 C/Fe3O4 composite microspheres (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-23 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 423 | Synthesis of C/Fe3O4 composite microspheres prepared by spray pyrolysis and their application to energy storage devices
(Tokyo Tech) (�$B3X�(B)�$B!{�(BAdi Akylbek�$B!&�(B (�$B@5�(B)Taniguchi Izumi | ST-23 | C/Fe3O4 composite microspheres
Spray pyrolysis
Energy storage devices
| 6/12
20:37:18 |
|---|
Ca looping (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-23 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 756 | Direct carbon dioxide methanation in a calcium looping process using Ni-CaO-Y doped BaZrO3
(�$BElBg1!?7NN0h�(B) (�$B3X�(B)�$B!{�(BLee Jihan�$B!&�(B (�$B@5�(B)�$BBgM'�(B �$B=g0lO:�(B | ST-23 | CCU
Ca looping
Methanation
| 6/15
17:32:06 |
|---|
Caffeine microparticles (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-79 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 806 | �$BD6NW3&�(BCO2�$B$rMQ$$$?J.L84%AgK!$K$h$kLtJ*$NHyN32=$KBP$9$kMOG^
(�$B6bBtBg1!<+A3�(B) (�$B3X�(B)�$B!{�(BXie Bo�$B!&�(B (�$B3X�(B)�$B;32<�(B �$BCR?J�(B�$B!&�(B (�$B6bBtBgM}9)�(B) (�$B@5�(B)�$BFbED�(B �$BGn5W�(B | SY-79 | Supercritical assisted atomization
Spray drying
Caffeine microparticles
| 6/15
19:03:58 |
|---|
calcium alginate (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-53 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 181 | �$BC:;@C&?e9ZAG�(B-�$B%j%]%=!<%`J#9gBN$rJq3g$5$;$?%2%kN3;R$ND4@=$HFs;@2=C:AG5[<}$X$N1~MQ�(B
(�$B;38}Bg1!AO@.�(B) (�$B3X�(B)�$B!{?9;3�(B �$B=cMy�(B�$B!&�(B (�$B@5�(B)�$B5HK\�(B �$B@?�(B | SY-53 | calcium alginate
lipid vesicles
catalyst reuse
| 6/9
15:41:57 |
|---|
Cancer cell spheroid (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-69 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 311 | �$B;@AG4D6-$K1~Ez$9$k%,%s:YK&%9%U%'%m%$%I$NLt:^BQ@-I>2A�(B
(�$BKL6eBg1!9)�(B) (�$B3X�(B)�$B!{>.1r�(B �$B2V2L�(B�$B!&�(B (�$B@5�(B)�$BCf_7�(B �$B9@Fs�(B | SY-69 | Cancer cell spheroid
Drug resistance
Oxygen responsiveness
| 6/12
12:43:18 |
|---|
cancer cells (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-69 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 356 | �$B%,%s:YK&%9%U%'%m%$%I$N%5%$%:0MB8E*$JLt:^BQ@-JQ2=�(B
(�$BKL6eBg1!�(B) (�$B3X�(B)�$B!{�(BHo Thy Thy�$B!&�(B (�$B3X�(B)�$B>.1r�(B �$B2V2L�(B�$B!&�(B (�$B@5�(B)�$BCf_7�(B �$B9@Fs�(B | SY-69 | cancer cells
spheroid size
drug resistance
| 6/12
16:20:19 |
|---|
Capillary force (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-53 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 887 | �$BN3;R4VLS4INO$N3J;R%\%k%D%^%s%7%_%e%l!<%7%g%s�(B
(�$B2,;3Bg1!<+�(B) (�$B@5�(B)�$B!{;0Ln�(B �$BBY;V�(B�$B!&�(B (�$B@5�(B)�$BCfA>�(B �$B9@0l�(B�$B!&�(B (�$B@5�(B)�$B8eF#�(B �$BK.>4�(B | SY-53 | Capillary force
Lattice Boltzmann method
wetting
| 6/15
23:34:42 |
|---|
capillary netwook (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-79 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 418 | �$B@8BNLS:Y7l4ILV$rLOJo$7$?N.DL7?%^%$%/%m%j%"%/%?!<$N3+H/�(B
(�$B"�(B�$B!&�(B (�$B�$B!&�(B (�$B�$B!&�(B (�$B@5�(B)�$B5HED�(B �$B>;90�(B�$B!&�(B (�$B@5�(B)�$BIp0f�(B �$B9'9T�(B | SY-79 | microreactor
microfiber
capillary netwook
| 6/12
20:13:45 |
|---|
Carbohydrate chemistry (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-83 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 113 | [�$B>7BT9V1i�(B] �$B2=3X9ZAG%W%m%;%9$K$h$kE|
(�$BJ!EgBgG@�(B) �$BHx7A�(B �$B?5�(B | SY-83 | Carbohydrate chemistry
Chemoenzymatic synthesis
Molecular recognition
| 6/5
16:19:11 |
|---|
Carbon (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B HQ-15 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 251 | �$B?e>x5$E:2C$,G.J,2rC:AG�(BCVD�$B$K5Z$\$91F6A�(B
(�$B5~Bg9)�(B) (�$B3X�(B)�$B!{Fn�(B �$BNK2O�(B�$B!&�(B (�$B3X�(B)�$B>>ED�(B �$BK(�(B�$B!&�(B (�$B@5�(B)�$B2O@%�(B �$B85L@�(B | SY-63 | CVD
Carbon
Steam
| 6/11
13:19:44 |
|---|
| 898 | [�$B0MMj9V1i�(B] �$B;:6HO"4X%^%F%j%"%k%U%m!<2r@O$K$h$k@=IJCfBZN1C:AGDjNL2=�(B
(�$BElKLBg1!9)�(B) (�$B@5�(B)�$BBgLn�(B �$BH%�(B | HQ-15 | Material Flow Analysis
Carbon
Petrochemical
| 6/16
11:33:53 |
|---|
Carbon capture (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-64 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 48 | [�$BE8K>9V1i�(B] �$B?(G^H?1~9)3X$H>o29:nF0$N%a%?%s2=5;=Q$,Bs$/�(BCO2�$B;q8;2=%W%m%;%9$N6/2=�(B(PI)
(�$B@EBg1!�(B) (�$B@5�(B)�$BJ!86�(B �$BD9 | SY-63 | CCU
Auto-methana
Carbon capture
| 5/27
18:09:30 |
|---|
| 575 | CO2�$B$+$i8GBNC:AG$rJa=8$9$k�(BCH4�$B$N%I%i%$2~
(�$B@EBg1!�(B) (�$B3X�(B)�$B!{�$B!&�(B �$B>>0f�(B �$B5A?M�(B�$B!&�(B (�$B@5�(B)�$BEOIt�(B �$B0=�(B�$B!&�(B (�$B@5�(B)�$BJ!86�(B �$BD9 | SY-64 | Methane dry reforming
Carbon capture
Structured catalyst
| 6/15
11:39:54 |
|---|
carbon cycle (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-74 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 180 | [�$BE8K>9V1i�(B] �$BC:AG=[4DMxMQ$K4X$o$kH?1~4o@_7W$K8~$1$?N.F0!&EAG.!&H?1~%7%_%e%l!<%7%g%s�(B
(�$BL>Bg9)�(B) (�$B@5�(B)�$BB'1J�(B �$B9TMG�(B | SY-74 | Computational fluid dynamics
carbon cycle
reaction engineering
| 6/9
15:16:23 |
|---|
Carbon deposition (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-56 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 430 | �$B%a%?%sG.J,2r$rMQ$$$??eAG@=B$AuCV
(�$B4tIlBg1!9)�(B) (�$B3X�(B)�$B!{IpF#�(B �$BCRBg�(B�$B!&�(B (�$B4tIlBg9)�(B) (�$B@5�(B)�$BD+86�(B �$B@?�(B�$B!&�(B �$B5\:d�(B �$BIp;V�(B�$B!&�(B �$B0BN$�(B �$B>!M:�(B�$B!&�(B (�$BElBg9)�(B) �$B1[�(B �$B8wCK�(B | SY-56 | Thermal decomposition
Carbon deposition
Hydrogen
| 6/12
23:13:02 |
|---|
Carbon dioxide (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-74 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 38 | CAPC�$BK!$K$h$kB?AX%U%#%k%?!<$N:n@=�(B
(�$B;:Am8&2=%W%m�(B) (�$B@5�(B)�$BAj_7�(B �$B?r;K�(B | SY-74 | carbon dioxide
polymer
filter
| 5/22
17:25:25 |
|---|
| 733 | �$B2=3X5[<}K!$K$h$kFs;@2=C:AG2s<}%W%m%;%9$N@_7W!&3+H/$KI,MW$J5$1UJ?9U$NB,Dj$HAj4X�(B
(�$BF|BgM}9)�(B) (�$B3X�(B)�$B!{C]Fb�(B �$B4u�$B!&�(B (�$B3X�(B)�$BNS�(B �$BM%0l�(B�$B!&�(B (�$B@5�(B)�$B>>ED�(B �$B909,�(B�$B!&�(B (�$BAaBgAOB$M}9)�(B) (�$B3X�(B)�$B0kC+�(B �$B9@9'�(B�$B!&�(B (�$B@5�(B)�$BCf3@�(B �$BN4M:�(B�$B!&�(B (�$BF|BgM}9)�(B) (�$B@5�(B)�$B7*86�(B �$B@6J8�(B�$B!&�(B (�$B@5�(B)�$BFJLZ�(B �$B>!8J�(B | SY-51 | Vapor-liquid equilibria
Carbon dioxide
Chemical absorption method
| 6/15
17:00:28 |
|---|
Carbon dixoide mitigation (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SP-3 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 44 | [�$B0MMj9V1i�(B] CO2�$BBgI}:o8:$K$`$1$F$NE49]%W%m%;%9$N>-MhA|�(B
(�$BElKLBg�(B) (�$B@5�(B)�$BM-;3�(B �$BC#O:�(B | SP-3 | Steel industry
Carbon dixoide mitigation
Ironmaking
| 5/26
16:02:50 |
|---|
carbon electrode durability (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-24 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 539 | �$B%P%J%8%&%`%l%I%C%/%9%U%m!
