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| hair follicle germ | hair regeneration | HBD-HBA solvent | Heat and mass transfer | heat efficiency | Heat exchange network | heat exchanger | Heat recovery | Heat storage | Heat transfer | Heat Transfer Modeling | Heavy metal ions | Heavy metal removing | Helical nanostructures | Henderson-Hasselbalch equation | HER | Hetero-composites | Heterogeneous azeotropic distillation | heterogeneous catalyst | hierarchical structure | high efficiency | High pressure | High speed mixer | High Temperature Condition | High temperature-polymer electrolyte fuel cell | High temperatures | high viscosity fluid | high viscosity fluids | High viscous fluid | High-Low viscosity | high-pressure carbon dioxide | High-silica CHA memrbane | High-speed visualization | high-throughput synthesis | high-viscosity heavy oil | Highly concentration | hiPSCs | His-tag | hollow fiber | Homogeneity | Honeycomb | Horseradish peroxidase | Hot-wire anemometer | Human development | human Kynureninase | Humic Substances | Hybrid modeling | hydorogen oxidation | hydrate heat pump | Hydrate refrigeration | Hydrocalumite | hydrocarbon separation | hydrodeoxygenation | hydrofluoroolefin | hydrogel | Hydrogel bead | hydrogel particles | hydrogelator | Hydrogen | hydrogen bonding | hydrogen evolution reaction | Hydrogen fermentation | Hydrogen flow process | Hydrogen permeable membrane | Hydrogen permeable membranes | Hydrogen permeance | Hydrogen Production | Hydrogen storage | hydrogen-oxygen recombination reaction | Hydrogenation | Hydrogenation of toluene | hydroisomerization | Hydrophobic | hydrophobic cryogels | hydrotalcite | Hydrothermal | hydrothermal emulsification | hydrothermal leaching | hydrothermal reaction | Hydrothermal stability | hydrothermal treatment |
$B!|(B
hair follicle germ
(2$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 7-a (2$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
341$BLSH1:F@80eNE$N$?$a$NLSJq864p$N(B3D$B%P%$%*%W%j%s%F%#%s%0(B
($B2#9qBg1!M}9)(B) ($B3X(B)$B!{FnLP(B $B:L2Z(B$B!&(B ($B2#9qBg1!M}9)(B/KISTEC/JST$B$5$-$,$1(B) ($B@5(B)$B7J;3(B $BC#EM(B$B!&(B ($B2#9qBg1!M}9)(B/KISTEC) ($B@5(B)$BJ!ED(B $B=_Fs(B
7-a3D bioprinting
hair regeneration
hair follicle germ
12/21
20:57:24
511$B1s?4=
($B2#9qBg%P%$%*(B) ($B3X(B)$B!{0KF#(B $BD>:H(B$B!&(B ($B2#9qBg1!M}9)(B/KISTEC/JST$B$5$-$,$1(B) ($B@5(B)$B7J;3(B $BC#EM(B$B!&(B ($B2#9qBg1!M}9)(B/KISTEC) ($B@5(B)$BJ!ED(B $B=_Fs(B
7-acentrifugation
hair regeneration
hair follicle germ
12/22
17:19:46
$B!|(B
hair regeneration
(2$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 7-a (2$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
341$BLSH1:F@80eNE$N$?$a$NLSJq864p$N(B3D$B%P%$%*%W%j%s%F%#%s%0(B
($B2#9qBg1!M}9)(B) ($B3X(B)$B!{FnLP(B $B:L2Z(B$B!&(B ($B2#9qBg1!M}9)(B/KISTEC/JST$B$5$-$,$1(B) ($B@5(B)$B7J;3(B $BC#EM(B$B!&(B ($B2#9qBg1!M}9)(B/KISTEC) ($B@5(B)$BJ!ED(B $B=_Fs(B
7-a3D bioprinting
hair regeneration
hair follicle germ
12/21
20:57:24
511$B1s?4=
($B2#9qBg%P%$%*(B) ($B3X(B)$B!{0KF#(B $BD>:H(B$B!&(B ($B2#9qBg1!M}9)(B/KISTEC/JST$B$5$-$,$1(B) ($B@5(B)$B7J;3(B $BC#EM(B$B!&(B ($B2#9qBg1!M}9)(B/KISTEC) ($B@5(B)$BJ!ED(B $B=_Fs(B
7-acentrifugation
hair regeneration
hair follicle germ
12/22
17:19:46
$B!|(B
HBD-HBA solvent
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 8-b (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
302$BD6NW3&(BCO2 - $B?eAGJ,;R6!M?BN(B/$B
($BElKLBg4D(B) ($B3X(B)$B!{BgEg(B $B9-B@O:(B$B!&(B ($B@5(B)$B3T(B $B3$?4(B$B!&(B ($B@5(B)$B%9%_%9(B $B%j%A%c!<%I(B
8-bsupercritical carbon dioxide
HBD-HBA solvent
Peng-Robinson Eos
12/21
17:10:50
$B!|(B
Heat and mass transfer
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B IS-1 (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
11Analogy Analysis of Streamwise Developing Heat and Mass Transfer in a Packed Column Distillation
(Kansai Chem. Eng.) ($B@5(B)$B!{(BKataoka Kunio$B!&(B ($B@5(B)Nishimura Goro$B!&(B ($B@5(B)Noda Hideo
IS-1Analogy
Heat and mass transfer
distillation
11/30
15:21:10
$B!|(B
heat efficiency
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 3-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
146$B%^%$%/%mGH5[<}$K4X$9$kL5
($BJ<8K8)Bg9)(B) $B1rIt(B $BCR;K(B$B!&(B $Bc7Fb(B $B4u9,(B$B!&(B ($B@5(B)$B!{D+7'(B $BM52p(B$B!&(B (Curtin U.) Hyde Anita$B!&(B Phan Chi
3-aMicrowave
dimensionless number
heat efficiency
12/18
09:34:46
$B!|(B
Heat exchange network
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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
239$BG.8r49%M%C%H%o!<%/$rMQ$$$?M-5!%i%s%-%s%5%$%/%k$N%(%M%k%.!
($B;37ABg1!M}9)(B) ($B3X(B)$B!{=)85(B $BNIM4(B$B!&(B ($B;37ABg9)(B) ($B@5(B)$BNkLZ(B $BBYI'(B$B!&(B ($B;37ABg1!M}9)(B) ($B@5(B)$B>>ED(B $B7=8g(B
9-ePower generation
Heat exchange network
Heat recovery
12/21
11:15:32
$B!|(B
heat exchanger
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B F-1 (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
663[$B0MMj9V1i(B] $B@PL}2=3X%W%i%s%H@_Hw$NDc05>x5$MxMQG.8r494o$GH/@8$7$?B;=};vNc(B
($B;0I)%1%_%+%k(B) ($BK!(B)$BBgDE(B $B9'IW(B
F-1water droplet impingement
erosion-corrosion
heat exchanger
12/25
18:09:34
$B!|(B
Heat recovery
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
239$BG.8r49%M%C%H%o!<%/$rMQ$$$?M-5!%i%s%-%s%5%$%/%k$N%(%M%k%.!
