BHV9f(B $B | |
$B3X@8>^!&N3;RN.BN(B | |||||
(11:00$B!A(B12:30) ($B:BD9(B $B;3:](B $BOBL@(B) | |||||
C109 | FEM$B$*$h$S(BDEM$B%7%_%e%l!<%7%g%s$rMQ$$$?JR?ON3;R$N<'A*5sF02r@O(B | DEM Simulation Magnetic Separation Locked Particle | 2-f | 5 | |
C110 | $B8G1U3IYBAeFb$NN.F0>uBV$HAeJIG.EAC#5sF0(B | solid-liquid agitation solid particle heat transfer | 2-a | 22 | |
C111 | $BJ.L8G.J,2rK!$K$h$j@8@.$7$?(BAg/ZnO$BN3;R$N9=B$$HC4;}FC@-I>2A(B | Ag/ZnO Particles Spray Pyrolysis Method | 2-f | 47 | |
C112 | $BJ?6k7AN.O)$NG.EAC#5sF0$K5Z$\$92CG.LL$+$i$NIbNON.$K1F6A(B | mixed convection heat transfer numerical simulation | 2-a | 26 | |
C113 | Langevin$BF0NO3XK!$K$h$k%(%"%m%>%k$NA+0\NN0h$K$*$1$k6E=8B.EYDj?t$N7W;;(B | Coagulation Coefficient of Aerosol Langevin Dynamics Method Transition Regime | 2-f | 48 | |
C114 | $B%J%NN3;R$NJ,;6$KE,$7$?%S!<%:%_%k@_7W$X$N(BDEM$B%7%_%e%l!<%7%g%s$NE,MQ(B | Bead mill DEM Simulation Nanoparticle dispersion | 2-f | 32 | |
(13:30$B!A(B15:15) ($B:BD9(B $B2VED(B $B?.;R(B) | |||||
C119 | $B%[%C%-3-MQK"KwJ,N%AuCV$N%9%1!<%k%"%C%W$H8=CO;n83(B | foam separation exchange rate Pseudocarddium sachalinense | 2-d | 20 | |
C120 | $B%0%i%U%'%s(B-$B;@2=%A%?%s$NJ,;6@-$,?(G^3h@-$K5Z$\$91F6A(B | Graphene Photocatalyst Water splitting | 2-f | 86 | |
C121 | $B6k7AAeFb$G$N5$K"N.$K5/0x$9$k<+Ne%9%m%C%7%s%0$N5sF0(B | Self-induced sloshing Bubble flow Rectangular vessel | 2-e | 7 | |
C122 | Expanded carbon nanofiber aerogel by supercritical carbon dioxide | carbon nanofiber aerogel supercritical carbon dioxide expanded solution | 2-f | 92 | |
C123 | $B>C@P3%$NB$N3$K5Z$\$9%<%*%i%$%H$NE:2C8z2L(B | Slaked lime Granulation Zeolite | 2-f | 85 | |
C124 | $BHy:Y9&%N%:%k$N?eJ?@"F0$K$h$k%^%$%/%m%P%V%k@8@.(B | microbubble bubble diameter nozzle | 2-e | 10 | |
C125 | 3$BCJ=D7?YxYBAe$N8r49N.NL$K5Z$\$9%?!<%S%sMc%G%#%9%/$N1F6A(B | mixing turbine blade exchange rate | 2-b | 43 | |
D $B2q>l(B | |||||
$B9V1i(B $B;~9o(B | $B9V1i(B $BHV9f(B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $BJ,N`(B | $BHV9f(B $B | |
$B3X@8>^!&N3;RN.BN(B/$BJ,N%(B | |||||
(11:00$B!A(B12:30) ($B:BD9(B $B@V>>(B $B7{ | |||||
D109 | $BFs<4:.N}5!$K$*$1$k<>=aJ4BN$N(BDEM$B%7%_%e%l!<%7%g%s(B | Wet particles Liquid bridge DEM | 2-f | 42 | |
D110 | $BMOA-!&%9%i%0$N= | Liquid Holdup Packed Bed Surface Tension | 2-g | 64 | |
D111 | $B%O%$%I%l!<%HBO@QAX$NJ,2r$K$h$k5?;w%W%k!<%`5sF0$N4Q;!(B | Hydrate decomposition Gas recovery Gas bubbles | 2-g | 62 | |
D112 | $BBg5,LON.F0AX?tCM2r@O$N$?$a$N7W;;0BDj2=%"%k%4%j%:%`$N3+H/(B | Gas-solid flow Numerical simulation DEM-CFD method | 2-c | 33 | |
D113 | $B%O%$%I%l!<%H%9%i%j!<$K$*$1$k8G7AJ,N(%9%$%s%0>r7o$,N3;R7A>u$K5Z$\$91F6A(B | Hydrate Solid fraction Particle size | 4-g | 78 | |
D114 | $BE7A39[J*$+$i$N%;%7%&%`C&N%$K4X$9$k4pAC8&5f(B | Desorption Cesium Natural minerals | 4-f | 25 | |