(�$B72Bg1!M}9)�(B) (�$B3X�(B)�$B!{>.H(�(B �$BN4N<�(B�$B!&�(B (�$B3X�(B)�$BEZ4t�(B �$BHAG52B�(B�$B!&�(B (�$B@5�(B)�$B@PHt�(B �$B9(OB�(B�$B!&�(B (�$BNL8&9b:j�(B) �$B;3K\�(B �$B=ULi�(B�$B!&�(B �$B2,:j�(B �$B9(G7�(B�$B!&�(B (�$B72Bg1!M}9)�(B) (�$B@5�(B)�$BCf@n�(B �$B?B9%�(B | ST-24 | vanadium redox flow battery
carbon electrode durability
electron beam
| 6/15
10:03:16 |
|---|
Carbon fiber (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B HQ-15 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 50 | [�$B0MMj9V1i�(B] �$B%5%9%F%J%V%k$K9W8%$9$kC:AGA!0]$*$h$S�(BCFRP�$B3+H/�(B
(�$BL>Bg1!9)�(B) (�$B@5�(B)�$BF~_7�(B �$B | HQ-15 | Carbon fiber
CFRP
Sustainable
| 5/28
11:32:01 |
|---|
Carbon flow (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B HQ-11 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 193 | [�$BE8K>9V1i�(B] CO2�$BGS=P:o8:$N$?$a$N%+!<%\%s%j%5%$%/%k5;=Q$NJ}8~@-�(B
(�$BAaBgAOB$M}9)�(B) (�$B@5�(B)�$BCf3@�(B �$BN4M:�(B | HQ-11 | Carbon flow
Energy storage
Just Transition
| 6/9
19:21:19 |
|---|
Carbon free catalysts (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-23 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 398 | �$B8GBN9bJ,;R7A?eEE2rMQ�(BIr-Ru�$B%J%NN3;RO"7k?(G^$N9=B$@)8f�(B
(�$BEl9)Bg2=@88&�(B) (�$B3X�(B)�$B!{?yED�(B �$B2BG7�(B�$B!&�(B (�$BEl9)Bg2=@88&�(B/KISTEC) (�$B@5�(B)�$BED4,�(B �$B9'7I�(B�$B!&�(B (KISTEC/�$BEl9)Bg2=@88&�(B) (�$B@5�(B)�$B9uLZ�(B �$B=(5-�(B�$B!&�(B (�$BEl9)Bg2=@88&�(B/KISTEC) (�$B@5�(B)�$B;38}�(B �$BLT1{�(B | ST-23 | Polymer electrolyte water electrolysis
Connected nanoparticle catalysts
Carbon free catalysts
| 6/12
18:52:33 |
|---|
Carbon hollow particle (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-78 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 9 | �$B9bJ,;RHyN3;R$NCf6u2=$HC:AG2=�(B
(�$BL>Bg1!9)�(B) (�$B@5�(B)�$B!{;3K\�(B �$BE0Li�(B�$B!&�(B (�$B3X�(B)�$B2O9g�(B �$BM%2p�(B | SY-78 | Carbon hollow particle
Polymer hollow particle
| 5/10
10:27:09 |
|---|
carbon membrane (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-25 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 252 | SPPO�$BC:AGKl$rMQ$$$?KlH?1~4o$N%(%9%F%k2=H?1~$X$NE,MQ�(B
(�$B;:Am8&�(B) (�$B@5�(B)�$B!{5H=!�(B �$BH~5*�(B�$B!&�(B (�$B@5�(B)�$B:,4_�(B �$B=(G7�(B | ST-25 | carbon membrane
dehydration
esterification
| 6/11
13:52:57 |
|---|
Carbon molecular sieve membranes (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-57 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 835 | Effect of carbonization condition on gas permeation properties of carbon membranes prepared from a polyimide hollow fiber membrane
(�$B;38}Bg1!4D6-6&@87O�(B) (�$B3X�(B)�$B!{�(BNie Jing�$B!&�(B (�$B;38}Bg1!AO@.2J3X�(B) �$B5H_7�(B �$BE5??�(B�$B!&�(B (�$B@5�(B)�$BEDCf�(B �$B0l9(�(B | SY-57 | Carbon molecular sieve membranes
Pyrolysis
Gas separation
| 6/15
20:35:34 |
|---|
Carbon nanofiber (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-51 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 271 | �$B%+!<%\%s%J%N%U%!%$%P!<�(B/�$B%]%j%7%m%-%5%sJ#9g:`NA$NG.EAF3@-$KBP$9$k8rN.EE>l=hM}$HG4EY$N1F6A�(B
(�$B6bBtBg1!<+�(B) (�$B3X�(B)�$B!{EDCf�(B �$B>O9@�(B�$B!&�(B �$B6bED�(B �$BM$5.�(B�$B!&�(B (�$B@5�(B)�$B=ULZ�(B �$B>-;J�(B | SY-51 | Thermal conductivity
Polysiloxane
Carbon nanofiber
| 6/11
16:52:17 |
|---|
Carbon nanofiber electrode (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-74 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 273 | Effect of supercritical CO2 drying condition on properties of porous carbon nanofiber electrode and Li-O2 battery performance.
(�$BElBg1!9)�(B) (�$B3X�(B)�$B!{�(BZhang Yiping�$B!&�(B (Thailand NSTDA) Kunanusont Nattanai�$B!&�(B (�$BElBg1!9)�(B) (�$B@5�(B)�$B=P1:�(B �$BEm;R�(B�$B!&�(B (�$B@5�(B)�$BI4@%�(B �$B7r�(B�$B!&�(B (�$B@5�(B)�$BAz3@�(B �$B9,9@�(B�$B!&�(B (�$BElBg1!9)�(B/�$BEl9)BgJ* | SY-74 | Supercritical CO2 drying
Carbon nanofiber electrode
Li-O2 battery
| 6/11
17:07:34 |
|---|
Carbon nanoparticle (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-22 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 175 | �$B%"%;%A%l%s$N9b29G.J,2r$K$h$k%J%NN3;R!&%J%N%A%e!<%VC:AGJ#9gBN$NO"B39g@.�(B
(�$BAaBg@h?JM}9)�(B) (�$B3X�(B)�$B!{1:ED�(B �$B7kJ8�(B�$B!&�(B �$BBgED86�(B �$B0=:H�(B�$B!&�(B (�$B@5�(B)�$BBgBt�(B �$BMxCK�(B�$B!&�(B (�$B@5�(B)�$B?yL\�(B �$B91;V�(B�$B!&�(B (�$B%G%s%+�(B) �$BL>8E�(B �$BM551�(B�$B!&�(B �$B2,ED�(B �$BBsLi�(B�$B!&�(B (�$BAaBg@h?JM}9)�(B) (�$B@5�(B)�$BLnED�(B �$BM%�(B | ST-22 | Carbon nanoparticle
Carbon nanotube
CVD
| 6/9
13:39:10 |
|---|
Carbon Nanoparticles (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-21 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 789 | �$B1UCf%W%i%:%^K!$K$h$j9g@.$7$?%+!<%\%s%J%NN3;R$K$h$k6u5$6K?(G^G=!"$*$h$SIT=cJ*�(B (B, N or P) �$BE:2C�(B
(�$B6a5&Bg�(B) (�$B3X�(B)�$B!{:#B<�(B �$BNCB@�(B�$B!&�(B �$B2,B<�(B �$BCRLi�(B�$B!&�(B (�$B6a5&Bg�(B) �$B?yK\�(B �$BN�$B!&�(B (�$B3X�(B)�$B]/LZ�(B �$B5.5W�(B�$B!&�(B (�$B3X�(B)�$B>>Gw�(B �$B=Y2p�(B�$B!&�(B (�$BAaBg�(B) �$BlK�(B �$B7373�(B�$B!&�(B (�$B6a5&Bg�(B) �$BEr@u�(B �$B2m2l�(B�$B!&�(B �$B@>ED�(B �$BE/L@�(B�$B!&�(B (�$B@5�(B)�$B2,�(B �$B?-?M�(B | ST-21 | Solution Plasma Process
Carbon Nanoparticles
Metal-Air Rechargeble Battery
| 6/15
18:35:52 |
|---|
Carbon nanotube (6�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-22 (3�$B7o�(B), ST-24 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 175 | �$B%"%;%A%l%s$N9b29G.J,2r$K$h$k%J%NN3;R!&%J%N%A%e!<%VC:AGJ#9gBN$NO"B39g@.�(B
(�$BAaBg@h?JM}9)�(B) (�$B3X�(B)�$B!{1:ED�(B �$B7kJ8�(B�$B!&�(B �$BBgED86�(B �$B0=:H�(B�$B!&�(B (�$B@5�(B)�$BBgBt�(B �$BMxCK�(B�$B!&�(B (�$B@5�(B)�$B?yL\�(B �$B91;V�(B�$B!&�(B (�$B%G%s%+�(B) �$BL>8E�(B �$BM551�(B�$B!&�(B �$B2,ED�(B �$BBsLi�(B�$B!&�(B (�$BAaBg@h?JM}9)�(B) (�$B@5�(B)�$BLnED�(B �$BM%�(B | ST-22 | Carbon nanoparticle
Carbon nanotube
CVD
| 6/9
13:39:10 |
|---|
| 213 | �$B8GBN86NAJ;MQ�(BPECVD�$BK!$K$*$1$kJ,;6G^$,9g@.$5$l$?J#9gGvKl$K5Z$\$91F6A�(B
(�$B9-Bg1!@h?JM}9)�(B) (�$B@5�(B)�$B!{EgED�(B �$B3X�(B�$B!&�(B (�$B9-Bg1!9)�(B) �$B9b66�(B �$B0l??�(B�$B!&�(B (�$B9-Bg1!@h?JM}9)�(B) (�$B@5�(B)�$B5WJ]�(B �$BM%�(B | ST-22 | titanium dioxide
carbon nanotube
photocatalyst
| 6/10
12:59:41 |
|---|
| 230 | X�$B@~4IMQ%+!<%\%s%J%N%A%e!<%VEE3&J|=PEE;R8;$N:n@=$H3,AX9=B$@)8f�(B
(�$BAaBg@h?JM}9)�(B) (�$B3X�(B)�$B!{0B0f�(B �$B9@B@O:�(B�$B!&�(B �$BKL@n�(B �$B�$B!&�(B (�$B@5�(B)�$B?yL\�(B �$B91;V�(B�$B!&�(B (�$BL@EE�$B!&�(B �$B9b66�(B �$BBgB$�(B�$B!&�(B (�$BAaBg@h?JM}9)�(B) (�$B@5�(B)�$BLnED�(B �$BM%�(B | ST-22 | carbon nanotube
electron field emitter
hierarchical structure control
| 6/10
21:57:06 |
|---|
| 234 | �$BN.F0AX$K$h$k6bB0>K;@1v%_%9%H$+$i$N?(G^C4;}$HD9<\%+!<%\%s%J%N%A%e!<%V$NN.F0AX9g@.�(B
(�$BAaBg@h?JM}9)�(B) (�$B3X�(B)�$B!{Gr@n�(B �$B42?M�(B�$B!&�(B (�$BAaBgM}9)Am8&�(B) Li Mochen�$B!&�(B (�$BAaBg@h?JM}9)�(B) (�$B@5�(B)�$B?yL\�(B �$B91;V�(B�$B!&�(B (�$B@5�(B)�$BBgBt�(B �$BMxCK�(B�$B!&�(B (�$B@5�(B)�$BLnED�(B �$BM%�(B | SY-79 | Carbon nanotube
Fluidized bed
Chemical vapor deposion
| 6/10
22:52:36 |
|---|
| 573 | �$B8GBN;@2=J*G3NAEECS$X$N%+!<%\%s%J%N%A%e!<%VD>@\@.D9$KBP$9$k%$%*%sEAF3@-;@2=J*$N1F6A�(B
(�$BEl9)Bg1~2=�(B) (�$B@5�(B)�$B!{D9C+@n�(B �$B3>�(B�$B!&�(B (�$B3X�(B)�$B;3ED�(B �$B9L@8�(B�$B!&�(B �$B:YED�(B �$BK|5H�(B�$B!&�(B (�$B3X�(B)�$BHSED�(B �$BM:B@�(B�$B!&�(B (�$B3X�(B)�$B55ED�(B �$B7CM$�(B�$B!&�(B (�$B@5�(B)�$B0K86�(B �$B3X�(B | ST-23 | Solid oxide fuel cell
Carbon nanotube
oxide ion conductor
| 6/15
11:35:09 |
|---|
| 693 | �$B;@2=J*%$%*%sEAF3@-;@2=J*>e$G$N%+!<%\%s%J%N%A%e!<%V9g@.$N8!F$�(B
(�$BEl9)Bg1~2=�(B) (�$B3X�(B)�$B!{;3ED�(B �$B9L@8�(B�$B!&�(B (�$B3X�(B)�$B55ED�(B �$B7CM$�(B�$B!&�(B (�$B3X�(B)�$BHSED�(B �$BM:B@�(B�$B!&�(B (�$B@5�(B)�$BD9C+@n�(B �$B3>�(B�$B!&�(B (�$B@5�(B)�$B0K86�(B �$B3X�(B | ST-24 | Carbon Nanotube
Solid Oxide Fuel Cell
| 6/15
15:42:11 |
|---|
carbon negative process (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SP-3 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 98 | [�$B0MMj9V1i�(B] �$B%+!<%\%s%K%e!<%H%i%kEENO!&2=3XIJ!&E4%3%W%m%@%/%7%g%s�(B
(�$B6eBg@hF38&�(B) (�$B@5�(B)�$B!{NS�(B �$B=a0lO:�(B�$B!&�(B (�$B@5�(B)�$B9)F#�(B �$B??Fs�(B�$B!&�(B (�$B5~Bg9)�(B) (�$B@5�(B)�$BA0�(B �$B0lW"�(B | SP-3 | coproduction
carbon negative process
carbon resources conversion
| 6/4
15:03:23 |
|---|
Carbon network (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-80 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 528 | [�$B0MMj9V1i�(B] �$BN%;66JLLO@$H$=$N:`NA2J3X$X$N1~MQ�(B
(�$BL>BgB?85?tM}2J3X8&�(B) �$B!{FbF#�(B �$B5W;q�(B�$B!&�(B (�$BElKLBg�(BAIMR) �$B>.C+�(B �$B85;R�(B | SY-80 | Carbon network
Graph theory
Discrete surface
| 6/15
09:17:22 |
|---|
Carbon porous electrode (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-23 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 118 | �$B6Q0l$JO"DL%^%/%m9&9=B$$rM-$9$k%+!<%\%sEE6K$rMQ$$$k%l%I%C%/%9%U%m!