($B;37ABg1!M}9)(B) ($B3X(B)$B!{=)85(B $BNIM4(B$B!&(B ($B;37ABg9)(B) ($B@5(B)$BNkLZ(B $BBYI'(B$B!&(B ($B;37ABg1!M}9)(B) ($B@5(B)$B>>ED(B $B7=8g(B
9-ePower generation
Heat exchange network
Heat recovery
12/21
11:15:32
$B!|(B
Heat storage
(2$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-b (2$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
362$B@=E|9)>l$NL$MxMQG.C_G.M"Aw%7%9%F%`$N%i%$%U%5%$%/%k(BGHG$BGS=PNLI>2A(B
($BElBgAm3g%W%m(B) ($B@5(B)$B!{F#0f(B $B>MK|(B$B!&(B ($B@5(B)$B7s>>(B $BM40lO:(B$B!&(B ($BAaBg(B) ($B@5(B)$BCf3@(B $BN4M:(B$B!&(B ($BElBgL$Mh%S(B/$BElBgAm3g%W%m(B/$BElBg1!9)(B) ($B@5(B)$B5FCS(B $B9/5*(B
9-bLife cycle assessment
Biomass
Heat storage
12/22
08:13:30
434$B%j%8%'%M%P!<%J!<%7%9%F%`C_G.Ae$X$NE,MQ$rL\;X$7$?9u?'%"%k%_%JC_G.BN$N3+H/(B
($BL>Bg9)(B) ($B@5(B)$B!{;32<(B $B@?;J(B$B!&(B ($B3X(B)$B6aF#(B $B7rEM(B$B!&(B ($B@5(B)$B7&ED(B $B8w9((B$B!&(B ($B@5(B)$BKL(B $B1Q5*(B
9-bHeat storage
black alumina
Radiation heat transfer
12/22
14:33:26
$B!|(B
Heat transfer
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B IS-1 (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
346Natural convection of liquid metal in an annular enclosure
(Tokyo Metro. U.) ($B3X(B)$B!{(BMasuda Takuya$B!&(B ($B@5(B)Tagawa Toshio
IS-1Heat transfer
MHD
Transition
12/21
22:02:29
$B!|(B
Heat Transfer Modeling
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
35$B9b29H/EE>r7o$N(BPEFC$BC1%;%kFbEAG.8=>]$K5Z$\$9(BMPL$B$N1F6A2r@O(B
($B;0=EBg1!(B) ($B3X(B)$B!{2OLn(B $BK>(B$B!&(B ($B3X(B)$B2,8M(B $BC#:H(B$B!&(B ($B3X(B)$B>.Eg(B $BM&:H(B$B!&(B ($B@5(B)$B@>B<(B $B82(B$B!&(B $BW"ED(B $B??;K(B
9-ePEFC
Heat Transfer Modeling
High Temperature Condition
12/11
09:38:42
$B!|(B
Heavy metal ions
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 13-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
107ZIF-8$B%J%N7k>=$rMQ$$$?=E6bB01x@w?e=hM}$H>t2=%a%+%K%:%`(B
($BElK.Bg(B) ($B3X(B)$B!{C+86(B $B:L2;(B$B!&(B ($B3X(B)$B5FCO(B $B9IJ?(B$B!&(B ($B@5(B)$B:#Ln(B $BBg51(B
13-aZIF-8
Heavy metal ions
Adsorption
12/15
16:29:24
$B!|(B
Heavy metal removing
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 13-b (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
594$B%j%sE:2C%I%m%^%$%H7O=E6bB05[Ce:^$N=E6bB05[CeFC@-(B
($B?73cBg1!<+(B) ($B3X(B)$B!{@V4V(B $BfFB@(B$B!&(B Khashbaatar Zoltuya$B!&(B ($B?73cBg9)(B) $BC]Fb(B $BK(0a(B$B!&(B ($B@5(B)$B6b(B $B_f_=(B
13-bHeavy metal removing
Dolomite
Phosphorus
12/22
21:10:22
$B!|(B
Helical nanostructures
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B K-5 (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
348[$B>7BT9V1i(B] Self-organized production of helical nanostructures in electrochemical reactions achieved by nanoconfinement of spatiotemporal patterns
(Kyoto U.) Fukami Kazuhiro
K-5Helical nanostructures
Electrochemistry
Spatiotemporal pattern
12/21
23:04:47
$B!|(B
Henderson-Hasselbalch equation
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B X-51 (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
702[$BIt2q>^(B] $B%U%m%s%F%#%">^(B2019:$B2=3XH?1~A08e$NN.BN$NJ*@-CM$G$OM=B,$G$-$J$$9bJ,;RH?1~N.$NN.F0%@%$%J%_%/%9(B: ATR-FTIR$BJ,8wK!$K$h$kJ,;R?GCG$rH<$&N.BNNO3X(B
($BG@9)Bg1!9)(B) $B?"LZ(B $BIR0t(B$B!&(B ($BL@<#3X1!BgK!(B) $BHSEg(B $B=_(B$B!&(B ($BG@9)Bg1!9)(B) $BB?@n(B $B7E(B$B!&(B ($B@5(B)$B!{D9DE(B $BM:0lO:(B
X-51Fe3+ aqua complex
Henderson-Hasselbalch equation
Weissenberg effect
2/8
14:31:02
$B!|(B
HER
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 11-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
504$B?eAGH/@8H?1~$K8~$1$??75,(BCo/P$B4^M-C:AG:`NA$N9g@.(B
($B:eBg1!4p9)(B) ($B3X(B)$B!{<~(B $B0BGn(B$B!&(B ($B@EBg9)(B) ($B@5(B)$B;0Bp(B $B9@;K(B$B!&(B ($B:eBg1!4p9)(B) ($B@5(B)$BFbED(B $B9,L@(B$B!&(B ($B@5(B)$B@>;3(B $B7{OB(B
11-aHER
Fuel cell
Electrochamical
12/22
17:07:00
$B!|(B
Hetero-composites
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
190$B%$%*%s!&EE;R:.9gEAF3BN$N0[Aj3&LL$N:n@=$HEE5$2=3XFC@-I>2A(B
($BElBg(B) ($B3X(B)$B!{?SLn(B $B9,0l(B$B!&(B ($B@5(B)$B>>Hx(B $BBs5*(B$B!&(B ($B@5(B)$BBgM'(B $B=g0lO:(B
9-eSolid oxide fuel cells
Oxide ion transport
Hetero-composites
12/18
18:09:02
$B!|(B
Heterogeneous azeotropic distillation
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 6-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
373$B%\%H%`%G%+%s%?!<$r9MN8$7$?IT6Q0l6&J(>xN1$N9=B$:GE,2=(B
($B5~Bg9)(B) ($B3$(B)$B!{(BAlcantara Avila J. Rafael$B!&(B ($B3X(B)$B8M>e(B $B7IEP(B
6-eLinear programming
Heterogeneous azeotropic distillation
Process optimization
12/22
10:35:39
$B!|(B
heterogeneous catalyst
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B HQ-21 (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
57[$B0MMj9V1i(B] $B%(%A%l%s$NDc29J,2r$KM-8z$JDc%3%9%H?(G^$N3+H/(B
($BF;Am8&9);n(B) ($B@5(B)$B!{?9(B $BIp;N(B$B!&(B $BLnB<(B $BN4J8(B$B!&(B $B;34_(B $BD*(B$B!&(B ($BKLBg?(G^8&(B) $BCfEg(B $B@6N4(B$B!&(B $BJ!2,(B $B=_(B
HQ-21heterogeneous catalyst
ethylene oxidation
siliceous shale
12/14
09:47:41
$B!|(B
hierarchical structure
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B K-4 (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
559[$B>7BT9V1i(B] Microstructure control of metal-organic framework in designing high-performance adsorbent and membrane for gas and liquid separations
(Kansai U.) ($B@5(B)Tanaka Shunsuke
K-4MOF
polycrystalline membrane
hierarchical structure
12/22
19:16:30
$B!|(B
high efficiency
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B SP-8 (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
81[$B>7BT9V1i(B] $B8:05$rMxMQ$7$?9b8zN(4%Ag$N
($B7nEg%^%7%s%;!<%k%9(B) $B>.Ln_7(B $BM40l(B
SP-8reduced pressure
high efficiency
drying
12/14
13:29:48
$B!|(B
High pressure
(2$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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
14$B%K%C%1%k?eAGEECS$N:F@8=
($BJ<8K8)Bg1!9)(B) ($B3X(B)$B!{J?@n(B $B4u$B!&(B ($BJ<8K8)Bg9)(B) ($B3X(B)$B>.NS(B $BBg4n(B$B!&(B ($BJ<8K8)Bg1!9)(B) ($B@5(B)$BA0ED(B $B8w<#(B$B!&(B ($B@5(B)$BHSB<(B $B7r$B!&(B $BJ!<<(B $BD>$B!&(B $B>>K\(B $BJb(B$B!&(B $BH,=E(B $B??<#(B$B!&(B ($B9q4D8&(B) ($B@5(B)$BAR;}(B $B=(IR(B
12-gNiMH battery
High Pressure
Crystallization
12/2
