 micro coating (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 8-f (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 474 | �$BD2Fb4D6-2~A1$rL\E*$H$7$?HyN3;R$N3+H/�(B
(�$BJ!2,Bg1!9)�(B) (�$B3X�(B)�$B!{8^Eh�(B �$BNC�(B�$B!&�(B (�$BJ!2,Bg9)�(B) (�$B@5�(B)Sharmin Tanjina�$B!&�(B (�$B@5�(B)�$BAjED�(B �$BBn�(B�$B!&�(B (�$B@5�(B)�$B;0Eg�(B �$B7r;J�(B | 8-f | carbon dioxide
micro coating
PGSS
| 12/22
16:16:14 |
|---|
micro pipettes (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 7-i (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 637 | �$B%G%e%"%k%T%Z%C%H$rMQ$$$?2=3X;I7c%7%9%F%`$NDjNLI>2A$H:YK&A`:n$X$N1~MQ�(B
(�$B:eBg1!4p9)�(B) (�$B@5�(B)�$B!{>.Eh�(B �$B>!�(B�$B!&�(B �$B0BN)�(B �$BN5B@O:�(B�$B!&�(B �$B1[=P�(B �$BOBKa�(B�$B!&�(B (�$B@5�(B)�$BCfH*�(B �$B2m�$B!&�(B (�$BEEDLBg�(B) �$B?70f�(B �$B7r@8�(B�$B!&�(B (�$B:eBg1!4p9)�(B) (�$B@5�(B)�$B6-�(B �$B?5;J�(B | 7-i | electro-osmosis
local environmental control
micro pipettes
| 12/22
23:35:47 |
|---|
micro-flow synthesis (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SS-2 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 51 | [�$B>7BT9V1i�(B] �$B%^%$%/%m%U%m!
(�$BL>Bg�(B) �$BI[;\�(B �$B?70lO:�(B | SS-2 | micro-flow synthesis
automated synthesis
drug development
| 12/13
20:21:40 |
|---|
Microalgae (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 7-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 443 | Targeted integration of transgene into a pre-defined genomic locus of Chlamydomonas reinhardtii
(Kyushu U.) (�$B3X�(B)�$B!{�(BHuang Guan�$B!&�(B (�$B@5�(B)Kawabe Yoshinori�$B!&�(B (�$B3X�(B)Shirakawa Kazuki�$B!&�(B Akiyama Tatsuki�$B!&�(B (�$B@5�(B)Kamihira Masamichi | 7-a | Microalgae
Targeted transgene integration
Cre/loxP
| 12/22
15:07:14 |
|---|
Microbial Control Methods (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 7-h (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 480 | �$B9b8z2L!&DcC_@Q@-$G4D6-Ii2Y$N>.$5$$Hy@8J*@)8fK!$r4pHW$H$9$k1R@84IM}$HKI1VBP:v$N3+H/�(B
(�$B;:5;9b@lIJ@n�(B) (�$B@5�(B)�$BEDB<�(B �$B7r<#�(B | 7-h | Sanitary Controls
Epidemic Preventive Measures
Microbial Control Methods
| 12/22
16:27:00 |
|---|
Microbial transglutaminase (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 7-b (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 516 | �$B93867k9g%?%s%Q%/2A�(B
(�$B6eBg1!9)�(B) (�$B3X�(B)�$B!{:4F#�(B �$BVE�(B�$B!&�(B (�$B@5�(B)�$BFnH*�(B �$B9'2p�(B�$B!&�(B (�$B@5�(B)�$B�$B!&�(B (�$B@5�(B)�$B8eF#�(B �$B2m9(�(B�$B!&�(B (�$B@5�(B)�$B?@C+�(B �$BE5Jf�(B | 7-b | Microbial transglutaminase
protein assembly
affinity
| 12/22
17:39:29 |
|---|