(�$B72Bg1!M}9)�(B) (�$B@5�(B)�$B!{@PHt�(B �$B9(OB�(B�$B!&�(B �$BGr@P�(B �$BAT;V�(B�$B!&�(B (�$B%"%$%*%s�(B) �$BDMED�(B �$B9kI'�(B�$B!&�(B �$BIZED�(B �$B2FH~�(B�$B!&�(B (�$B72Bg1!M}9)�(B) (�$B3X�(B)�$BEZ4t�(B �$BHAG52B�(B�$B!&�(B (�$B@5�(B)�$BCf@n�(B �$B?B9%�(B | ST-23 | Redox flow battery
Carbon porous electrode
Macropore
| 6/5
19:58:18 |
|---|
carbon resources conversion (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SP-3 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 98 | [�$B0MMj9V1i�(B] �$B%+!<%\%s%K%e!<%H%i%kEENO!&2=3XIJ!&E4%3%W%m%@%/%7%g%s�(B
(�$B6eBg@hF38&�(B) (�$B@5�(B)�$B!{NS�(B �$B=a0lO:�(B�$B!&�(B (�$B@5�(B)�$B9)F#�(B �$B??Fs�(B�$B!&�(B (�$B5~Bg9)�(B) (�$B@5�(B)�$BA0�(B �$B0lW"�(B | SP-3 | coproduction
carbon negative process
carbon resources conversion
| 6/4
15:03:23 |
|---|
Carbon supported copper catalyst (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B HQ-15 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 51 | [�$B0MMj9V1i�(B] �$B9bL)EYC:AGC4;}F
(�$BEl9)BgJ*�$B!&�(B (�$B3X�(B)�$BCf@n�(B �$B9R;J�(B�$B!&�(B (�$B@5�(B)�$BB?8P�(B �$B516=�(B | HQ-15 | Hydrodeoxygenation
Carbon supported copper catalyst
Polyols
| 5/28
15:47:23 |
|---|
Carbon-Free (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-24 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 610 | Structural Control of Connected Pt-Co catalysts for Enhanced Oxygen Reduction Performances
(Tokyo Tech) (�$B3$�(B)�$B!{�(BLiao Qiancheng�$B!&�(B (KISTEC/Tokyo Tech) (�$B@5�(B)Kuroki Hidenori�$B!&�(B (Tokyo Tech/KISTEC) (�$B@5�(B)Tamaki Takanori�$B!&�(B (�$B@5�(B)Yamaguchi Takeo | ST-24 | Polymer Electrolyte Fuel Cell
Carbon-Free
Chemically Ordered Structure
| 6/15
13:18:23 |
|---|
Carbon-supported Nickel catalyst (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-63 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 421 | [�$BM%=(O@J8>^�(B] CH4 Production from Hydrothermal Gasification of Ethanol Using Carbon-supported Ni Catalysts
(Kyoto U.) (�$B@5�(B)�$B!{Cf@n�(B �$B9@9T�(B�$B!&�(B �$B | SY-63 | Bio-ethanol
Hydrothermal gasification
Carbon-supported Nickel catalyst
| 6/12
20:32:35 |
|---|
Carbonaceous material (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-64 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 324 | �$B3$MN%P%$%*%^%9�(B, Undaria pinnatifida�$B$+$i$N%Q%$%m!>%O%$%I%m%A%c!<$N:n@=$H8GBN;@?(G^$H$7$F$N$=$N1~MQ�(B
(�$B7'Bg1!<+�(B) (�$B3X�(B)�$B!{�(BShamala Balasubramaniam�$B!&�(B (�$B7'Bg;:%J%N8&�(B/�$B7'Bg1!@h�(B) (�$B@5�(B)�$B:4!9LZ�(B �$BK~�(B�$B!&�(B (�$B7'BgB?8@8l�(B) (�$B@5�(B)Quitain Armando�$B!&�(B (�$B7'Bg1!@h�(B) �$BLZED�(B �$BE0Li�(B�$B!&�(B (U. Alberta) Marleny Saldaña | SY-64 | Carbonaceous material
Marine biomass
Solid acid catalyst
| 6/12
14:24:34 |
|---|
Carbonization of Biomass and sugars (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-26 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 617 | Production of butyl levulinate through butanolysis of furfuryl alcohol over acidic catalysts
(Nagoya U.) (�$B3X�(B)�$B!{�(BThuppati Upender Rao�$B!&�(B (�$B@5�(B)Choi Cheolyong�$B!&�(B (�$B@5�(B)Machida Hiroshi�$B!&�(B (�$B@5�(B)Norinaga Koyo | ST-26 | Carbonization of Biomass and sugars
sulfonation
butanolysis
| 6/15
13:37:21 |
|---|
Carboxybetaine polymer (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-61 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 498 | �$B%+%k%\%-%7%Y%?%$%s%]%j%^!<$r%0%i%U%H$7$?Dc%U%!%&%j%s%0Kl$N3+H/�(B
(�$B9)3X1!Bg@h?J9)�(B) (�$B3X�(B)�$B2C!98+�(B �$B`"�(B�$B!&�(B (�$B@5�(B)�$B!{@V>>�(B �$B7{�$B!&�(B Wang Xiao-Lin�$B!&�(B (�$B@5�(B)�$BCfHx�(B �$B??0l�(B | SY-61 | Membrane
Low-fouling
Carboxybetaine polymer
| 6/14
19:58:59 |
|---|
Carboxylic acid (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-79 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 334 | �$B?eG.H?1~>l$K$*$1$k6bB0;@2=J*I=LL=$>~H?1~$N%a%+%K%:%`2r@O�(B
(�$BElKLBg1!9)�(B) (�$B3X�(B)�$B!{HxB<�(B �$BM*4u�(B�$B!&�(B (�$BElKLBg�(BWPI-AIMR) (�$B@5�(B)�$B2#�(B �$BE/�(B�$B!&�(B (�$BElKLBg�(BNICHe) (�$B@5�(B)�$B@.�(B �$B4pL@�(B�$B!&�(B (�$BElKLBgB?858&�(B) (�$B@5�(B)�$Bcx5o�(B �$B9bL@�(B�$B!&�(B (�$BElKLBg�(BWPI-AIMR) (�$B@5�(B)�$B0$?,�(B �$B2mJ8�(B | SY-79 | Surface modification
Hydrothermal
Carboxylic acid
| 6/12
15:21:58 |
|---|
Catalyst (9�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-64 (4�$B7o�(B), SY-61 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 293 | Pd�$BKlH?1~4o$rMQ$$$?%a%?%s%I%i%$%j%U%)!<%_%s%0H?1~$X$N1~MQ$rL\;X$7$??(G^3+H/�(B
(�$B4tIlBg1!<+�(B) (�$B3X�(B)�$B!{2CF#�(B �$BAo0lO/�(B�$B!&�(B (�$B4tIlBg9)�(B) (�$B@5�(B)�$B5\K\�(B �$B3X�(B�$B!&�(B (�$B4tIlBg6&MQ%;�(B) (�$B@5�(B)�$B6a9>�(B �$BLwB'�(B�$B!&�(B (�$B4tIlBg9)�(B) (�$B@5�(B)�$B>e5\�(B �$B@.G7�(B | SY-64 | membrane reactor
oxygen storage capacity
catalyst
| 6/12
10:26:02 |
|---|
| 371 | �$Be$K$*$1$k?e@-%,%9%7%U%HH?1~$N>\:Y2=3XH?1~%b%G%k$N9=C[�(B
(�$BL>Bg1!9)�(B) (�$B3X�(B)�$B!{J?Ln�(B �$BM:Bg�(B�$B!&�(B (�$B3X�(B)�$BHJLx�(B �$B0jLo�(B�$B!&�(B (�$B3$�(B)Zhang Wei�$B!&�(B (�$B@5�(B)�$BD.ED�(B �$BMN�(B�$B!&�(B (�$B@5�(B)�$BB'1J�(B �$B9TMG�(B | SY-64 | catalyst
WGS
simulation
| 6/12
17:00:58 |
|---|
| 439 | �$B%<%*%i%$%H?(G^Kl$N3+H/$HC:2=?eAGJ,2rG=$N8!F$�(B
(�$BAaBg@h?JM}9)�(B) (�$B3X�(B)�$B!{66K\�(B �$BM/51�(B�$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 | SY-61 | zeolite
membrane
catalyst
| 6/13
10:43:12 |
|---|
| 454 | In-situ APR�$B$rMxMQ$7$??"J*L}$N?eAG2=J,2r�(B
(�$BET;TBg�(B) (�$B@5�(B)�$B!{9bDE�(B �$B=J?M�(B�$B!&�(B �$B>.Eg�(B �$B9AEM�(B�$B!&�(B �$B?9�(B �$B9nG7�(B | SY-63 | Hydrodeoxygenation
Catalyst
Plant oil
| 6/13
18:50:38 |
|---|
| 500 | �$BGQLZ:`$N%,%92=$G@8$8$k%?!<%kJ,2rMQ?(G^$N3+H/�(B
(�$B2,;3Bg1!4D@8�(B) (�$B3X�(B)�$B!{Bg_@�(B �$BK|MU�(B�$B!&�(B (�$B@5�(B)Uddin Md Azhar�$B!&�(B (�$B@5�(B)�$B2CF#�(B �$B2E1Q�(B | ST-26 | gasification
catalyst
waste wood
| 6/14
20:41:30 |
|---|
| 544 | �$B8GBN9bJ,;R7AG3NAEECS$N9bEE051?E>$K8~$1$??e$K$h$kGr6b;@2=5sF0$NI>2A�(B
(�$BEl9)Bg�(B) (�$B3X�(B)�$B!{BgJ?�(B �$B7<;VO:�(B�$B!&�(B (KISTEC/�$BEl9)Bg�(B) (�$B@5�(B)�$B9uLZ�(B �$B=(5-�(B�$B!&�(B (�$BEl9)Bg�(B) (�$B@5�(B)�$BBg�$B!&�(B (�$BEl9)Bg�(B/KISTEC) (�$B@5�(B)�$B;38}�(B �$BLT1{�(B | ST-24 | PEFC
Catalyst
Membrane-electrode assembly
| 6/15
10:19:33 |
|---|
| 689 | CO2�$B%a%?%M!<%7%g%s$NAm3gH?1~B.EY%b%G%k$N9=C[$H?(G^M-8z78?t$K4X$9$k8!F$�(B
(�$BL>Bg1!9)�(B) (�$B3X�(B)�$B!{0BED�(B �$B>-Li�(B�$B!&�(B (�$B@5�(B)Choi Cheolyong�$B!&�(B (�$B3$�(B)Zhang Wei�$B!&�(B (�$BF|N)B$A%�(B) (�$BK!�(B)�$B9bLn�(B �$BM5G7�(B�$B!&�(B (�$BK!�(B)�$B@t20�(B �$B9(0l�(B�$B!&�(B (�$BL>Bg1!9)�(B) (�$B@5�(B)�$BD.ED�(B �$BMN�(B�$B!&�(B (�$B@5�(B)�$BB'1J�(B �$B9TMG�(B | SY-64 | methanation
catalyst
kinetic model
| 6/15
15:33:54 |
|---|
| 740 | Ni�$B7O?(G^$K$*$1$k�(BCO2�$B%a%?%M!<%7%g%s$N>\:Y2=3XH?1~B.EY%b%G%k$N9=C[�(B
(�$BL>Bg1!9)�(B) (�$B3X�(B)�$B!{HJLx�(B �$B0jLo�(B�$B!&�(B (�$B3$�(B)Zhang Wei�$B!&�(B (�$B@5�(B)Choi Cheolyong�$B!&�(B (�$B@5�(B)�$BD.ED�(B �$BMN�(B�$B!&�(B (�$B@5�(B)�$BB'1J�(B �$B9TMG�(B | SY-64 | methanation
kinetic
catalyst
| 6/15
17:08:27 |
|---|
| 773 | �$B>C@P3%$H6bB0N22=J*J#9gBN$K$h$kGQ4~J*>F5QGS%,%9Cf$N6bB0?e6d$N=|5n�(B
(�$B2,;3Bg�(B) (�$B3X�(B)�$B!{F#;3�(B �$B7r?M�(B�$B!&�(B (�$B@5�(B)Md A Uddin�$B!&�(B (�$B@5�(B)�$B2CF#�(B �$B2E1Q�(B�$B!&�(B (�$B1'It%^%F%j%"%k%:�(B) (�$BK!�(B)�$B2,ED�(B �$BJ8IW�(B�$B!&�(B (�$BK!�(B)�$B:dK\�(B �$BM50l�(B | SY-84 | Mercury removal
catalyst
waste combustion flue gas
| 6/15
18:14:11 |
|---|