18:33:11
542$B9b05>r7o2<$K$*$1$k%O%$%7%j%+(BCHA$BKl$N(BCO2$BJ,N%5!9=(B
($B9)3X1!Bg@h?J9)(B) ($B3X(B)$B!{W"_7(B $B;KLi(B$B!&(B ($B@5(B)$B5\@n(B $B2mLp(B$B!&(B ($B@5(B)$B9b1)(B $BMN=<(B
4-aHigh-silica CHA memrbane
Non equilibrium molecular dynamics
High pressure
12/22
18:51:52
$B!|(B
High speed mixer
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B SS-6 (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
70[$B>7BT9V1i(B] $B9bB.YxYB5!$rMQ$$$?F}2=J,;65;=Q(B
($B%W%i%$%_%/%9(B) ($BK!(B)$B=UF#(B $B98?M(B
SS-6High speed mixer
Emulsification
dispersion
12/14
11:48:55
$B!|(B
High Temperature Condition
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
35$B9b29H/EE>r7o$N(BPEFC$BC1%;%kFbEAG.8=>]$K5Z$\$9(BMPL$B$N1F6A2r@O(B
($B;0=EBg1!(B) ($B3X(B)$B!{2OLn(B $BK>(B$B!&(B ($B3X(B)$B2,8M(B $BC#:H(B$B!&(B ($B3X(B)$B>.Eg(B $BM&:H(B$B!&(B ($B@5(B)$B@>B<(B $B82(B$B!&(B $BW"ED(B $B??;K(B
9-ePEFC
Heat Transfer Modeling
High Temperature Condition
12/11
09:38:42
$B!|(B
High temperature-polymer electrolyte fuel cell
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 12-j (1$B7o(B)
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222$B9b$$%,%9F)2a@-$rM-$9$k9bBQ5WA4K'9aB2%W%m%H%sEAF39bJ,;R$N3+H/(B
($BEl9)Bg2=@88&(B) ($B3X(B)$B!{>>B?(B $BIv(B$B!&(B ($B@5(B)$B5\@>(B $B>-;K(B$B!&(B ($B@5(B)$B;38}(B $BLT1{(B
12-jHigh temperature-polymer electrolyte fuel cell
Proton exchange polymer
All-aromatic polymer
12/20
20:34:38
$B!|(B
High temperatures
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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
435$B?eG.=hM}>r7o$,%U%CAG7O%7%j%+Kl$N?eG.0BDj@-$K5Z$\$91F6A(B
($B9-Bg1!@h?JM}9)(B) ($B@5(B)$B!{6b;X(B $B@58@(B$B!&(B ($B9-Bg1!9)(B) $BH*2,(B $BD>Lo(B$B!&(B ($B9-Bg1!@h?JM}9)(B) ($B@5(B)$BD9_7(B $B425,(B$B!&(B ($B@5(B)$BETN1(B $BL-N;(B
4-aFluorine-silica
Hydrothermal stability
High temperatures
12/22
14:34:08
$B!|(B
high viscosity fluid
(1$B7o(B)
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$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
398$B9bG4@-N.BN%7%_%e%l!<%7%g%s$K8~$1$?I=LLD%NO%b%G%k$N3+H/$H8!>Z(B
($B<<1`2J8&(B) ($B@5(B)$B<<1`(B $B9@;J(B
2-ahigh viscosity fluid
surface tension
numerical simulation
12/22
12:38:42
$B!|(B
high viscosity fluids
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 2-b (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
232$B3IYB$K$*$1$kN.BN2r@O$N9b@:EY2=$X$N]$H$7$F!A(B
($B%@%$%;%k(B) ($B@5(B)$B!{0}?9(B $BM:B@(B$B!&(B ($B@5(B)$B;3ED(B $B9d;K(B$B!&(B ($B@5(B)$B0KF`(B $BCR=((B$B!&(B ($B@5(B)$B;0N1(B $B7I?M(B$B!&(B ($BL>9)Bg(B) ($B@5(B)$B2CF#(B $BDw?M(B$B!&(B ($B3X(B)$BB<>e(B $B9,M$(B$B!&(B ($B3X(B)$B2CLn(B $B2mLi(B
2-bmixing
CFD
high viscosity fluids
12/21
10:05:42
$B!|(B
High viscous fluid
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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
5$B0[G4EYN.BN$N:.9g%(%l%a%s%H$N?75,3+H/(B
($BF|K\%=%;!<9)6H(B) $BD+;3(B $B??Je(B$B!&(B $B?9@n(B $B5DGn(B$B!&(B ($BL>9)Bg1!9)(B) ($B3X(B)$B!{>>2,(B $B0IF`(B$B!&(B ($B@5(B)$B8E@n(B $BM[51(B$B!&(B ($B@5(B)$B2CF#(B $BDw?M(B
2-bMixing
High viscous fluid
Mixing element
11/19
09:50:10
$B!|(B
High-Low viscosity
(1$B7o(B)
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86[$B>7BT9V1i(B] $B%X%j%+%k%j%\%sMc$NE,1~HO0O$K$D$$$F(B
($B=;M'=E5!3#%W%m%;%95!4o(B) ($BK!(B)$B!{C]Cf(B $B9n1Q(B$B!&(B ($BK!(B)$B5WJ](B $BJfGH(B
SP-8High-Low viscosity
Impeller speed
12/14
14:04:21
$B!|(B
high-pressure carbon dioxide
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 8-b (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
310$B5!3#3X=,$K$h$k9b05Fs;@2=C:AG(B/$B?eJ,G[78?t$NM=B,
($B;:Am8&(B) ($B@5(B)$B!{F#0f(B $BC#Li(B$B!&(B $B>.A%(B $Bg}M}F`(B$B!&(B ($B@5(B)$B@nyu(B $B?50lO/(B
8-bmachine learning
partition coefficient
high-pressure carbon dioxide
12/21
17:42:31
$B!|(B
High-silica CHA memrbane
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
542$B9b05>r7o2<$K$*$1$k%O%$%7%j%+(BCHA$BKl$N(BCO2$BJ,N%5!9=(B
($B9)3X1!Bg@h?J9)(B) ($B3X(B)$B!{W"_7(B $B;KLi(B$B!&(B ($B@5(B)$B5\@n(B $B2mLp(B$B!&(B ($B@5(B)$B9b1)(B $BMN=<(B
4-aHigh-silica CHA memrbane
Non equilibrium molecular dynamics
High pressure
12/22
18:51:52
$B!|(B
High-speed visualization
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 3-b (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
287$BB?Aj8rN.%"!<%/$NJQF08=>]$H%J%NN3;R@=B$%W%m%;%9$X$N1~MQ(B
($B6eBg9)(B) ($B@5(B)$B!{EDCf(B $B3X(B$B!&(B $BKv1J(B $BBsLi(B$B!&(B $B6L9>(B $BMu2V(B$B!&(B ($B@5(B)$BEOJU(B $BN49T(B$B!&(B ($B%?%=!<%"!<%/(B) $B>>1:(B $B$B!&(B ($BJ!?-9)6H(B) $B>eED(B $B>R1{(B$B!&(B ($B%?%^%@(B) $BEl:j(B $B1Q
3-bThermal plasma
High-speed visualization
Nanoparticle
12/21
16:25:29
$B!|(B
high-throughput synthesis
(1$B7o(B)
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132$B8w5!G=@-%J%NN3;R$NB?8!BN9g@.$H2r@O(B
(ADMAT/$B%3%K%+%_%N%k%?(B) ($BK!(B)$B!{GpLZ(B $B91M:(B$B!&(B ($B;:Am8&(B) ($B@5(B)$BF+(B $B5f(B$B!&(B ($B@5(B)$BC]NS(B $BNI9@(B$B!&(B ($B@5(B)$B>.Ln(B $B9*(B
12-dnanoparticles
data analysis
high-throughput synthesis
12/17
14:36:23
$B!|(B
high-viscosity heavy oil
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 2-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
315$BGuMQ9bG4EY=E
($BBgEg>&A%9b@l(B) ($B3X(B)$B!{A0ED(B $B2m5.(B$B!&(B ($B@5(B)$B@n86(B $B=(IW(B$B!&(B ($B5WN1JF9b@l(B) $BCfIp(B $BLw?N(B$B!&(B ($B7DXfBgM}9)(B) ($B@5(B)$B;{:d(B $B9(0l(B$B!&(B ($B;00fB$A%FC5!%(%s%8%K%"%j%s%0(B) $B2O86(B $B42(B$B!&(B $B8eF#(B $B1Q?F(B
2-emicrobubbles
high-viscosity heavy oil
Basic properties
12/21
18:30:26
$B!|(B
Highly concentration
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 3-c (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
19$B%&%)!<%k%&%'%C%?!<>xH/4o$NO"B32=$HB?CJ2=$N$?$a$N3+H/E*8&5f(B
($B4X@>2=3X5!3#@=:n(B) ($B@5(B)$B!{4_ED(B $BN442(B$B!&(B ($B@5(B)$B;3@n(B $BE5=S(B$B!&(B ($B@5(B)$BLnED(B $B=(IW(B$B!&(B ($B@5(B)$B;3O)(B $B42;J(B
3-cContinuous evaporation
Multistage evaporation
Highly concentration
12/8
15:31:09
$B!|(B
hiPSCs
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 7-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
283Improvement of hiPSCs-derived liver cells maturation in a fluidic microenvironment.