(13:30$B!A(B15:15) ($B:BD9(B $B5FCO(B $BN4;J(B) | |||||
D119 | $B9b?eAGA*BrF)2a@-$HBQ?e>x5$@-$rM-$9$k%"%b%k%U%!%9%7%j%+Kl$N3+H/(B | Amorphous silica membrane Hydrogen Hydrothermal stability | 4-a | 53 | |
D120 | $BDc%h%&AG%3%s%V2C9)?)IJ$N3+H/$rL\E*$H$7$?%3%s%V$N%h%&AG5[Ce=|5n(B | Kelp food Low iodine Adosorptive model | 4-e | 44 | |
D121 | $B%]%j%(%A%l%s@:L)$m2aKl$X$N%?%s%Q%/ | membrane fouling organic matters adsorption | 4-a | 54 | |
D122 | $BNd5Q>r7o$K$h$k5?;w(BBDF$B8GBNCf$NAH@.J,I[(B | Biodiesel Fuel Sweating Operation Composition Distribution | 4-g | 83 | |
D123 | $BKlDL5$7?%^%$%/%mN.O)$K$h$k%*%>%s=hM}$K5Z$\$9N.O)D9$5$HN.O)9b$5$N1F6A(B | Microchannel Gas absorption Ozonation | 4-d | 51 | |
D124 | $B9ZJl$N6E=8<'5$J,N%$K$*$1$kJ,N%B.EY$HD@9_B.EY(B | coagulation-magnetic separation removal kinetics settling velocity | 4-b | 56 | |
D125 | $BKlDL5$7?%^%$%/%mN.O)$K$*$1$k;@AG$NJ*M}5[<}B.EY$K5Z$\$9N.O)D9$5$N1F6A(B | Microchannel Gas absorption Physical absorption | 4-d | 50 | |
E $B2q>l(B | |||||
$B9V1i(B $B;~9o(B | $B9V1i(B $BHV9f(B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $BJ,N`(B | $BHV9f(B $B | |
$B3X@8>^!&%P%$%*(B/$B4pACJ*@-(B/$BG.9)3X(B/$B%(%M%k%.!<(B | |||||
(11:00$B!A(B12:30) ($B:BD9(B $B | |||||
E109 | $BD62;GH5;=Q$rMxMQ$7$?%j%Q!<%<$N;i | Lipase Ultrasound Lipid modification | 7-i | 69 | |
E110 | $BSk2<:$Fq | dysphagia liquid food fluid flow | 7-h | 88 | |
E111 | $B?M9)CNG=$dE}7WE* | Bioprocess Statistical analysis Newral network | 7-a | 73 | |
E112 | $B6&O"B3?e@-(B2$BAj7O$rMxMQ$9$kB?9&@-%O%$%I%m%2%k$N:n@=$H(B3$B | cell culture hydrogel porous | 7-e | 67 | |
E113 | $B%]%j%m%?%-%5%s(B/$B%<%i%A%s$+$i$J$k?-=L@-$rM-$7$??75,(Bin situ$B2M66%O%$%I%m%2%k$N3+H/(B | hydrogel polyrotaxane gelatin | 7-e | 65 | |
E114 | $B%$%s%/%8%'%C%H%W%j%s%?$G:n@=$7$?G]M\4pHD$K$h$k5<;wE*$J?@7P%M%C%H%o!<%/$N9=C[(B | aplysia cell culture ink jet printer | 7-e | 70 | |
(13:30$B!A(B15:15) ($B:BD9(B $B5H8+(B $BLwCK(B) | |||||
E119 | $B%j%J%m!<%k$H%_%k%;%s$NJ,N%$K8~$1$?9b055$1UJ?9UB,Dj$*$h$S?d;;(B | vapor-liquid equilibrium equation of state essential oil | 1-a | 24 | |
E120 | $B6&MOG^$rE:2C$7$?D6NW3&Fs;@2=C:AG$KBP$9$k@8M}3h@-J* | bioactive compound supercritical carbon dioxide cosolvent | 1-a | 93 | |
E121 | $B05NO%9%$%s%0$HJ|EE$NF14|$K$h$k%"%s%b%K%"9g@.(B | plasma synthesis ammonia pressure swing | 3-b | 75 | |
E122 | $B05NO%9%$%s%0%W%i%:%^$rMQ$$$?%a%?%s$N(BDry Reforming | Plasma synthesis Pressure-Swing Dry Reforming | 3-b | 77 | |
E123 | $B%P%$%*%^%9N.F0@\?(J,2r%,%92=$N$?$a$N%$%s%I%M%7%";:G4EZ$NI>2A(B | Biomass Gasification Clay catalysts | 9-c | 55 | |
E124 | $BEE;R@~>H | redox flow battery electron beam carbon surface modification | 9-e | 63 | |
E125 | $B9b8zN($N%a%A%k%7%/%m%X%-%5%s$NC&?eAG2=$rC#@.$9$k8GDj>2N.DL<0H?1~4o$N3+H/(B | dehydrogenation fixed-bed reactor methylcyclohexane | 9-e | 76 | |