Catalyst degradation (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-64 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 599 | �$B%a%?%s�(BCO2�$B2~
(�$BFAEgBg1!M}9)�(B) (�$B3X�(B)�$B!{?eLn�(B �$B@,>-�(B�$B!&�(B (�$BFAEgBg1!9(�(B�$B!&�(B (�$B@5�(B)�$B2CF#�(B �$B2mM5�(B�$B!&�(B (�$B@5�(B)�$B?y;3�(B �$BLP�(B | SY-64 | CO2 reforming of methane
Sulfur poisoning
Catalyst degradation
| 6/15
12:43:52 |
|---|
Catalyst Informatics (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-80 (2�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 81 | [�$B>7BT9V1i�(B] �$B%-%c%?%j%9%H%$%s%U%)%^%F%#%/%9$K$h$k?(G^H?1~$N<}N(M=B,�(B
(�$B;:Am8&�(B) �$BLpED�(B �$BM[�(B | SY-80 | Catalyst Informatics
Machine Learning
Catalyst Informatics
| 6/3
09:56:44 |
|---|
| 81 | [�$B>7BT9V1i�(B] �$B%-%c%?%j%9%H%$%s%U%)%^%F%#%/%9$K$h$k?(G^H?1~$N<}N(M=B,�(B
(�$B;:Am8&�(B) �$BLpED�(B �$BM[�(B | SY-80 | Catalyst Informatics
Machine Learning
Catalyst Informatics
| 6/3
09:56:44 |
|---|
catalyst reuse (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-53 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 181 | �$BC:;@C&?e9ZAG�(B-�$B%j%]%=!<%`J#9gBN$rJq3g$5$;$?%2%kN3;R$ND4@=$HFs;@2=C:AG5[<}$X$N1~MQ�(B
(�$B;38}Bg1!AO@.�(B) (�$B3X�(B)�$B!{?9;3�(B �$B=cMy�(B�$B!&�(B (�$B@5�(B)�$B5HK\�(B �$B@?�(B | SY-53 | calcium alginate
lipid vesicles
catalyst reuse
| 6/9
15:41:57 |
|---|
Catalytic combustion (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-64 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 126 | Synthesis of MnOx dominated catalysts with cubic structure and its application in the catalytic combustion of volatile organic compounds
(�$B90A0BgM}9)�(B) (�$B3X�(B)�$B!{2&�(B �$B%8%s�(B�$B!&�(B (�$B3X�(B)�$B2&�(B �$BPPgn�(B�$B!&�(B �$Bld�(B �$B6/�(B�$B!&�(B �$BD%�(B �$BL4U/�(B�$B!&�(B (�$B90A0BgCO0h8&�(B) (�$B@5�(B)�$B5HED�(B �$BZ|90�(B�$B!&�(B (�$B90A0BgM}9)�(B) (�$B@5�(B)�$B0$I[�(B �$BN$Ds�(B�$B!&�(B (�$B90A0BgCO0h8&�(B) (�$B@5�(B)�$B41�(B �$B9q@6�(B | SY-64 | volatile organic compounds
Catalytic combustion
MnOx/Co-Fe/NF catalysts
| 6/6
11:14:04 |
|---|
Catalytic conversion (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-64 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 819 | �$B?(G^$rMQ$$$?%-%A%s$+$i$NM-MQ2=3XJ*
(�$B;:Am8&�(B/�$B%A%e%i%m%s%3%sBg�(B) Kun-asa Kodchakon�$B!&�(B (�$B;:Am8&�(B) �$B;3:j�(B �$B@69T�(B�$B!&�(B (�$B@5�(B)�$B;0B<�(B �$BD>�$B!&�(B (�$B@5�(B)�$B:4F#�(B �$B=$�(B�$B!&�(B (�$B%A%e%i%m%s%3%sBg�(B) Reubroycharoen Prasert�$B!&�(B (�$B;:Am8&�(B) (�$B@5�(B)�$B!{;38}�(B �$BM-J~�(B | SY-64 | Chitin
Catalytic conversion
Chemicals
| 6/15
19:37:18 |
|---|
catalytic cracking (5�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-64 (2�$B7o�(B), SY-63 (2�$B7o�(B), HQ-15 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 132 | �$B%J%U%5@\?(J,2r$NDc292=$rL\;X$7$?�(BRh�$BC4;}�(BZSM-5�$B$N?(G^9=B$$N:GE,2=�(B
(�$BEl9)BgJ*�$B!&�(B (�$B@5�(B)�$BF#J/�(B �$BBgM5�(B�$B!&�(B (�$B@5�(B)�$BB?8P�(B �$B516=�(B | SY-63 | naphtha
catalytic cracking
light olefins
| 6/6
13:13:41 |
|---|
| 533 | �$B@\?(J,2rH?1~$N@8@.J*AH@.M=B,$K$*$1$k5!3#3X=,$NMxMQ�(B
(�$B?.=#Bg�(B) (�$B@5�(B)�$B!{EhED�(B �$B8^I4N$�(B�$B!&�(B (�$B@5�(B)�$BD9ED�(B �$B8w@5�(B�$B!&�(B (�$B@5�(B)�$BJ!D9�(B �$BGn�(B�$B!&�(B (�$B@5�(B)�$B8E;3�(B �$BDL5W�(B | SY-63 | machine learning
feature engineering
catalytic cracking
| 6/15
09:39:14 |
|---|
| 704 | [�$B0MMj9V1i�(B] �$B6bB0;@2=J*?(G^$rMQ$$$??e>x5$J70O5$2<$K$*$1$k=E
(�$BF;Am8&9);n�(B) (�$B@5�(B)�$B!{6aF#�(B �$B1J�$B!&�(B (�$BKLBg1!9)�(B) (�$B@5�(B)�$B5H@n�(B �$BBvLi�(B�$B!&�(B (�$B@5�(B)�$BCf:d�(B �$BM$B@�(B�$B!&�(B (�$BEl9)Bg2=9)�(B) (�$B@5�(B)�$BB?8P�(B �$B516=�(B�$B!&�(B (�$BKLBg1!9)�(B) (�$B@5�(B)�$BA}ED�(B �$BN4IW�(B | HQ-15 | Heavy oil
Oxide catalyst
Catalytic cracking
| 6/15
15:59:19 |
|---|
| 763 | �$BL};i$N@\?(J,2r$KBP$9$k?(G^%^%H%j%C%/%9$N1F6A�(B
(�$B?.=#Bg1!AmM}9)�(B) (�$B3X�(B)�$B!{2OB<�(B �$BK(9a�(B�$B!&�(B �$BIY2,�(B �$BBsLi�(B�$B!&�(B (�$B%f!<%0%l%J�(B) �$BB@ED�(B �$B@25W�(B�$B!&�(B (�$B@iBeED2=9)�(B) (�$B@5�(B)�$B9bDM�(B �$BF)�(B�$B!&�(B (�$B?.=#BgA!0]�(B) (�$B@5�(B)�$BEhED�(B �$B8^I4N$�(B | SY-64 | catalytic cracking
deoxygenation
triglyceride
| 6/15
17:44:53 |
|---|
| 816 | �$B?eAG0\9TH?1~$rMxMQ$7$?�(B3�$B4D5Z$S�(B4�$B4DK'9aB2$N@\?(J,2r�(B
(�$B?.=#Bg1!AmM}9)�(B) (�$B3X�(B)�$B!{EOn4�(B �$BM&B@�(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 (�$B@iBeED2=9)�(B) (�$B@5�(B)�$B9bDM�(B �$BF)�(B�$B!&�(B (�$B?.=#BgA!0]�(B) (�$B@5�(B)�$BEhED�(B �$B8^I4N$�(B | SY-64 | polycyclic aromatic hydrocarbons
catalytic cracking
hydrogen transfer
| 6/15
19:28:01 |
|---|
catalytic deactivation (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-67 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 703 | �$B?(G^:F@8$rH<$&O"B39g@.%7%9%F%`$N@_7WMQ%7%_%e%l!<%?$N3+H/�(B
(�$BElKLBg1!9)�(B) (�$B3X�(B)�$B!{HnED�(B �$BM$5*�(B�$B!&�(B (�$B@5�(B)�$BW"?9�(B �$B9@M4�(B�$B!&�(B (�$B@5�(B)�$B9b66�(B �$B8|�(B�$B!&�(B (�$B@5�(B)�$BKL@n�(B �$B>0H~�(B | SY-67 | process design simulator
fatty acid ester
catalytic deactivation
| 6/15
15:57:54 |
|---|
catalytic hydrogenation (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-63 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 284 | �$BDc?eAGHf>r7o$G$N�(B�$B&C�(B-�$B%P%l%m%i%/%H%s9g@.$r;YG[$9$k86NA5[Ce$r9MN8$7$??(G^H?1~@_7W�(B
(�$BElKLBg1!9)�(B) (�$B3X�(B)�$B!{Bg5\�(B �$BN?G72p�(B�$B!&�(B (�$B@5�(B)�$BW"?9�(B �$B9@M4�(B�$B!&�(B (�$B@5�(B)�$BKL@n�(B �$B>0H~�(B�$B!&�(B (�$B@5�(B)�$B9b66�(B �$B8|�(B | SY-63 | catalytic hydrogenation
gamma-valerolactone
levulinic ester
| 6/11
19:58:22 |
|---|
catalytic membrane reactor (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-57 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 714 | Pt�$B?(G^$rF3F~$7$?%7%j%+7O?(G^Kl$N:n@=$H�(BMCH�$BC&?eAGH?1~�(B
(�$B?@8MBg1!2J5;%$%N%Y�(B/�$B@hC�$B!&�(B (�$B@5�(B)�$BCf@n�(B �$B7I;0�(B�$B!&�(B (�$B@5�(B)�$B?7C+�(B �$BBn;J�(B�$B!&�(B (�$B?@8MBg1!9)�(B/�$B@hC�$B!&�(B (�$B@5�(B)�$B>>;3�(B �$B=(?M�(B�$B!&�(B (�$B?@8MBg1!2J5;%$%N%Y�(B/�$B@hC | SY-57 | catalytic membrane reactor
organic hydride
hydrogen storage
| 6/15
16:16:37 |
|---|
Catalytic upgrading (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-64 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 121 | In-situ catalytic upgrading of bio-oil over metal-doped hierarchical HZSM-5 catalyst
(�$B90A0BgM}9)�(B) (�$B3X�(B)�$B!{�(BNichaboon Chaihad�$B!&�(B (�$B3X�(B)Aisikaer Anniwaer�$B!&�(B �$B2&�(B �$BD6�(B�$B!&�(B (�$B@D?98);:5;%;�(B) �$B3k@>�(B �$BM5�(B�$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 | SY-64 | Bio-oil
hierarchical HZSM-5
Catalytic upgrading
| 6/6
10:32:18 |
|---|
Catalytic wall plate reactor (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B HQ-15 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 295 | [�$B0MMj9V1i�(B] �$BG.!&J*2�$B2~
(�$B;:Am8&�(B) (�$B@5�(B)�$BJ!ED�(B �$B5.;K�(B | HQ-15 | Catalytic wall plate reactor
Assembly-type microreactor
Dry reforming of methane with CO2
| 6/12
10:34:05 |
|---|
Catechol (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-79 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 735 | �$BC4BN8GDj2=It0L$*$h$S@8BNJ,;RG'<1It0L$r$b$D9g@.9bJ,;R$N3+H/�(B
(�$BJ!2,Bg1!9)�(B) (�$B3X�(B)�$B!{D91:�(B �$B=(7{�(B�$B!&�(B (�$BJ!2,Bg9)�(B) (�$B@5�(B)�$B@%8M�(B �$B900l�(B�$B!&�(B (�$B@5�(B)�$BW"66�(B �$BM3H~;R�(B�$B!&�(B (�$B@5�(B)�$B?78M�(B �$B9@9,�(B | SY-79 | Catechol
Glycopolymer
coating
| 6/15
17:01:14 |
|---|