(U. Tokyo) ($B3$(B)$B!{(BDanoy Mathieu$B!&(B (U. Lyon1) Tauran Yannick$B!&(B (Kanazawa U.) Arakawa Hiroshi$B!&(B (Kanagawa U.) Araya Karin$B!&(B (U. Tokyo) Kido Taketomo$B!&(B (Kanazawa U.) Kato Yukio$B!&(B (U. Tokyo) Miyajima Atsushi$B!&(B ($B@5(B)Sakai Yasuyuki$B!&(B (CNRS) Leclerc Eric
7-ehiPSCs
Liver
Omics
12/21
16:21:14
$B!|(B
His-tag
(1$B7o(B)
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$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
322$BG]M\1UCf$NAH49$(%?%s%Q%/
($BEl9)Bg2=@88&(B) ($B3X(B)$B!{G+(B $B@c$8$g$&(B$B!&(B $BKL8}(B $BE/Li(B$B!&(B ($B@5(B)$B>eED(B $B9((B
7-aBiosensor
His-tag
Process monitoring
12/21
18:51:27
$B!|(B
hollow fiber
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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
399$B=[4DEII[$K$h$jD4@=$7$?Cf6u;eKl$N(BCO2$BJ,N%@-G=(B
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4-aamine
CO2 separation
hollow fiber
12/22
12:47:28
$B!|(B
Homogeneity
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 12-g (1$B7o(B)
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448$B6E=87k>=N3;R72$NIJ2A$K$h$kH?1~>=@O$NA`:n@_7W(B
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12-gReactive Crystallization
Agglomeration
Homogeneity
12/22
15:21:20
$B!|(B
Honeycomb
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317$BB&LL$+$iN.F~$9$k%,%9$N%O%K%+%`FbN.F06Q0l2=$N$?$a$NB?9&HD@_7W(B
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2-aHoneycomb
Flow Homogenization
Hot-wire anemometer
12/21
18:42:29
$B!|(B
Horseradish peroxidase
(1$B7o(B)
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$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
441Influence of hydrogen peroxidase-mediated cross-linking and degradation on cell-adhesive gelatin hydrogels
(Osaka U.) ($B3X(B)$B!{(BMubarok Wildan$B!&(B ($B3X(B)Qu Yanfei$B!&(B ($B@5(B)Nakahata Masaki$B!&(B Kojima Masaru$B!&(B ($B@5(B)Sakai Shinji
7-eGelatin
Horseradish peroxidase
Degradation
12/22
14:59:38
$B!|(B
Hot-wire anemometer
(1$B7o(B)
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317$BB&LL$+$iN.F~$9$k%,%9$N%O%K%+%`FbN.F06Q0l2=$N$?$a$NB?9&HD@_7W(B
($BJ!2,Bg9)(B) ($B3X(B)$B!{2-K\(B $BFXG7(B$B!&(B $B2,ED(B $B:L2C(B$B!&(B ($B@5(B)$BFb;3(B $B905,(B$B!&(B ($B@5(B)$B9>:j(B $B>fM5(B$B!&(B ($B@5(B)$B>>7((B $BMN2p(B
2-aHoneycomb
Flow Homogenization
Hot-wire anemometer
12/21
18:42:29
$B!|(B
Human development
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B HC-13 (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
153[$B>7BT9V1i(B] $B2=3X%W%i%s%H$N(BAI$B!&(BIoT$B3hMQ$N$?$a$N?M:`0i@.(B
($B%3%s%5%i%s%9(B) $B9b0B(B $BFF;K(B
HC-13AI
Smart Plant
Human development
12/18
10:15:30
$B!|(B
human Kynureninase
(1$B7o(B)
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$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
280$B%R%H(BKynureninase$B$N%"%U%#%K%F%#J,N%$rL\;X$7$?C1:?93BN8GDj2=%+%i%`$N3+H/(B
($B5~9)A!Bg1!9)7](B) ($B3X(B)$B!{?y85(B $B3$EM(B$B!&(B $B?y;3(B $BM'N<(B$B!&(B ($B@5(B)$BKYFb(B $B=_0l(B$B!&(B ($B@5(B)$B7'ED(B $BM[0l(B
7-chuman Kynureninase
Affinity column
scFv
12/21
16:03:15
$B!|(B
Humic Substances
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-b (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
182Inhibitory Mechanisms of Humic Substances and Synthetic Polyanion on the Cationic Flocculant induced Flocculation
(U. Tsukuba) ($B3X(B)$B!{(BLim Voon Huey$B!&(B Yamashita Yuji$B!&(B ($B@5(B)Adachi Yasuhisa
4-bFlocculation
Humic Substances
Flocculant
12/18
17:03:09
$B!|(B
Hybrid modeling
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$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
30$B%b%N%/%m!<%J%k93BN@=B$%W%m%;%9$NE}9g@_7W$K8~$1$?:YK&G]M\$N%O%$%V%j%C%I%b%G%j%s%0(B
($BElBg1!9)(B) ($B3X(B)$B!{2,B<(B $B>?(B$B!&(B ($B3$(B)Badr Sara$B!&(B ($B@5(B)$B?y;3(B $B90OB(B
6-bBiopharmaceuticals
Mammalian cell culture
Hybrid modeling
12/10
13:42:41
$B!|(B
hydorogen oxidation
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-i (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
484$B%7%S%"%"%/%7%G%s%H8~$1?eAG=hM}:`$NH?1~FC@-I>2A(B
($BEl$B!&(B ($B@5(B)$B;3ED(B $B97(B$B!&(B ($BK!(B)$BDT0f(B $B=(Fs(B$B!&(B ($B@5(B)$B;3ED(B $BOBLp(B$B!&(B ($BK!(B)$B2,It(B $B42;K(B$B!&(B ($BK!(B)$B9c>e(B $B905#(B
5-ihydorogen oxidation
solid-gas reaction
metal oxide
12/22
16:36:09
$B!|(B
hydrate heat pump
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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
150[$B>7BT9V1i(B] $BI9E@2<0h$G$N%O%$%I%l!<%HNdE`%7%9%F%`(B
(TOYO ENG.) ($BK!(B)$B!{(BIshisaka Takuya$B!&(B ($BK!(B)Sasakura Keisuke
K-2Hydrate refrigeration
hydrate heat pump
below 0 degC
12/18
09:51:07
$B!|(B
Hydrate refrigeration
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B K-2 (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
150[$B>7BT9V1i(B] $BI9E@2<0h$G$N%O%$%I%l!<%HNdE`%7%9%F%`(B