F $B2q>l(B | |||||
$B9V1i(B $B;~9o(B | $B9V1i(B $BHV9f(B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $BJ,N`(B | $BHV9f(B $B | |
$B3X@8>^!&4D6-(B/$B%P%$%*(B | |||||
(11:00$B!A(B12:30) ($B:BD9(B $BEOn5(B $BCR=((B) | |||||
F109 | $BDL5$!&>e8~N.7??M9)<>CO$N;@AG0\F0B.EY$K5Z$\$9N37B$HDL5$@~B.EY$N1F6A(B | constructed wetland oxygen transfer rate particle size | 13-b | 49 | |
F110 | $B0lAe<0>K2=C&Cb=hM}$K5Z$\$93F | Wastewater treatment hydrogen donor single-stage nitrogen removal | 13-b | 11 | |
F111 | $BIeMUEZ$K$h$k9#GQ?eCf$N0!1t!"%+%I%_%&%`=|5n5!9=$N2rL@$*$h$SI=LL:xBN%b%G%k$N9=C[(B | leaf mold surface complexation adsorption | 13-b | 6 | |
F112 | $B9u1tN3;R$KIUCe$5$;$?%"%J%b%C%/%96]72$K$h$k9bB.C&Cb=hM}(B | Wastewater treatment Nitrogen removal Anammox | 13-b | 19 | |
F113 | $B?e;@2=J*$rMQ$$$?C]$+$i$N8zN(E*$JC:2=J*5[Ce:`$N:n@.%W%m%;%9(B | Bamboo Sodium hydroxide Carbonaceous adsorbent | 13-e | 81 | |
F114 | PVA$B%9%]%s%8C4BN$rMQ$$$?%"%J%b%C%/%9=hM}$N8!F$(B | wastewater treatment nitrogen removal anammox | 13-b | 23 | |
(13:30$B!A(B15:30) ($B:BD9(B $BE7Ln(B $B2B@5(B) | |||||
F119 | $BF)<>KI?e%7!<%H$rMQ$$$??M9)<>CO$X$N;@AG6!5k(B | wastewater treatment constructed wetland vapor-permeable waterproof sheet | 13-b | 52 | |
F120 | $B9bG;EYG"AG!&>K;@4^M-GQ?e$N@8J*=hM}%7%9%F%`$K4X$9$k4pAC8!F$(B | Wastewater treatment Nitrogen removal High concentration | 13-b | 28 | |
F121 | $B?eJ?N.7??M9)<>CO$NGQ?e=hM}@-G=$K5Z$\$9;@AGF)2aKlKd@_$N8z2L(B | wastewater treatment horizontal subsurface flow con vapor permeable waterproof sheet | 13-b | 58 | |
F122 | $B>K2==hM}$K5Z$\$99b?e29$N1F6A(B | wastewater treatment nitrification high temperature | 13-b | 21 | |
F123 | $BC:AGr7o$,Hy@8J*G3NAEECS$N@-G=$X5Z$\$91F6A(B | microbial fuel cell air-cathode nitrogen-doped carbon catalyst | 13-b | 91 | |
F124 | S.platensis$B$NG]M\$K$*$1$k(BTaylor$B12N.$l$ND62;GH7WB,(B | Ultrasonic measurement Taylor vortex flow S. platensis | 7-a | 45 | |
F125 | $BGr?'Ie5`6]M3Mh%;%k%i!<%<$K$h$kLZ:`I=LL$ND4?'(B | White rot fungus Wood surface color change Cellulase | 7-b | 12 | |
F126 | TVF$B3IYBK!$rMQ$$$?8w9g@.Hy@8J*$N8GDj2=G]M\$K$*$1$k(BBSPs$BFb3h@-EYI>2A(B | Absorbance Immobilization Taylor vortex flow | 7-i | 79 | |
G $B2q>l(B | |||||
$B9V1i(B $B;~9o(B | $B9V1i(B $BHV9f(B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $BJ,N`(B | $BHV9f(B $B | |
$BFCJL9V1i(B | |||||
(15:45$B!A(B16:45) ($B;J2q(B $B0B5o(B $B8wS{(B) | |||||
G128 | $B!ZFCJL9V1i![< | Muroran | 14-e | 98 | |
The Researcher$B>7BT9V1i(B | |||||
(16:45$B!A(B17:45) ($B;J2q(B $B@V>>(B $B7{ | |||||
G132 | $B!Z(BThe Researcher$B>7BT9V1i2q![@P3%$r%-!<%^%F%j%"%k$H$9$k8&5f$HCO0h9W8%$X$ND)@o(B | Lime CaO | 12-c | 97 | |
H $B2q>l(B | |||||
$B9V1i(B $B;~9o(B | $B9V1i(B $BHV9f(B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $BJ,N`(B | $BHV9f(B $B | |
$B:)?F2q(B |