cathod active material (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-24 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 762 | �$BMOM;5^NdK!$K$h$k%/%m%`�(B (III) �$BE:2C%P%J%8%s;@1v%,%i%9$N9g@.!"$*$h$S%j%A%&%`%$%*%sEECS@56K3hJ*
(�$B6a5&Bg�(B) (�$B3X�(B)�$B!{>>Gw�(B �$B=Y2p�(B�$B!&�(B �$BA}ED�(B �$B:L2V�(B�$B!&�(B (�$B3X�(B)�$B?yK\�(B �$BN�$B!&�(B (�$B3X�(B)�$B]/LZ�(B �$B5.5W�(B�$B!&�(B (�$B3X�(B)�$B:#B<�(B �$BNCB@�(B�$B!&�(B �$B@>ED�(B �$BE/L@�(B�$B!&�(B (�$B@5�(B)�$B2,�(B �$B?-?M�(B | ST-24 | Melt quenching method
Lithium-ion battery
cathod active material
| 6/15
17:44:19 |
|---|
cathode material (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-24 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 16 | Co-Ni@N doped carbon nanotubes: a promising cathode with excellent performance for lithium sulfur batteries
(�$B90A0BgM}9)�(B) (�$B3X�(B)�$B!{2&�(B �$B2B2B�(B�$B!&�(B (�$B3X�(B)�$B3Y�(B �$B4n4d�(B�$B!&�(B (�$B@5�(B)�$B�$B!&�(B �$BIp�(B �$B;V=S�(B�$B!&�(B (�$B90A0BgCO0h8&�(B) Amar M. Patil�$B!&�(B (�$B90A0BgM}9)�(B) �$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 | ST-24 | cathode material
Lithium Batteries
Co-Ni@N doped carbon nanotubes
| 5/13
16:44:34 |
|---|
| 68 | �$B%^%$%/%mGH2CG.$K$h$k%j%A%&%`%$%*%sEECSMQ�(BNMC811�$B@56K3hJ*
(�$B=;M'6bB09[;3�(B) (�$BK!�(B)�$B!{>.�$B!&�(B (�$BK!�(B)�$B6bED�(B �$B<#51�(B�$B!&�(B (�$BK!�(B)�$B1JED�(B �$B9@>O�(B | ST-23 | Microwave
cathode material
Lithium-ion battery
| 6/1
15:11:04 |
|---|
Causal Loop (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-76 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 47 | �$B0BA4J82=$N>z@.$H0];}6/2=$N$?$a$N=EE@
(�$BJ]0BNO�(B) (�$B@5�(B)�$B1'Ln�(B �$B8&0l�(B | SY-76 | Process Safety
Safety Culture
Causal Loop
| 5/27
11:43:40 |
|---|
cavitation (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-63 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 843 | �$BD62;GHL82=;~$N1UCf%-%c%S%F!<%7%g%s$N2;6A2=3XH/8w$K$h$k2D;k2=$H6/EYJ,I[$NDjNL�(B
(�$B�$B!&�(B (�$B3X�(B)�$B!{Fs5\�(B �$BBg�$B!&�(B (�$B@5�(B)�$B8^Eg�(B �$B?r�(B�$B!&�(B (�$B@5�(B)�$B?eED�(B �$B7I�(B | SY-63 | ultrasonic atomization
cavitation
sonochemiluminescence
| 6/15
20:51:18 |
|---|
CCU (5�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-75 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 48 | [�$BE8K>9V1i�(B] �$B?(G^H?1~9)3X$H>o29:nF0$N%a%?%s2=5;=Q$,Bs$/�(BCO2�$B;q8;2=%W%m%;%9$N6/2=�(B(PI)
(�$B@EBg1!�(B) (�$B@5�(B)�$BJ!86�(B �$BD9 | SY-63 | CCU
Auto-methana
Carbon capture
| 5/27
18:09:30 |
|---|
| 232 | �$BF<7O6&D@?(G^$N?75,9g@.K!$H$=$N?(G^FC@-�(B
(�$B6eBg�(B) (�$B@5�(B)�$B!{@F4V�(B �$BEy�(B�$B!&�(B (�$B@5�(B)�$B8M|b�(B �$B>;=S�(B�$B!&�(B (JFE�$B%9%A!<%k�(B) (�$BK!�(B)�$BLPLZ�(B �$B9/90�(B | HQ-11 | CCU
Fine Bubble
Co-precipitation
| 6/10
22:18:50 |
|---|
| 540 | [�$B0MMj9V1i�(B] �$BD6NW3&�(BCO2�$B$NM-8zMxMQ$K$h$k?75,B?9&
(�$B9-Bg1!@h?JM}9)�(B) (�$B@5�(B)�$B1'I_�(B �$B0iCK�(B | HQ-15 | CCU
Supercritical carbon dioxide
Porous material
| 6/15
10:05:54 |
|---|
| 721 | �$B5U%1%_%+%k%k!<%T%s%0%W%m%;%9$K$h$k�(BCO2�$B$+$i�(BCO�$B$X$NJQ49$N8!F$�(B
(�$B4tIlBg9)�(B) (�$B3X�(B)�$B!{?@C+�(B �$B7{;y�(B�$B!&�(B (�$B@5�(B)�$B>.NS�(B �$B?.2p�(B�$B!&�(B (�$B@5�(B)�$BHDC+�(B �$B5A5*�(B�$B!&�(B (�$B@5�(B)�$BCf@n�(B �$BFsI'�(B�$B!&�(B (�$B@5�(B)�$B?\LV�(B �$B6G�(B | SY-75 | Chemical loop
CCU
| 6/15
16:31:20 |
|---|
| 756 | Direct carbon dioxide methanation in a calcium looping process using Ni-CaO-Y doped BaZrO3
(�$BElBg1!?7NN0h�(B) (�$B3X�(B)�$B!{�(BLee Jihan�$B!&�(B (�$B@5�(B)�$BBgM'�(B �$B=g0lO:�(B | ST-23 | CCU
Ca looping
Methanation
| 6/15
17:32:06 |
|---|
CCUS (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B HQ-11 (2�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 87 | �$B5[CeB%?J7?5U%7%U%H%W%m%;%9$K$h$kDc29�(BCO�$B@=B$�(B
(�$BF|N)@=:n=j�(B) (�$B@5�(B)�$B!{5H@n�(B �$B98J?�(B�$B!&�(B (�$BK!�(B)�$B>.Ln;{�(B �$BBg9d�(B�$B!&�(B (�$BK!�(B)�$B>.ED�(B �$BM[G7�(B�$B!&�(B (�$BK!�(B)�$B73;J�(B �$B>O�(B�$B!&�(B (�$BK!�(B)�$B1':,K\�(B �$BFF�(B�$B!&�(B (�$BK!�(B)�$B?y@/�(B �$B>;=S�(B | HQ-11 | CCUS
Sorption Enhanced Reaction
Reverse Water Gas Shift
| 6/3
15:13:43 |
|---|
| 244 | [�$B0MMj9V1i�(B] �$BF|4x%0%k!<%W$N�(BCCUS�$B$KBP$9$k
(�$BF|4x%0%m!<%P%k�(B) (�$B@5�(B)�$BF#B<�(B �$BLw�(B | HQ-11 | CCUS
| 6/11
11:57:03 |
|---|
CDR grafting (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-69 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 428 | CDR�$B%0%i%U%F%#%s%05;=Q$rMQ$$$?%&%5%.�(BscFv�$B$NFC0[@-JQ49�(B
(�$B5~9)A!Bg1!9)7]�(B) (�$B3X�(B)�$BCfHx�(B �$B5.0l�(B�$B!&�(B (�$B3X�(B)�$B!{8^L#�(B �$BBg51�(B�$B!&�(B (�$B%G%s%+�(B) (�$BK!�(B)�$B0pLn�(B �$B9@0l�(B�$B!&�(B (�$BK!�(B)�$B>.3^86�(B �$B??Li�(B�$B!&�(B (�$BK!�(B)�$B8"J?�(B �$BJ8IW�(B�$B!&�(B (�$B5~9)A!Bg1!9)7]�(B) (�$B@5�(B)�$BKYFb�(B �$B=_0l�(B�$B!&�(B (�$B@5�(B)�$B7'ED�(B �$BM[0l�(B | SY-69 | Immunoassay
CDR grafting
scFv
| 6/12
22:00:07 |
|---|
cell analysis (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-73 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 374 | �$B@:L)6bB0%a%C%7%e$r1~MQ$7$?:YK&$NJ,N%!&J,@O%G%P%$%93+H/$X8~$1$?8!F$�(B
(�$B6eBg1!9)�(B) (�$B3X�(B)�$B!{1dW"�(B �$B0l�$B!&�(B (�$B@5�(B)�$B@1Ln�(B �$BM'�(B�$B!&�(B (�$B@5�(B)�$B;01:�(B �$B2B;R�(B | SY-73 | cell separation
microfluidic device
cell analysis
| 6/12
17:11:56 |
|---|
cell membrane (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-79 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 219 | �$B%J%NN3;R$HHyl0u2C$rMxMQ$7$?:YK&KlF)2a@-$N8~>e�(B
(�$B:eI\Bg9)�(B) (�$B3X�(B)�$B!{2,B<�(B �$BBs3$�(B�$B!&�(B (�$B:eI\Bg�(B) (�$B@5�(B)�$BCgB<�(B �$B1QLi�(B�$B!&�(B (�$B@5�(B)�$BBg:j�(B �$B=$;J�(B�$B!&�(B (�$B@5�(B)�$BLJLn�(B �$BE/�(B | SY-79 | cell membrane
nanoparticle
electric field
| 6/10
15:29:30 |
|---|
cell patterning (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-69 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 769 | �$B4I9PMM9=B$$rM-$9$kFbHi:YK&%M%C%H%o!<%/7A@.�(B
(�$B6eBg1!9)�(B) (�$B3X�(B)�$B!{0KF#�(B �$BBY2f�(B�$B!&�(B (�$B@5�(B)�$B:f�(B �$BM5Je�(B�$B!&�(B (�$B@5�(B)�$B0fEh�(B �$BGnG7�(B | SY-69 | endothelial cells
cell patterning
lumen
| 6/15
18:06:09 |
|---|
cell processing (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-69 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 713 | �$B%7%j%3!<%s%9%]%s%8$rMQ$$$k:YK&$N8zN(E*JaB*!&@w?'%W%m%;%9�(B
(�$B@iMUBg1!9)�(B) (�$B3X�(B)�$B!{;01:�(B �$B:ZE&�(B�$B!&�(B (�$B@5�(B)�$B;3ED�(B �$B??@!�(B�$B!&�(B �$B1-F,�(B �$BM}7C�(B�$B!&�(B (�$B@5�(B)�$B4X�(B �$B | SY-69 | cell processing
multi-step medium exchange
porous polydimethylsiloxane
| 6/15
16:16:11 |
|---|
cell separation (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-73 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 374 | �$B@:L)6bB0%a%C%7%e$r1~MQ$7$?:YK&$NJ,N%!&J,@O%G%P%$%93+H/$X8~$1$?8!F$�(B
(�$B6eBg1!9)�(B) (�$B3X�(B)�$B!{1dW"�(B �$B0l�$B!&�(B (�$B@5�(B)�$B@1Ln�(B �$BM'�(B�$B!&�(B (�$B@5�(B)�$B;01:�(B �$B2B;R�(B | SY-73 | cell separation
microfluidic device
cell analysis
| 6/12
17:11:56 |
|---|
cellulose (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-54 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 89 | �$BJ.L84%AgK!$K$h$k;@2=E4$H%;%k%m!<%9%J%N%U%!%$%P!<�(B �$B$rJ#9g$7$?%]!<%i%9HyN3;R$N9g@.$HFC@-I>2A�(B
(�$B9-Bg@h?JM}9)�(B) (�$B3X�(B)�$B!{K-ED�(B �$BMTJ?�(B�$B!&�(B Annie M. R.�$B!&�(B (�$BBh0l9)6H@=Lt�(B) (�$BK!�(B)�$BKLB<�(B �$BIpBg�(B�$B!&�(B (�$BK!�(B)�$B8e5o�(B �$BMN2p�(B�$B!&�(B (�$BK!�(B)�$B?9ED�(B �$BM4;R�(B�$B!&�(B (�$B9-Bg@h?JM}9)�(B) (�$B@5�(B)�$B2.�(B �$B?r�(B | SY-54 | cellulose
protein adsorption
spray dry
| 6/3
17:20:45 |
|---|