(TOYO ENG.) ($BK!(B)$B!{(BIshisaka Takuya$B!&(B ($BK!(B)Sasakura Keisuke
K-2Hydrate refrigeration
hydrate heat pump
below 0 degC
12/18
09:51:07
$B!|(B
Hydrocalumite
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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
547$B@=1v(BED$BG;=LGS?e$+$i$N%O%$%I%m%+%k%^%$%H$N9g@.$H$=$N%j%s;@%$%*%s8r49FC@-$NI>2A(B
($BF1;V$B!&(B ($B@5(B)$B5HED(B $B44@8(B$B!&(B ($BF|Bg@8;:9)(B) ($B@5(B)$B>>K\(B $B??OB(B$B!&(B ($BF1;V
12-gHydrocalumite
Concentrated seawater
Ion exchange
12/22
19:01:01
$B!|(B
hydrocarbon separation
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
507$BC:2=?eAG:.9gJ*$KBP$9$k(Bsilicalite-1$BJ?HDKl$NJ,N%G=8!F$(B
($BAaBg@h?JM}9)(B) ($B3X(B)$B!{(BShin Jong In$B!&(B ($BAaBg%J%N%i%$%U(B) ($B@5(B)$B$B!&(B ($BAaBg@h?JM}9)(B/$BAaBgM}9)Am8&(B) ($B@5(B)$B>>J}(B $B@5I'(B
4-azeolite
membrane
hydrocarbon separation
12/22
17:15:04
$B!|(B
hydrodeoxygenation
(2$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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
483Selective Production of vicinal-butanediols from erythritol via aqueous phase hydrodeoxygenation over carbon supported Cu catalyst prepared from ion-exchange resin
(Tokyo Tech) ($B3$(B)$B!{(BWang Weican$B!&(B Nakagawa Koji$B!&(B ($B@5(B)Fujitsuka Hiroyasu$B!&(B (AIST) ($B@5(B)Fumoto Eri$B!&(B (Hokkaido U.) ($B@5(B)Yoshikawa Takuya$B!&(B ($B@5(B)Nakasaka Yuta$B!&(B ($B@5(B)Masuda Takao$B!&(B (Tokyo Tech) ($B@5(B)Tago Teruoki
5-gerythritol
hydrodeoxygenation
carbon supported Cu catalyst
12/22
16:34:24
520$B%U%'%N!<%k$N?eAG2=C&;@AGH?1~$N@8@.J*A*Br@-$K?(G^C4BN$,5Z$\$91F6A(B
($B?.=#Bg1!AmM}9)(B) ($B3X(B)$B!{?y1:(B $BBs:H(B$B!&(B ($B?.=#BgA!0](B) ($B@5(B)$BD9ED(B $B8w@5(B$B!&(B ($B@5(B)$BJ!D9(B $BGn(B$B!&(B ($B@5(B)$B9b66(B $B?-1Q(B$B!&(B ($B@5(B)$BEhED(B $B8^I4N$(B
5-ahydrodeoxygenation
phenol
catalyst support
12/22
17:52:40
$B!|(B
hydrofluoroolefin
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 1-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
102303.2K$B$N6Q0l1UAjNN0h$K$*$1$k(BHFO-1234ze(E)+$B%"%;%H%s:.9g7O$NL)EYB,Dj(B
($BF|Bg@8;:9)(B) ($B3X(B)$B!{8M:"(B $B5~$B!&(B ($BF|BgM}9)(B) ($B@5(B)$B2,ED(B $B??5*(B$B!&(B ($BF|Bg@8;:9)(B) ($B@5(B)$BJ]2J(B $B5.N<(B$B!&(B ($B%^%l!<%7%"9)Bg(B) ($B@5(B)$BDT(B $BCRLi(B$B!&(B ($B;:Am8&(B) ($B@5(B)$B8E20(B $BIp(B
1-adensity
hydrofluoroolefin
binary mixture
12/15
15:42:50
$B!|(B
hydrogel
(4$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 12-e (2$B7o(B), 7-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
213$BLtJ*=yJ|%H!<%i%9>u%"%k%.%s;@HyN3;R$N3+H/(B
($BElBg1!9)(B) ($B3X(B)$B!{>>5\(B $BOB@8(B$B!&(B ($B3X(B)$BBgLZ(B $BM*0lO/(B$B!&(B ($BElBg1!0e(B) ($B@5(B)Chandel Arvind Kumar Singh$B!&(B ($BElBg1!9)(B/$BElBg1!0e(B) ($B@5(B)$B0KF#(B $BBgCN(B
12-econtrolled release
hydrogel
torus-shaped microparticle
12/20
10:53:43
297$B9bJ,;R%2%kCf$G:n@=$7$?N22=F<%J%NN3;R$N7ABV$KM?$($k%2%k%M%C%H%o!<%/L)EY$N1F6A(B
($B9-Bg1!@h?JM}9)(B) ($B@5(B)$B!{8eF#(B $B7rI'(B$B!&(B ($B9-Bg9)(B) $B6aF#(B $B1&5~(B$B!&(B ($B9-Bg1!@h?JM}9)(B) ($B@5(B)$BCf0f(B $BCR;J(B
12-ehydrogel
copper sulfide
nanoparticle
12/21
16:49:38
312$B%Z%k%*%-%7%@!<%
($B:4@$J]9b@l(B) ($B@5(B)$B!{?9;3(B $B9,M4(B$B!&(B ($B@5(B)$B0f85(B $BG53((B$B!&(B ($B@5(B)$B;38}(B $B63J?(B$B!&(B ($B6eBg1!9)(B) ($B@5(B)$B$B!&(B ($B@5(B)$B8eF#(B $B2m9((B$B!&(B ($B@5(B)$B?@C+(B $BE5Jf(B
7-ahydrogel
peroxidase
12/21
18:03:38
562$B%`%A%s(B-$B%\%m%s;@Aj8_:nMQ$K$h$j7A@.$5$l$k%R%I%m%2%k$N3+H/$HD2Fb:Y6]G]M\4p:`$X$N1~MQ(B
($B:eBg1!4p9)(B) ($B@5(B)$B!{CfH*(B $B2m$B!&(B ($B:eBg4p9)(B) $Bc7F#(B $B7=;K(B$B!&(B ($B:eBg1!4p9)(B) $B>.Eh(B $B>!(B$B!&(B ($B@5(B)$B6-(B $B?5;J(B
7-ehydrogel
mucin
gut microbiome
12/22
19:18:41
$B!|(B
Hydrogel bead
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 7-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
444$B93BN$NJaB*$H8!=P$r;V8~$7$?93BN7k9g@-%?%s%Q%/.%O%$%I%m%2%k$N@_7W(B
($B6eBg1!9)(B) ($B3X(B)$B!{DEN1(B $B0IM4(B$B!&(B ($B@5(B)$BFnH*(B $B9'2p(B$B!&(B ($B@5(B)$B8eF#(B $B2m9((B$B!&(B ($B@5(B)$B?@C+(B $BE5Jf(B
7-eAntibody
Hydrogel bead
Microfluidics
12/22
15:09:29
$B!|(B
hydrogel particles
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 12-c (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
631$B%^%$%/%mN.O)$rMQ$$$?%"%k%.%s;@%O%$%I%m%2%kN3;R$N:n@=(B
($B?.=#Bg9)(B) ($B3X(B)$B!{@.@%(B $BFW4n(B$B!&(B ($B?.=#Bg1!AmM}9)(B) ($B3X(B)$BC]ED(B $BJfGH(B$B!&(B($B?.=#Bg(BRISM/$B?.=#Bg9)(B/$B?.=#Bg1!AmM}9)(B) ($B@5(B)$B:4Gl(B $BBgJe!&(B ($B?.=#Bg9)(B/$B?.=#Bg1!AmM}9)(B) $B1|B<(B $B9,5W(B
12-ccalcium alginate
hydrogel particles
microfluidic device
12/22
23:19:21
$B!|(B
hydrogelator
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 12-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
32$B%Z%W%A%I7?DcJ,;R%2%k2=:^$rMQ$$$?AB?e@-Lt:^$N:^7A$*$h$S8zG=$ND4@a(B
($B?@8MBg1!9)(B) ($B@5(B)$B!{?9ED(B $B7rB@(B$B!&(B Restu Witta Kartika$B!&(B ($B@5(B)$B@>B<(B $BM&:H(B$B!&(B $B@P0f(B $B=c(B$B!&(B ($B@5(B)$B4];3(B $BC#@8(B