cellulose composite (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-64 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 349 | �$BC]$+$i$N8GBN%;%k%m!<%9C1N%$H
(�$BKLBg1!9)�(B) (�$B3X�(B)�$B!{>>K\�(B �$BH~NC�(B�$B!&�(B (�$B3X�(B)�$B@P4]�(B �$BM5Li�(B�$B!&�(B (�$B@5�(B)�$B5H@n�(B �$BBvLi�(B�$B!&�(B (�$B@5�(B)�$BCf:d�(B �$BM$B@�(B�$B!&�(B (�$B6a5&BgG@�(B) �$B0f>e�(B �$B>�$B!&�(B (�$BKLBg1!9)�(B) �$B:4F#�(B �$BB@M5�(B�$B!&�(B (�$B@5�(B)�$BA}ED�(B �$BN4IW�(B | SY-64 | organosolv treatment
cellulose composite
bamboo
| 6/12
16:01:27 |
|---|
Cellulose derivative (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-62 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 288 | [�$B0MMj9V1i�(B] �$B?75,%;%k%m!<%9M6F3BN$rMQ$$$??e=hM}Kl$N3+H/�(B
(�$B%@%$%;%k�(B) (�$BK!�(B)�$B!{IMED�(B �$BK-;0�(B�$B!&�(B (�$BK!�(B)�$B9bHx�(B �$BfFB@�(B�$B!&�(B (�$BK!�(B)�$B-1Q�(B�$B!&�(B (�$BK!�(B)�$BBgDZ�(B �$B@i9I�(B | SY-62 | Cellulose derivative
Chemical resistance
High flux
| 6/12
07:13:44 |
|---|
cellulose nanofiber (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-79 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 651 | �$B%;%k%m!<%9%J%N%U%!%$%P!2A�(B
(�$BAO2ABg1!M}9)�(B) (�$B3X�(B)�$B!{�$B!&�(B (�$BAO2ABgM}9)�(B) �$B;38}�(B �$BNJ?M�(B�$B!&�(B (�$BAO2ABg1!M}9)�(B) �$B@>�(B �$B7rEM�(B�$B!&�(B (�$BAO2ABgM}9)�(B) (�$B@5�(B)�$B0fED�(B �$B=\0l�(B�$B!&�(B (�$B@5�(B)�$B>>;3�(B �$BC#�(B | SY-79 | cellulose nanofiber
thermoresopnsive gel
IPN structure
| 6/15
14:50:13 |
|---|
Cement and FRP (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-84 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 157 | �$B2sJ,<0%Q%s7?B$N35!$rMQ$$$?GQ�(BFRP�$B%;%a%s%H?M9)9|:`$N:n@=�(B
(�$BElM}Bg1!9)�(B) (�$B3X�(B)�$B!{1F;3�(B �$BC#Li�(B�$B!&�(B (�$BElM}Bg9)�(B) (�$B@5�(B)�$BB<>e�(B �$BM5:H�(B�$B!&�(B (�$B@5�(B)�$BG;OB�(B�$B!&�(B (�$B@5�(B)�$B>>@n�(B �$BGnN<�(B�$B!&�(B (�$B@5�(B)�$BBgC]�(B �$B>!?M�(B�$B!&�(B (�$B@5�(B)�$B>1Ln�(B �$B8|�(B | SY-84 | Pelletization
Cement and FRP
Artificial aggregate
| 6/8
16:45:08 |
|---|
central metals (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-22 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 414 | �$B%Z%m%V%9%+%$%HGvKl$NCf?46bB0
(�$B5~Bg9)�(B) (�$B3X�(B)�$B!{>>ED�(B �$BK(�(B�$B!&�(B (�$B3X�(B)�$BB<>e�(B �$BM@5*�(B�$B!&�(B (�$B3X�(B)�$B>>B<�(B �$BFn7n�(B�$B!&�(B (�$B@5�(B)�$B2O@%�(B �$B85L@�(B | ST-22 | CVD
perovskite
central metals
| 6/12
20:06:13 |
|---|
CeO2 (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-22 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 686 | �$B2P1jJ.L8G.J,2rK!$K$h$k�(BNi�$BC4;}�(BCeO2�$B$N�(BNi�$BHyN32=$H9bC4;}NL2=�(B
(�$B;37ABg1!M}9)�(B) (�$B@5�(B)�$BF#86�(B �$BfF�(B | ST-22 | Ni
CeO2
Flame spray pyrolysis
| 6/15
15:29:10 |
|---|
ceramic nanoparticle (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-80 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 532 | �$B%;%i%_%C%/%9%J%N%3%s%]%8%C%H6K>.6JLLGvKl$N9g@.�(B
(�$BL>Bg1!9)�(B) (�$B@5�(B)�$B!{|b8+�(B �$B@?0l�(B�$B!&�(B �$B9b0f�(B �$BN&EM�(B�$B!&�(B �$B5H86�(B �$BE5><�(B | SY-80 | minimal surface
nanocomposite film
ceramic nanoparticle
| 6/15
09:38:26 |
|---|
cerium oxide (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-74 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 287 | �$B%5%$%:!&J,I[$N@)8f$K8~$1$?FsCJ%U%m!2�$B%J%NN3;R$N?eG.9g@.�(B
(�$BEl9)Bg1!J*�$B!&�(B (�$BElBg1!?7NN0h�(B) (�$B@5�(B)�$B=)7n�(B �$B?.�(B�$B!&�(B (�$B@5�(B)�$BBgEg�(B �$B5A?M�(B | SY-74 | Hydrothermal synthesis
cerium oxide
dual-stage flow reactor
| 6/11
21:48:00 |
|---|
| 336 | �$B%1%_%+%k%k!<%T%s%07?Dc29%a%?%s2~
(�$BElKLBg1!9)�(B) (�$B3X�(B)�$B!{9uED�(B �$BM*2p�(B�$B!&�(B (�$BElKLBg�(BNICHe) (�$B@5�(B)�$B@.�(B �$B4pL@�(B�$B!&�(B (�$BElKLBg�(BWPI-AIMR) (�$B@5�(B)�$B2#�(B �$BE/�(B�$B!&�(B (�$BElKLBgB?858&�(B) (�$B@5�(B)�$Bcx5o�(B �$B9bL@�(B�$B!&�(B(�$BElKLBg�(BWPI-AIMR/�$BElKLBgB?858&�(B/�$BElKLBg�(BNICHe) (�$B@5�(B)�$B0$?,�(B �$B2mJ8�(B | SY-63 | chemical looping methane reforming
kinetic analysis
Cerium oxide
| 6/12
15:25:45 |
|---|
cesium ion (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-79 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 255 | �$B%l%>%k%7%N!<%k!&%[%k%`%"%k%G%R%I5e>u%$%*%s8r49%2%k$N:n@=$H%;%7%&%`%$%*%s5[CeFC@-I>2A�(B
(�$BJ<8K8)Bg1!9)�(B) (�$B3X�(B)�$B!{]/LZ�(B �$BN4�$B!&�(B (�$B@5�(B)�$BED8}�(B �$BfF8g�(B�$B!&�(B (�$B@5�(B)�$B;3K\�(B �$BBs;J�(B�$B!&�(B (�$B@5�(B)�$B0KF#�(B �$BOB9(�(B�$B!&�(B (�$B@5�(B)�$BA0ED�(B �$B8w<#�(B | SY-79 | cesium ion
spherical adsorbent
particle size distribution
| 6/11
15:11:49 |
|---|
CFD (4�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-55 (3�$B7o�(B), SY-65 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 612 | �$B=
(�$B5~Bg1!9)�(B) (�$B3X�(B)�$B!{KL@n�(B �$B>=Bg�(B�$B!&�(B (�$B@5�(B)�$BEBB<�(B �$B=$�(B�$B!&�(B (�$B@5�(B)�$BKR�(B �$BBYJe�(B�$B!&�(B (�$B@5�(B)�$B30NX�(B �$B7r0lO:�(B | SY-65 | packed bed reactors
CFD
process design
| 6/15
13:22:53 |
|---|
| 695 | �$B8GBNN3;R$N1tD>G;EYJ,I[$HAeDl$+$i$NIbM7%a%+%K%:%`$N%i%0%i%s%8%"%s2r@O$K$h$k8!F$�(B
(�$B2#9qBg1!9)�(B) (�$B3X�(B)�$B!{9uED�(B �$B@;?M�(B�$B!&�(B �$B:#0f�(B �$B=SG72p�(B�$B!&�(B (�$B2#9qBg9)�(B) (�$B@5�(B)�$B;03Q�(B �$BN4B@�(B�$B!&�(B (�$B@5�(B)�$B>e%N;3�(B �$B<~�(B | SY-55 | CFD
mixing
particle suspension
| 6/15
15:44:50 |
|---|
| 753 | �$B3F.7?Mc$rMQ$$$?AXN.3IYBAeFb$N6I=jN.BNJQ7AB.EY$N�(BCFD�$B$K$h$kDjNL2=�(B
(�$B2#9qBgM}9)�(B) (�$B3X�(B)�$B!{>.@n�(B �$B2F�$B!&�(B (�$B2#9qBg9)�(B) (�$B@5�(B)�$B;03Q�(B �$BN4B@�(B�$B!&�(B (�$B@5�(B)�$B>e%N;3�(B �$B<~�(B | SY-55 | mixing
CFD
deformation rate
| 6/15
17:26:34 |
|---|
| 833 | [�$BE8K>9V1i�(B] �$B3IYBAe7?H?1~4o$N%G%8%?%k%D%$%s5;=Q$rL\;X$7$F�(B
(�$B2#9qBg1!9)�(B) (�$B@5�(B)�$B;03Q�(B �$BN4B@�(B | SY-55 | Digital Twin
Mixing
CFD
| 6/15
20:31:53 |
|---|
cfrp (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B HQ-15 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 50 | [�$B0MMj9V1i�(B] �$B%5%9%F%J%V%k$K9W8%$9$kC:AGA!0]$*$h$S�(BCFRP�$B3+H/�(B
(�$BL>Bg1!9)�(B) (�$B@5�(B)�$BF~_7�(B �$B | HQ-15 | Carbon fiber
CFRP
Sustainable
| 5/28
11:32:01 |
|---|
| 501 | �$B=$I|:^F~$j%^%$%/%m%+%W%;%k$rF3F~$7$?C:AGA!0]6/2=%W%i%9%A%C%/$N�(B3�$BE@6J$2;n83$K$h$k<+8J=$I|G=NO$NI>2A�(B
(�$B�$B!&�(B (�$B@5�(B)�$BBg3Q�(B �$B5A9@�(B�$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 �$B900lO:�(B�$B!&�(B (�$B�$B!&�(B (�$B@5�(B)�$B5HED�(B �$B>;90�(B | SY-79 | microcapsule
self-healing
cfrp
| 6/14
20:51:49 |
|---|
CFRTP (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-79 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 218 | �$B%J%N%\%$%I$,�(BCFRTP�$B$NNO3XFC@-$K5Z$\$91F6A�(B
(�$BL>Bg9)2=@8�(B) (�$B3X�(B)�$B!{;{ED�(B �$BM*8g�(B�$B!&�(B (�$B@5�(B)�$B;3K\�(B �$BE0Li�(B | SY-79 | CFRTP
PMMA
Hollow particles
| 6/10
15:27:53 |
|---|
CH3SiCl3 (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-22 (2�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 665 | SiC-CVI�$B%W%m%;%9$K$*$1$kI=LLH?1~$N%b%G%k2=$K8~$1$?H?1~2aDx$NM}O@8!F$�(B
(�$BElBg1!9)�(B) (�$B3X�(B)�$B!{:4F#�(B �$BEP�(B�$B!&�(B (�$B3X�(B)�$BBg9b�(B �$BM:J?�(B�$B!&�(B (�$B3X�(B)�$B0B<#�(B �$BNKM4�(B�$B!&�(B (IHI) (�$B@5�(B)�$BJ!Eg�(B �$B9/G7�(B�$B!&�(B (�$BElBg1!9)�(B) (�$B@5�(B)�$B=P1:�(B �$BEm;R�(B�$B!&�(B (�$B@5�(B)�$BI4@%�(B �$B7r�(B�$B!&�(B (�$B@5�(B)�$BAz3@�(B �$B9,9@�(B | ST-22 | CH3SiCl3
SiC CVI
surface reaction
| 6/15
15:01:36 |
|---|
| 682 | SiC-CVI�$B%W%m%;%9$K$*$1$kM}O@E*8!F$$K4p$E$$$?I=LLH?1~%b%G%k$N9=C[�(B