12-ehydrogelator
peptide
self-assembly
12/10
17:21:15
$B!|(B
Hydrogen
(6$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 2-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
41$B?eAG9bA*BrF)2a9bJ,;RJ,N%Kl(B
($BEl%l(B) ($B@5(B)$B!{?eLn(B $BMT2p(B$B!&(B ($B@5(B)$B9-Bt(B $BMNHA(B$B!&(B ($BK!(B)$B;3ED(B $BGnG7(B$B!&(B ($B@5(B)$BLZB<(B $B>-90(B
4-aHydrogen
Membrane
Polymer
12/11
17:18:12
61[$B>7BT9V1i(B] CO2$B$rC:AG8;$H$7$?%W%i%9%A%C%/86NA@=B$(B
(IHI) ($BK!(B)$B!{1sF#(B $B9*(B$B!&(B ($BK!(B)$B@.Aj(B $B7rB@O:(B$B!&(B ($BK!(B)$B3yED(B $BGnG7(B
SS-4Hydrogen
Carbon Recycle
Olefin
12/14
10:44:16
342$B%"%s%b%K%"$N5^B.MO2r$rMxMQ$7$??eAG%^%$%/%m%P%V%k@8@.K!$N3+H/(B
($B7DXfBgM}9)(B) ($B3X(B)$B!{>.NS(B $BB@O:(B$B!&(B $B>.86(B $B2VM|(B$B!&(B ($B7DXfBg1!M}9)(B) $BEDCf(B $B=SLi(B$B!&(B ($B7DXfBgM}9)(B) ($B@5(B)$BF#2,(B $B:;ET;R(B$B!&(B ($B@5(B)$B;{:d(B $B9(0l(B
2-emicrobubble
hydrogen
ammonia
12/21
21:02:22
367$B?eAG@=B$H?1~$N=V;~5/F0$r;V8~$7$?%"%s%b%K%";@2=J,2r$N%3!<%k%I%9%?!<%H(B(2)
($B5~Bg?(G^EECS(B) ($B@5(B)$B!{:4F#(B $B>!=S(B$B!&(B ($BL>Bg1!9)(B) $B>>1J(B $BN49((B$B!&(B ($B@5(B)$B1J2,(B $B>!=S(B
5-ahydrogen
energy carrier
renewable energy
12/22
09:14:11
571$BGQG@6H7O%P%$%*%^%9$G$"$k%^%l!<%7%";:%.%K%"!&%"%V%i%d%7GQLZ$N%A%c!<$H?eAG$N@=B$(B
($B?73cBg9)(B) ($B3X(B)$B!{EDCf(B $B>"(B$B!&(B ($B@5(B)$B6b(B $B_f_=(B
9-eBiomass
Hydrogen
12/22
19:38:58
619$B?eAG@=B$AuCV
($B4tIlBg1!9)(B) ($B3X(B)$B!{IpF#(B $BCRBg(B$B!&(B ($B4tIlBg9)(B) ($B@5(B)$BD+86(B $B@?(B$B!&(B $B5\:d(B $BIp;V(B$B!&(B $B0BN$(B $B>!M:(B$B!&(B ($BElBg9)(B) $B1[(B $B8wCK(B
3-dThermal decomposition
CO2 free
Hydrogen
12/22
23:00:13
$B!|(B
hydrogen bonding
(2$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 1-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
537$B29EY1~Ez@-%^%F%j%"%k6aK5$K$*$1$k?eAG7k9g$N%@%$%J%_%/%9(B: $B7W;;2=3XE*2r@O(B
($BL>9)Bg1!9)(B) ($B3X(B)$B!{@>2O(B $BOB??(B$B!&(B ($B@5(B)$BFn1@(B $BN<(B$B!&(B ($B@5(B)$B4dED(B $B=$0l(B
4-ahydrogen bonding
LCST
molecular dynamics
12/22
18:38:58
629$B?eAG7k9g%M%C%H%o!<%/$K4p$E$/%1!<%8!&%8%c%s%W%b%G%k$N3+H/$H$=$N2aNd5Q?e$K$*$1$k3H;6%@%$%J%_%/%9$X$N1~MQ(B
($B:eBg1!4p9)(B) ($B3X(B)$B!{5FDT(B $BBn??(B$B!&(B ($B@5(B)$B6b(B $B9](B$B!&(B ($B@5(B)$B>>NS(B $B?-9,(B
1-ahydrogen bonding
molecular dynamics simulation
supercooled liquid
12/22
23:15:17
$B!|(B
hydrogen evolution reaction
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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
177Nanostructured CoMnP/P-NF electrocatalysts with long-duration for hydrogen evolution reaction
($B90A0BgM}9)(B) ($B3X(B)$B!{(BSirisomboonchai Suchada$B!&(B ($B3X(B)Kitiphatpiboon Nutthaphak$B!&(B $BDD(B $BK((B$B!&(B $BP2(B $BEs(B$B!&(B ($B90A0BgCO0h8&(B) ($B@5(B)$B5HED(B $BZ|90(B$B!&(B ($B90A0BgM}9)(B) ($B@5(B)$B0$I[(B $BN$Ds(B$B!&(B ($B90A0BgCO0h8&(B) ($B@5(B)$B41(B $B9q@6(B
5-awater splitting
hydrogen evolution reaction
CoMnP/P-NF catalyst
12/18
15:50:44
$B!|(B
Hydrogen fermentation
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 13-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
512$B:.9gG]M\7O$K$h$k?eAGH/9ZFC@-$K5Z$\$94pr7o$N1F6A(B
($B2#9qBg9)(B) ($B@5(B)$B!{CfB<(B $B0lJf(B$B!&(B $BI':d(B $Bh=4u(B$B!&(B ($B@5(B)$BOB5W0f(B $B7r;J(B$B!&(B ($B2#9qBg(B) $BC+@8(B $B=E@2(B
13-aHydrogen fermentation
co-culture
substrate
12/22
17:24:13
$B!|(B
Hydrogen flow process
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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
217$BB?9&2$B%7!<%H$X$N?eAGN.DL$K$h$kG.6!5k$H?eAGJ|=P$N?tCME*2r@O(B
($BAaBg@h?JM}9)(B) ($B3X(B)$B!{5HED(B $B7$B!&(B ($B3X(B)$B3a86(B $B9/Je(B$B!&(B ($BAaBgM}9)Am8&(B) ($B@5(B)$B?yL\(B $B91;V(B$B!&(B ($BAaBg@h?JM}9)(B) ($B@5(B)$BLnED(B $BM%(B$B!&(B ($B@5(B)$B2VED(B $B?.;R(B
9-eHydrogen storage
Magnesium hydride
Hydrogen flow process
12/20
17:07:12
$B!|(B
Hydrogen permeable membrane
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-d (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
226$B%a%?%sD>@\J,2rKlH?1~4o$N3+H/(B
(RITE) ($B@5(B)$B!{@%2<(B $B2mGn(B$B!&(B $B:4!9(B $BOBL@(B$B!&(B $B0B86(B $B7r0lO:(B$B!&(B $B;38}(B $BM40lO:(B$B!&(B ($B@5(B)$BCfHx(B $B??0l(B
5-dMethane decomposition
Membrane reactor
Hydrogen permeable membrane
12/21
09:08:35
$B!|(B
Hydrogen permeable membranes
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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
221$B%W%m%H%sEAF3@-;@2=J*:.9gEE2r2A(B
($BElBg1!?7NN0h(B) ($B3X(B)$B!{EDEg(B $B@1Li(B$B!&(B ($B@5(B)$B>>Hx(B $BBs5*(B$B!&(B ($B@5(B)$BBgM'(B $B=g0lO:(B
9-eSolid oxide fuel cells
Mixed proton-electron conductor
Hydrogen permeable membranes
12/20
18:58:55
$B!|(B
Hydrogen permeance
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 4-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
130CVD$B%7%j%+KlMQB?9&
($B$B!&(B ($B3X(B)$B@P0f(B $B9nE5(B$B!&(B ($B
4-aSilica membrane
Hydrogen permeance
Permeance resistance
12/17
14:07:23
$B!|(B
Hydrogen Production
(2$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-e (2$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
431$B5;=Q3W?7$r9MN8$7$??eEE2r%7%9%F%`$NJq3gE*$J5;=Q!&7P:Q@-I>2A
($BElBg1!?7NN0h(B) ($B3X(B)$B!{3|?9(B $BB@O:(B$B!&(B ($B@5(B)$BBgM'(B $B=g0lO:(B
9-eHydrogen production
Fuel cell
Power generation cost
12/22
14:26:22
605$B9bJ,;RNLA4K'9aB29bJ,;REE2r
($BEl9)Bg(B/KISTEC) ($B@5(B)$B!{9uLZ(B $B=(5-(B$B!&(B ($BEl9)Bg(B) Soni Roby$B!&(B ($B@5(B)$B5\@>(B $B>-;K(B$B!&(B ($B@5(B)$B;38}(B $BLT1{(B
9-eHydrogen Production
Water Electrolysis
Durability
12/22
22:26:53
$B!|(B
Hydrogen storage
(3$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-e (3$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
192$B%P%C%A<0N.F0AX7?C_%(%M%k%.!<%7%9%F%`$K$*$1$kE4!&%^%s%,%s7O%-%c%j%":`NA3+H/$HH?1~%b%G%k2r@O(B
($BElBg1!?7NN0h(B) ($B3X(B)$B!{;3B<(B $BBYJ?(B$B!&(B ($B@5(B)$BBgM'(B $B=g0lO:(B
9-eHydrogen storage
Batch fluidized bed reactor
Steam electrolysis
12/18
18:16:59
196$B9bB.?eAG5[B"!&J|=P$N$?$a$N?eAG5[B"9g6b(BLaNi5-$B9bJ,;R
($BAaBg@h?JM}9)(B) ($B3X(B)$B!{Cf@n(B $B?50lO/(B$B!&(B ($B3X(B)$B2#0f(B $B7z?M(B$B!&(B ($BAaBgM}9)Am8&(B) ($B@5(B)$B?yL\(B $B91;V(B$B!&(B ($BAaBg@h?JM}9)(B) ($B@5(B)$BLnED(B $BM%(B$B!&(B ($B@5(B)$B2VED(B $B?.;R(B
9-eLaNi5
Hydrogen storage
Thermal conductivity
12/18
21:27:45
217$BB?9&2$B%7!<%H$X$N?eAGN.DL$K$h$kG.6!5k$H?eAGJ|=P$N?tCME*2r@O(B
($BAaBg@h?JM}9)(B) ($B3X(B)$B!{5HED(B $B7$B!&(B ($B3X(B)$B3a86(B $B9/Je(B$B!&(B ($BAaBgM}9)Am8&(B) ($B@5(B)$B?yL\(B $B91;V(B$B!&(B ($BAaBg@h?JM}9)(B) ($B@5(B)$BLnED(B $BM%(B$B!&(B ($B@5(B)$B2VED(B $B?.;R(B
9-eHydrogen storage
Magnesium hydride
Hydrogen flow process
12/20
17:07:12
$B!|(B
hydrogen-oxygen recombination reaction
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
463$BBh0l86M}7W;;$K$h$k?eAG;@AG:F7k9gH?1~$N?(G^3h@-$NI>2A(B
($BEl$B!&(B ($BK!(B)$BDT0f(B $B=(Fs(B$B!&(B ($B@5(B)$BLx@8(B $B4pLP(B$B!&(B ($BK!(B)$B2,It(B $B42;K(B
5-aFirst-principle caliculation
hydrogen-oxygen recombination reaction
activation energy
12/22
16:00:56
$B!|(B
Hydrogenation
(2$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-a (2$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
12-$B%/%m%m%W%m%Z%s$N@\?(?eAG2=$K$h$k2=@.IJA06nBN9g@.(B
($BFAEgBg1!$B!&(B ($BFAEgBg1!@hC<650iIt(B) ($B3X(B)$B1_F#(B $B;mG5(B$B!&(B ($BFAEgBg1!9((B$B!&(B ($B@5(B)$B2CF#(B $B2mM5(B
5-a2-chloropropene
hydrogenation
palladium
11/9
17:54:18
406$BC4BN%+!<%\%s$X$NCbAG%I!<%W$,(BPd$BC4;}?(G^$N?eAG2=3h@-$K5Z$\$91F6A(B
($B72BgM}9)(B) ($B3X(B)$B!{LZJk(B $BFW?N(B$B!&(B ($B@5(B)$B?@@.(B $B>09n(B$B!&(B ($B@5(B)$B:4F#(B $BOB9%(B
5-aPalladium
Nitrogen-doped Carbon
Hydrogenation
12/22
13:04:24
$B!|(B
Hydrogenation of toluene
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 5-d (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
436$B?eAGF)2a%Q%i%8%&%`KlEE6K$rMQ$$$??eEE2r$K$h$k%H%k%(%s?eAG2=(B
($B1'ET5\Bg1!CO(B) ($B3X(B)$B!{EgB<(B $B?w5((B$B!&(B ($B1'ET5\Bg9)(B) $B6b(B $BN6J8(B$B!&(B ($B@5(B)$B:4F#(B $B9d;K(B$B!&(B ($B@5(B)$B0KF#(B $BD>
5-dHydrogenation of toluene
Hydrothermal
monocyclic compounds
12/22
14:41:17
$B!|(B
hydroisomerization
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 9-c (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
438Mg-Pt$BC4;}%<%*%i%$%H?(G^$K$h$kD9:?(Bn-$B%Q%i%U%#%s$N?eAG2=0[@-2=!&J,2rH?1~@)8f(B
($BEl9)Bg(B) ($B3X(B)$B!{;(2l(B $BN4;V(B$B!&(B ($B@5(B)$BF#J/(B $BBgM5(B$B!&(B ($B@5(B)$BB?8P(B $B516=(B
9-cPt-Mg loaded zeolite
hydroisomerization
cracking
12/22
14:45:37
$B!|(B
Hydrophobic
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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
534$B3&LL=E9gH?1~$rMQ$$$??75,%U%CAG4^M-%]%j%"%_%IKl$N3+H/$HM-5!MO:^J,N%$X$N1~MQ(B
($B?@8MBg1!9)(B/$B@hC$B!&(B ($B?@8MBg1!2J5;%$%N%Y(B/$B@hC$B!&(B ($B@5(B)$BCf@n(B $B7I;0(B$B!&(B ($B?@8MBg1!9)(B/$B@hC$B!&(B ($B@5(B)$B?@Hx(B $B1Q<#(B$B!&(B ($B@5(B)$B>>;3(B $B=(?M(B
4-aPolyamide membrane
Organic solvent reverse osmosis
Hydrophobic
12/22
18:30:15
$B!|(B
hydrophobic cryogels
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 12-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
550$BAB?e@-%/%i%$%*%2%k$ND4@=$*$h$SCj=P:^FbJq$K$h$kF
($B5\:jBg9)(B) ($B3X(B)$B!{9gC+(B $BD>IR(B$B!&(B ($B@5(B)$B>>:,(B $B1Q$B!&(B ($BET>k9b@l(B) ($B@5(B)$B@6;3(B $B;KO/(B$B!&(B ($B5\:jBg9)(B) ($B@5(B)$B1v@9(B $B900lO:(B
12-ehydrophobic cryogels
Cu (II) extraction
extractant
12/22
19:05:40
$B!|(B
hydrotalcite
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 12-a (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
440$BLt:^5[C&Ce5sF0$KM?$($k%O%$%I%m%?%k%5%$%H9=B$FbC:;@
($BKL8+9)Bg(B) ($B@5(B)$B!{?{Ln(B $B5|(B$B!&(B $B2,B<(B $BM54p(B
12-ahydrotalcite
carbonate
adsorption and desorption behavior
12/22
14:46:54
$B!|(B
Hydrothermal