(�$BElBg1!9)�(B) (�$B3X�(B)�$B!{:4F#�(B �$BEP�(B�$B!&�(B (�$B3X�(B)�$B:,El�(B �$B2B;K�(B�$B!&�(B (�$B3X�(B)�$BBg9b�(B �$BM:J?�(B�$B!&�(B (�$B3X�(B)�$B0B<#�(B �$BNKM4�(B�$B!&�(B (�$B@5�(B)�$BJ!Eg�(B �$B9/G7�(B�$B!&�(B (�$B@5�(B)�$B=P1:�(B �$BEm;R�(B�$B!&�(B (�$B@5�(B)�$BI4@%�(B �$B7r�(B�$B!&�(B (�$B@5�(B)�$BAz3@�(B �$B9,9@�(B | ST-22 | SiC-CVI
Surface reaction mechanism
CH3SiCl3
| 6/15
15:21:53 |
|---|
CHA membrane (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-61 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 359 | CHA�$BKl$N�(BCO2�$BJ,N%FC@-$N05NO0MB8@-$K4X$9$kJ,;RO@E*9M;!�(B
(�$B9)3X1!Bg@h?J9)�(B) (�$B3X�(B)�$B!{W"_7�(B �$B;KLi�(B�$B!&�(B (�$B@5�(B)�$B5\@n�(B �$B2mLp�(B�$B!&�(B (�$B@5�(B)�$B9b1)�(B �$BMN=<�(B | SY-61 | CHA membrane
Non equilibrium molecular dynamics
High pressure condition
| 6/12
16:23:43 |
|---|
channel blockage (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-65 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 197 | �$B%^%$%/%m%U%m!<%j%A%*2=H?1~$N1?E>0BDj2=5;=Q$N3+H/�(B
(JNC) (�$BK!�(B)�$B!{8EN$�(B �$B?-0l�(B�$B!&�(B (�$BK!�(B)�$B@nn5�(B �$B=S9T�(B�$B!&�(B (�$BK!�(B)�$BD.ED�(B �$BM%Li�(B | SY-65 | micro-flow
lithiation reaction
channel blockage
| 6/10
10:08:55 |
|---|
Chemical absorption (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B HQ-11 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 848 | �$BMM!9$J�(BCO2�$BJ,05$K$*$$$F�(BCO2�$B$r2D5U5[<}2DG=$J29EY1~Ez@-%"%_%s4^M-%^%$%/%m%2%kN3;R$N@_7W�(B
(Kyushu U.) (�$B3X�(B)�$B!{K\ED�(B �$BN5B@O/�(B�$B!&�(B �$BIM:j�(B �$B1{�(B�$B!&�(B (�$B@5�(B)�$B;01:�(B �$B2B;R�(B�$B!&�(B (�$B@5�(B)�$B@1Ln�(B �$BM'�(B | HQ-11 | CO2 separation
Chemical absorption
pKa
| 6/15
21:11:30 |
|---|
Chemical absorption method (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-51 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 733 | �$B2=3X5[<}K!$K$h$kFs;@2=C:AG2s<}%W%m%;%9$N@_7W!&3+H/$KI,MW$J5$1UJ?9U$NB,Dj$HAj4X�(B
(�$BF|BgM}9)�(B) (�$B3X�(B)�$B!{C]Fb�(B �$B4u�$B!&�(B (�$B3X�(B)�$BNS�(B �$BM%0l�(B�$B!&�(B (�$B@5�(B)�$B>>ED�(B �$B909,�(B�$B!&�(B (�$BAaBgAOB$M}9)�(B) (�$B3X�(B)�$B0kC+�(B �$B9@9'�(B�$B!&�(B (�$B@5�(B)�$BCf3@�(B �$BN4M:�(B�$B!&�(B (�$BF|BgM}9)�(B) (�$B@5�(B)�$B7*86�(B �$B@6J8�(B�$B!&�(B (�$B@5�(B)�$BFJLZ�(B �$B>!8J�(B | SY-51 | Vapor-liquid equilibria
Carbon dioxide
Chemical absorption method
| 6/15
17:00:28 |
|---|
chemical heat (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-56 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 609 | Al-Si�$B9g6b7O@xG.C_G.%^%$%/%m%+%W%;%k$X$N�(BCaO�$B%3!<%F%#%s%0$K$h$k%O%$%V%j%C%IC_G.:`NA$N3+H/�(B
(�$BKLBg1!9)�(B) (�$B3X�(B)�$B!{>.=P�(B �$B9@L@�(B�$B!&�(B (�$B3X�(B)�$B9b66�(B �$BC#Li�(B�$B!&�(B (�$B3X�(B)�$B:d0f�(B �$B9@5*�(B�$B!&�(B �$B%"%G�(B �$B%/%k%K%"%o%s�(B�$B!&�(B (�$B@5�(B)�$BG=B<�(B �$B5.9(�(B | SY-56 | heat storage material
latent heat
chemical heat
| 6/15
13:16:58 |
|---|
Chemical loop (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-75 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 342 | �$BJ#9g%J%N?(G^$K$h$k%a%?%s2~
(�$BElKLBg9)�(B) (�$B3X�(B)�$B!{8E20�(B �$B^+�(B�$B!&�(B (�$BElKLBgB?858&�(B) (�$B@5�(B)�$Bcx5o�(B �$B9bL@�(B�$B!&�(B (�$BElKLBg�(BNICHe) (�$B@5�(B)�$B@.�(B �$B4pL@�(B�$B!&�(B (�$BElKLBg�(BWPI) (�$B@5�(B)�$B2#�(B �$BE/�(B�$B!&�(B (�$B@5�(B)�$B0$?,�(B �$B2mJ8�(B | SY-64 | chemical loop
methane reforming
metal supported
| 6/12
15:41:40 |
|---|
| 721 | �$B5U%1%_%+%k%k!<%T%s%0%W%m%;%9$K$h$k�(BCO2�$B$+$i�(BCO�$B$X$NJQ49$N8!F$�(B
(�$B4tIlBg9)�(B) (�$B3X�(B)�$B!{?@C+�(B �$B7{;y�(B�$B!&�(B (�$B@5�(B)�$B>.NS�(B �$B?.2p�(B�$B!&�(B (�$B@5�(B)�$BHDC+�(B �$B5A5*�(B�$B!&�(B (�$B@5�(B)�$BCf@n�(B �$BFsI'�(B�$B!&�(B (�$B@5�(B)�$B?\LV�(B �$B6G�(B | SY-75 | Chemical loop
CCU
| 6/15
16:31:20 |
|---|
chemical looping methane reforming (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-63 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 336 | �$B%1%_%+%k%k!<%T%s%07?Dc29%a%?%s2~
(�$BElKLBg1!9)�(B) (�$B3X�(B)�$B!{9uED�(B �$BM*2p�(B�$B!&�(B (�$BElKLBg�(BNICHe) (�$B@5�(B)�$B@.�(B �$B4pL@�(B�$B!&�(B (�$BElKLBg�(BWPI-AIMR) (�$B@5�(B)�$B2#�(B �$BE/�(B�$B!&�(B (�$BElKLBgB?858&�(B) (�$B@5�(B)�$Bcx5o�(B �$B9bL@�(B�$B!&�(B(�$BElKLBg�(BWPI-AIMR/�$BElKLBgB?858&�(B/�$BElKLBg�(BNICHe) (�$B@5�(B)�$B0$?,�(B �$B2mJ8�(B | SY-63 | chemical looping methane reforming
kinetic analysis
Cerium oxide
| 6/12
15:25:45 |
|---|
Chemical modification (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-75 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 297 | �$B?e;@2=%i%s%?%s$NC&?e�(B/�$B?eOBH?1~$K4X$9$k6bB01vE:2C$N1F6A�(B
(�$B@iMUBg1!9)�(B) (�$B3X�(B)�$B!{2OLn�(B �$B=S2p�(B�$B!&�(B (�$B3X�(B)�$B9uBt�(B �$BNJ�(B�$B!&�(B (�$B@5�(B)�$BN-�(B �$B=f0l�(B | SY-75 | Thermochemical Energy Storage
Lanthanum Hydroxide
Chemical modification
| 6/12
10:57:34 |
|---|
Chemical resistance (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-62 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 288 | [�$B0MMj9V1i�(B] �$B?75,%;%k%m!<%9M6F3BN$rMQ$$$??e=hM}Kl$N3+H/�(B
(�$B%@%$%;%k�(B) (�$BK!�(B)�$B!{IMED�(B �$BK-;0�(B�$B!&�(B (�$BK!�(B)�$B9bHx�(B �$BfFB@�(B�$B!&�(B (�$BK!�(B)�$B-1Q�(B�$B!&�(B (�$BK!�(B)�$BBgDZ�(B �$B@i9I�(B | SY-62 | Cellulose derivative
Chemical resistance
High flux
| 6/12
07:13:44 |
|---|
Chemical risk assessment (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-76 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 441 | �$B2=3XJ*
(�$B0B1R8&�(B) (�$B@5�(B)�$B!{EgED�(B �$B9T63�(B�$B!&�(B (�$B@5�(B)�$B:4F#�(B �$B2EI'�(B�$B!&�(B �$B9b66�(B �$BL@;R�(B | SY-76 | Chemical risk assessment
Scenario identification
Fire and explosion prevention
| 6/13
11:56:53 |
|---|
Chemical vapor deposion (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-79 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 234 | �$BN.F0AX$K$h$k6bB0>K;@1v%_%9%H$+$i$N?(G^C4;}$HD9<\%+!<%\%s%J%N%A%e!<%V$NN.F0AX9g@.�(B
(�$BAaBg@h?JM}9)�(B) (�$B3X�(B)�$B!{Gr@n�(B �$B42?M�(B�$B!&�(B (�$BAaBgM}9)Am8&�(B) Li Mochen�$B!&�(B (�$BAaBg@h?JM}9)�(B) (�$B@5�(B)�$B?yL\�(B �$B91;V�(B�$B!&�(B (�$B@5�(B)�$BBgBt�(B �$BMxCK�(B�$B!&�(B (�$B@5�(B)�$BLnED�(B �$BM%�(B | SY-79 | Carbon nanotube
Fluidized bed
Chemical vapor deposion
| 6/10
22:52:36 |
|---|
chemical vapor deposition (3�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-21 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 337 | �$BBg5$05%W%i%:%^�(BCVD�$B$rMQ$$$?J,;R$U$k$$%7%j%+Kl$N5$BNF)2aFC@-$H9=B$@)8f�(B
(�$B9-Bg1!9)�(B) (�$B3X�(B)�$B!{EPHx�(B �$BBs;K�(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)�$BETN1�(B �$BL-N;�(B | ST-21 | atmospheric plasma
chemical vapor deposition
silica membrane
| 6/12
15:28:33 |
|---|
| 365 | [�$B0MMj9V1i�(B] �$BC:AG:`NAFbIt$X$NL55!J*
(�$BKLBg1!9)�(B) (�$B@5�(B)�$B4dB<�(B �$B?60lO:�(B | HQ-15 | Supercapacitor
Chemical Vapor Deposition
Electrochemical Deposition
| 6/12
16:40:08 |
|---|
| 504 | Time-evolution of film thickness profiles by level set method during CVD multiscale simulation
(�$BElBg1!9)�(B) (�$B3X�(B)�$B!{�(BZhang Jin�$B!&�(B (�$B@5�(B)�$B=P1:�(B �$BEm;R�(B�$B!&�(B (�$B@5�(B)�$BI4@%�(B �$B7r�(B�$B!&�(B (�$B@5�(B)�$BAz3@�(B �$B9,9@�(B | ST-22 | multiscale simulation
chemical vapor deposition
level set method
| 6/14
21:37:39 |
|---|
chemical vapor infiltration (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-22 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 822 | �$B%F%H%i%a%A%k%7%i%s$rMQ$$$?1vAG%U%j!<$J2=3X5$Aj4^?;K!$K$h$k�(BSiCf/SiC�$B$N@=B$�(B