(8$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 8-d (2$B7o(B), 8-e (2$B7o(B), 5-d (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
26$B9b299b05?e$rMQ$$$?%3!<%R!<@8F&Cj=P$K$*$1$kC14D@8@.J*$N5sF0(B
($B1'ET5\Bg1!CO(B) ($B3X(B)$B!{CSC+(B $B2BO/(B$B!&(B ($B1'ET5\Bg9)(B) ($B@5(B)$B:4F#(B $B9d;K(B$B!&(B ($B@5(B)$B0KF#(B $BD>$B!&(B ($B1'ET5\BgG@(B) $BFsIS(B $B8-0l(B
8-cExtraction of coffee
Hydrothermal
Monocyclic compounds
12/9
17:56:43
209$B4uGv;@?eMO1U$rMQ$$$?(BWhitewood$BG.?eJ,2r$NE|2=<}N($K$*$h$\$9H?1~>r7o$N1F6A(B
($BCf1{Bg1!M}9)(B) ($B3X(B)$B!{?7F#(B $B2FG5(B$B!&(B ($BCf1{BgM}9)(B) ($B@5(B)$B:dIt(B $B=_0l(B$B!&(B ($B@5(B)$BA%B$(B $B=S9'(B
5-gWhitewood
dilute acid solution
hydrothermal
12/19
18:11:40
303$B1v4p@-G.?e>r7o2<$K$*$1$k(BPFOA$B$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 $B=S9'(B
8-dHydrothermal
Defluorination
Perfluorooctanoic acid
12/21
17:12:17
343$B?eG.>l$K$*$1$kM-5!(B-$BL55!I=LLH?1~$H6bB0;@2=J*%J%NN3;R@.D9$N%a%+%K%:%`(B
($BElKLBg1!9)(B) ($B3X(B)$B!{HxB<(B $BM*4u(B$B!&(B ($BElKLBg(BWPI-AIMR) ($B@5(B)$B2#(B $BE/(B$B!&(B ($BElKLBg(BNICHe) ($B@5(B)$B@.(B $B4pL@(B$B!&(B ($BElKLBgB?858&(B) ($B@5(B)$Bcx5o(B $B9bL@(B$B!&(B ($BElKLBg(BWPI-AIMR) ($B@5(B)$B0$?,(B $B2mJ8(B
8-eMetal oxide
Hydrothermal
Crystal growth
12/21
21:02:51
354NaOH$BE:2CG.?e$rMQ$$$?(Bfluorobenzene$B$+$i$NC&%U%CAG2=H?1~5!9=$N2rL@(B
($BCf1{Bg1!M}9)(B) ($B3X(B)$B!{1sF#(B $B=c(B$B!&(B ($BCf1{BgM}9)(B) ($B@5(B)$B:dIt(B $B=_0l(B$B!&(B ($B@5(B)$BA%B$(B $B=S9'(B
8-dfluorobenzene
hydrothermal
defluorination
12/22
01:19:16
400NaOH$BE:2CG.?e$rMQ$$$?(BNylon 6$B$N2r=E9g$K$*$h$\$9A`:n0x;R$N1F6A(B
($BCf1{Bg1!M}9)(B) ($B3X(B)$B!{>.@t(B $BJf9b(B$B!&(B ($B3X(B)$BCSC+(B $B9'(B$B!&(B ($B3X(B)$B>.Ln;{(B $BMGBg(B$B!&(B ($BCf1{BgM}9)(B) ($B@5(B)$B:dIt(B $B=_0l(B$B!&(B ($B@5(B)$BA%B$(B $B=S9'(B
13-ehydrothermal
Nylon 6
recycling
12/22
12:48:19
436$B?eAGF)2a%Q%i%8%&%`KlEE6K$rMQ$$$??eEE2r$K$h$k%H%k%(%s?eAG2=(B
($B1'ET5\Bg1!CO(B) ($B3X(B)$B!{EgB<(B $B?w5((B$B!&(B ($B1'ET5\Bg9)(B) $B6b(B $BN6J8(B$B!&(B ($B@5(B)$B:4F#(B $B9d;K(B$B!&(B ($B@5(B)$B0KF#(B $BD>
5-dHydrogenation of toluene
Hydrothermal
monocyclic compounds
12/22
14:41:17
561$B?eG.C:2=!&%X%F%m86;R%I!<%WK!$rMQ$$$?LZ
($BElKLBg9)(B) ($B3X(B)$B!{8eF#(B $BBYEM(B$B!&(B ($BElKLBg:](B) ($B@5(B)$BCf0B(B $BM4B@(B$B!&(B $B0$It(B $BGnLo(B$B!&(B (UCLA) $B>!;3(B $BM/EM(B$B!&(B ($BElKLBg:](B) $B0KF#(B $BN4(B$B!&(B ($BElKLBg9)(B) ($B@5(B)$BEOn5(B $B8-(B
8-eHydrothermal
carbon
Oxygen reduction reaction
12/22
19:16:44
$B!|(B
hydrothermal emulsification
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 8-e (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
620$B%]%j%^!<%J%NN3;R$ND4@=$H7V8wJ*
($B2,;3Bg1!4D@8(B) ($B3X(B)$B!{HDEl(B $B2B9((B$B!&(B ($B@5(B)$BEgFb(B $B$B!&(B ($B@5(B)$BLZB<(B $B9,7I(B
8-epolymer nanoparticle
hydrothermal emulsification
leakage
12/22
23:03:15
$B!|(B
hydrothermal leaching
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 8-f (1$B7o(B)
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570$B%0%j%7%s$r?;=P:^$KMQ$$$?(BLiCoO2$B$NO"B3?eG.?;=P(B
($BElKLBg1!9)(B) ($B3X(B)$B!{(BHirama Seiya$B!&(B Qingxin Zheng$B!&(B ($B@5(B)Kishita Atsushi$B!&(B ($B@5(B)Hiraga Yuya$B!&(B ($BElKLBg:](B) ($B@5(B)Nakayasu Yuta$B!&(B ($BElKLBg1!9)(B) ($B@5(B)Watanabe Masaru
8-fhydrothermal leaching
12/22
19:38:14
$B!|(B
hydrothermal reaction
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 8-f (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
276$BLO5m$rMQ$$$?(BSr$B?eG.?;=P%a%+%K%:%`$K4X$9$k8!F$(B
($BElKLBg4D(B) ($B3X(B)$B!{2CF#(B $B>"GO(B$B!&(B ($B@5(B)$B3T(B $B3$?4(B$B!&(B ($B@5(B)$B%9%_%9(B $B%j%A%c!<%I(B
8-fhydrothermal reaction
soil analysis
organic acids
12/21
15:28:22
$B!|(B
Hydrothermal stability
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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
435$B?eG.=hM}>r7o$,%U%CAG7O%7%j%+Kl$N?eG.0BDj@-$K5Z$\$91F6A(B
($B9-Bg1!@h?JM}9)(B) ($B@5(B)$B!{6b;X(B $B@58@(B$B!&(B ($B9-Bg1!9)(B) $BH*2,(B $BD>Lo(B$B!&(B ($B9-Bg1!@h?JM}9)(B) ($B@5(B)$BD9_7(B $B425,(B$B!&(B ($B@5(B)$BETN1(B $BL-N;(B
4-aFluorine-silica
Hydrothermal stability
High temperatures
12/22
14:34:08
$B!|(B
hydrothermal treatment
(1$B7o(B)
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B 8-f (1$B7o(B)
$B$BHV9f(B$B9V1iBjL\!?H/I=$BJ,N`(B$B%-!<%o!<%I(B$B
128$B?eG.=hM}$K$h$k%]%jF};@$N%1%_%+%k%j%5%$%/%k(B
($B@EBg1!9)(B) ($B3X(B)$B!{LZ2<(B $B445.(B$B!&(B ($B%^%/%;%k(B) $BB9(B $B6c(B$B!&(B ($B@5(B)$B8eF#(B $BIR@2(B$B!&(B ($B@EBg1!9)(B) ($B@5(B)$B:48E(B $BLT(B$B!&(B ($B@5(B)$B2,Eg(B $B$$$E$_(B
8-fpolylactic acid
biodegradable plastic
hydrothermal treatment
12/17
13:37:55

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

$B
$B2=3X9)3X2q(B $BBh(B86$BG/2q(B

(C) 2021 $B8x1W
Most recent update: 2021-08-21 18:44:01
For more information contact $B2=3X9)3X2q(B $BBh(B86$BG/2q(B $B
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