(�$BElBg1!9)�(B) (�$B3X�(B)�$B!{0B<#�(B �$BNKM4�(B�$B!&�(B (�$B3X�(B)�$BBg9b�(B �$BM:J?�(B�$B!&�(B (�$B3X�(B)�$B:4F#�(B �$BEP�(B�$B!&�(B (IHI) (�$B@5�(B)�$BJ!Eg�(B �$B9/G7�(B�$B!&�(B (�$BElBg1!9)�(B) (�$B@5�(B)�$B=P1:�(B �$BEm;R�(B�$B!&�(B (�$B@5�(B)�$BI4@%�(B �$B7r�(B�$B!&�(B (�$B@5�(B)�$BAz3@�(B �$B9,9@�(B | ST-22 | SiC
chemical vapor infiltration
tetramethylsilane
| 6/15
19:47:07 |
|---|
Chemically Ordered Structure (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-24 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 610 | Structural Control of Connected Pt-Co catalysts for Enhanced Oxygen Reduction Performances
(Tokyo Tech) (�$B3$�(B)�$B!{�(BLiao Qiancheng�$B!&�(B (KISTEC/Tokyo Tech) (�$B@5�(B)Kuroki Hidenori�$B!&�(B (Tokyo Tech/KISTEC) (�$B@5�(B)Tamaki Takanori�$B!&�(B (�$B@5�(B)Yamaguchi Takeo | ST-24 | Polymer Electrolyte Fuel Cell
Carbon-Free
Chemically Ordered Structure
| 6/15
13:18:23 |
|---|
| 872 | PEFC�$BMQ9bBQ5W;@AG4T85?(G^$N$?$a$ND63J;R�(BPt-Fe�$B%J%NN3;RO"7k?(G^$N3+H/�(B
(KISTEC/�$BEl9)Bg�(B) (�$B@5�(B)�$B!{9uLZ�(B �$B=(5-�(B�$B!&�(B (�$BEl9)Bg�(B) �$B0fB<�(B �$BM*�(B�$B!&�(B �$BF#ED�(B �$BNK2p�(B�$B!&�(B (KISTEC/�$BEl9)Bg�(B) (�$B@5�(B)�$BED4,�(B �$B9'7I�(B�$B!&�(B (�$B@5�(B)�$B;38}�(B �$BLT1{�(B | ST-23 | Polymer Electrolyte Fuel Cell
Chemically Ordered Structure
Load Cycle Durability
| 6/15
22:31:28 |
|---|
Chemicals (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-64 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 819 | �$B?(G^$rMQ$$$?%-%A%s$+$i$NM-MQ2=3XJ*
(�$B;:Am8&�(B/�$B%A%e%i%m%s%3%sBg�(B) Kun-asa Kodchakon�$B!&�(B (�$B;:Am8&�(B) �$B;3:j�(B �$B@69T�(B�$B!&�(B (�$B@5�(B)�$B;0B<�(B �$BD>�$B!&�(B (�$B@5�(B)�$B:4F#�(B �$B=$�(B�$B!&�(B (�$B%A%e%i%m%s%3%sBg�(B) Reubroycharoen Prasert�$B!&�(B (�$B;:Am8&�(B) (�$B@5�(B)�$B!{;38}�(B �$BM-J~�(B | SY-64 | Chitin
Catalytic conversion
Chemicals
| 6/15
19:37:18 |
|---|
Chemoenzymatic synthesis (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-83 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 113 | [�$B>7BT9V1i�(B] �$B2=3X9ZAG%W%m%;%9$K$h$kE|
(�$BJ!EgBgG@�(B) �$BHx7A�(B �$B?5�(B | SY-83 | Carbohydrate chemistry
Chemoenzymatic synthesis
Molecular recognition
| 6/5
16:19:11 |
|---|
Chinese hamster ovary cell (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-69 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 660 | Chinese hamster ovary cell�$B$rMQ$$$?%5%aM3Mh=E:?93BN@8;:$K$*$1$kCGJR2=$NM^@)�(B
(�$B:eBg1!9)�(B) (�$B3X�(B)�$B!{5HED�(B �$B5.H~�(B�$B!&�(B �$B9>2F�(B �$B:s�(B�$B!&�(B (�$B3X�(B)�$B2,K\�(B �$BF`;R�(B�$B!&�(B (�$B@5�(B)�$B;3Ln�(B-�$BB-N)�(B �$BHO;R�(B�$B!&�(B �$B8E2l�(B �$BM:0l�(B�$B!&�(B (�$B@5�(B)�$BBg@/�(B �$B7r;K�(B | SY-69 | Chinese hamster ovary cell
Shark-derived heavy chain antibody
fragmentation
| 6/15
14:58:24 |
|---|
Chitin (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-64 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 819 | �$B?(G^$rMQ$$$?%-%A%s$+$i$NM-MQ2=3XJ*
(�$B;:Am8&�(B/�$B%A%e%i%m%s%3%sBg�(B) Kun-asa Kodchakon�$B!&�(B (�$B;:Am8&�(B) �$B;3:j�(B �$B@69T�(B�$B!&�(B (�$B@5�(B)�$B;0B<�(B �$BD>�$B!&�(B (�$B@5�(B)�$B:4F#�(B �$B=$�(B�$B!&�(B (�$B%A%e%i%m%s%3%sBg�(B) Reubroycharoen Prasert�$B!&�(B (�$B;:Am8&�(B) (�$B@5�(B)�$B!{;38}�(B �$BM-J~�(B | SY-64 | Chitin
Catalytic conversion
Chemicals
| 6/15
19:37:18 |
|---|
chitin and chitosan (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B HQ-14 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 31 | [�$B=w@->^�(B] �$B2=>QIJ%W%m%8%'%/%H%j!<%@!<$H$7$F$N3hF0�(B
(�$BKL3$F;AbC#�(B) (�$B@5�(B)�$BKL_7�(B �$BM3M|0!�(B | HQ-14 | unutilized resources
chitin and chitosan
gender equality
| 5/18
16:37:18 |
|---|
chitosan (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-78 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 353 | CO2�$B$rMQ$$$?�(BpH�$B%9%$%C%A%s%0$K$h$k�(BDDS�$B$N$?$a$N%-%H%5%s%2%kD4@=�(B
(�$BElM}Bg�(B) (�$B3X�(B)�$B!{>>2,�(B �$BG+7C�(B�$B!&�(B (�$B@5�(B)�$B>>@n�(B �$BGnN<�(B�$B!&�(B (�$B@5�(B)�$BB<>e�(B �$BM5:H�(B�$B!&�(B (�$B@5�(B)�$B>1Ln�(B �$B8|�(B�$B!&�(B (�$B@5�(B)�$BBgC]�(B �$B>!?M�(B | SY-78 | ion-complex
chitosan
DDS
| 6/12
16:17:42 |
|---|
chitosan microgel (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-79 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 494 | Preparation of chitosan-magnetite microgels and their dye adsorption characteristics
(Tokyo City U.) (�$B3X�(B)�$B!{�(BKalidason Anchali�$B!&�(B (�$B@5�(B)Kuroiwa Takashi | SY-79 | chitosan microgel
adsorption isotherm
recyclability
| 6/14
17:53:40 |
|---|
chlorination (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-84 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 720 | �$B%S%9%^%9MOM;J*Cf$NHyNL%^%0%M%7%&%`$NJ,N%�(B
(�$B=)EDBg1!M}9)�(B) (�$B@5�(B)�$B!{2CF#�(B �$B5.9(�(B�$B!&�(B �$BBg@n�(B �$B9@0l�(B�$B!&�(B (�$B@5�(B)�$B?{86�(B �$B>!9/�(B�$B!&�(B (�$B=)ED9b@l�(B) �$BLnCf�(B �$BMx@%90�(B�$B!&�(B (TPR) �$BDEED�(B �$B2m;K�(B | SY-84 | chlorination
density separation
recycling
| 6/15
16:30:59 |
|---|
Chlorine (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B ST-23 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 286 | �$B3$?eEE2r$K$h$k?eAG@=B$$K$*$1$kBP6KH?1~$N@)8f�(B
(�$B;38}Bg1!AO@.�(B) (�$B@5�(B)�$B!{1sF#�(B �$B@kN4�(B�$B!&�(B �$BHDC+�(B �$B>0�$B!&�(B �$B2,K\�(B �$BM:Bg�(B�$B!&�(B �$BEDCf�(B �$BfF8c�(B�$B!&�(B �$B4_K\�(B �$B=(Bg�(B | ST-23 | Seawater electrolysis
Hydorogen generation
Chlorine
| 6/11
20:33:07 |
|---|
CHO cells (3�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-69 (3�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 641 | �$B%2%N%`0BDj2=$rL\;X$7$?�(BCHO�$B:YK&$K$*$1$k�(Bp21/p53�$B0dEA;R$N5!G=2r@O�(B
(�$B:eBg1!9)�(B) (�$B3X�(B)�$B!{8^I40f�(B �$BIw9a�(B�$B!&�(B Christopher Quach�$B!&�(B (�$B@5�(B)�$B;3Ln�(B-�$BB-N)�(B �$BHO;R�(B�$B!&�(B �$B8E2l�(B �$BM:0l�(B�$B!&�(B (�$B@5�(B)�$BBg@/�(B �$B7r;K�(B | SY-69 | CHO cells
genome instability
p21
| 6/15
14:35:46 |
|---|
| 642 | CHO�$B:YK&$K$*$1$k�(BERGIC-53�$B$N2a>jH/8=$,93BN$N@8;:@-$KM?$($k1F6A�(B
(�$B:eBg1!9)�(B) (�$B3X�(B)�$B!{6MK\�(B �$BK-�(B�$B!&�(B �$B9uED�(B �$B9751�(B�$B!&�(B (�$B3X�(B)Andrew Samy�$B!&�(B �$B8E2l�(B �$BM:0l�(B�$B!&�(B (�$B@5�(B)�$B;3Ln�(B-�$BB-N)�(B �$BHO;R�(B�$B!&�(B (�$B@5�(B)�$BBg@/�(B �$B7r;K�(B | SY-69 | CHO cells
biopharmaceuticals
protein secretion
| 6/15
14:35:50 |
|---|
| 643 | IgG�$B@8;::YK&3t9=C[$K$*$1$k0[?t@-�(BCHO�$B:YK&$N?M0YE*M6F3$N8z2L�(B
(�$B:eBg1!9)�(B) (�$B3X�(B)�$B!{H*�(B �$BE8;K�(B�$B!&�(B �$BCf@>�(B �$BM*?M�(B�$B!&�(B �$BEDCf�(B �$B9R�(B�$B!&�(B �$B8E2l�(B �$BM:0l�(B�$B!&�(B (�$B@5�(B)�$B;3Ln�(B-�$BB-N)�(B �$BHO;R�(B�$B!&�(B (�$B@5�(B)�$BBg@/�(B �$B7r;K�(B | SY-69 | CHO cells
aneuploidy
chromosome
| 6/15
14:35:50 |
|---|
cholesterol (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-69 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 509 | �$B%j%s;i
(�$BET;TBg1!AmM}9)�(B) (�$B3X�(B)�$B!{@n8}�(B �$BE/;K�(B�$B!&�(B (�$B@5�(B)�$B9u4d�(B �$B?r�(B | SY-69 | phosphatidylcholine
cholesterol
membrane fluidity
| 6/14
22:39:08 |
|---|
chromosome (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SY-69 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 643 | IgG�$B@8;::YK&3t9=C[$K$*$1$k0[?t@-�(BCHO�$B:YK&$N?M0YE*M6F3$N8z2L�(B
(�$B:eBg1!9)�(B) (�$B3X�(B)�$B!{H*�(B �$BE8;K�(B�$B!&�(B �$BCf@>�(B �$BM*?M�(B�$B!&�(B �$BEDCf�(B �$B9R�(B�$B!&�(B �$B8E2l�(B �$BM:0l�(B�$B!&�(B (�$B@5�(B)�$B;3Ln�(B-�$BB-N)�(B �$BHO;R�(B�$B!&�(B (�$B@5�(B)�$BBg@/�(B �$B7r;K�(B | SY-69 | CHO cells
aneuploidy
chromosome
| 6/15
14:35:50 |
|---|
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easp 2.46; update.pl 2.37 (C)1999-2015 kawase