microbobble (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 5-b (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 420 | �$BN.DL7?AuCV$rMQ$$$?D62;GH%-%c%S%F!<%7%g%s:nMQ$N%^%$%/%m%P%V%k$K$h$k1F6A$K4X$9$k8!F$�(B
(�$BD92,9b@l�(B) (�$B@5�(B)�$B!{B<>e�(B �$BG=5,�(B�$B!&�(B �$BEZED�(B �$B0l4n�(B | 5-b | untrasound
microbobble
active oxygen
| 12/22
13:58:35 |
|---|
microbubble (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 2-e (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 342 | �$B%"%s%b%K%"$N5^B.MO2r$rMxMQ$7$??eAG%^%$%/%m%P%V%k@8@.K!$N3+H/�(B
(�$B7DXfBgM}9)�(B) (�$B3X�(B)�$B!{>.NS�(B �$BB@O:�(B�$B!&�(B �$B>.86�(B �$B2VM|�(B�$B!&�(B (�$B7DXfBg1!M}9)�(B) �$BEDCf�(B �$B=SLi�(B�$B!&�(B (�$B7DXfBgM}9)�(B) (�$B@5�(B)�$BF#2,�(B �$B:;ET;R�(B�$B!&�(B (�$B@5�(B)�$B;{:d�(B �$B9(0l�(B | 2-e | microbubble
hydrogen
ammonia
| 12/21
21:02:22 |
|---|
Microbubbles (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 135 | �$B5$K"EcFb$N�(BCO2�$B%^%$%/%m%P%V%k$+$i$N%,%95[<}�(B
(�$B7DXfBg1!M}9)�(B) (�$B3X�(B)�$B!{[X3@�(B �$B2m5.�(B�$B!&�(B (�$B7DXfBgM}9)�(B) (�$B@5�(B)�$B;{:d�(B �$B9(0l�(B�$B!&�(B (�$B@5�(B)�$BF#2,�(B �$B:;ET;R�(B�$B!&�(B (�$B7DXfBg1!M}9)�(B) �$BEDCf�(B �$B=SLi�(B | 2-d | Microbubbles
Bubble column
Gas absorption
| 12/17
15:34:19 |
|---|
| 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-e | microbubbles
high-viscosity heavy oil
Basic properties
| 12/21
18:30:26 |
|---|
microcapsule (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-f (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 295 | �$B2DA::^FbJq%^%$%/%m%+%W%;%k$ND4@=$K$*$1$kHs%$%*%s@-3&LL3h@-:^$NE:2C$,5Z$\$9J|=P5sF0�(B
(�$B�$B!&�(B (�$B@5�(B)�$BBg3Q�(B �$B5A9@�(B�$B!&�(B (�$B@5�(B)�$BIp0f�(B �$B9'9T�(B�$B!&�(B (�$B@5�(B)�$B5HED�(B �$B>;90�(B | 12-f | microcapsule
plasticizer
polyvinyl chloride
| 12/21
16:45:47 |
|---|
Microcapsules (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-f (2�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 275 | �$B%]%j%8%S%K%k%Y%s%<%sB?9&
(�$B5\:jBg�(B) (�$B3X�(B)�$B!{2F0f�(B �$BM:8c�(B�$B!&�(B (�$B5\:jBg1!9)�(B) (�$B@5�(B)�$B>>:,�(B �$B1Q�$B!&�(B (�$BET>k9b@l�(B) (�$B@5�(B)�$B@6;3�(B �$B;KO/�(B�$B!&�(B (�$B�$B!&�(B (�$B@5�(B)�$B5HED�(B �$B>;90�(B�$B!&�(B (�$B5\:jBg9)�(B) (�$B@5�(B)�$B1v@9�(B �$B900lO:�(B | 12-f | Fine particles
microcapsules
Chemical modification
| 12/21
15:10:05 |
|---|
| 466 | �$BD2MO@-%]%j%^!<$rMQ$$$?%W%m%P%$%*%F%#%/%9:Y6]$N%^%$%/%m%+%W%;%k$ND4@=�(B
(�$BJ!2,Bg1!9)�(B) (�$B3X�(B)�$B!{�$B!&�(B (�$BJ!2,Bg9)�(B) �$BCfB<�(B �$BH~M35*�(B�$B!&�(B (�$B@5�(B)Sharmin Tanjina�$B!&�(B (�$B@5�(B)�$BAjED�(B �$BBn�(B�$B!&�(B (�$B@5�(B)�$B;0Eg�(B �$B7r;J�(B | 12-f | Microcapsules
Probiotic bacteria
Emulsion method
| 12/22
16:02:54 |
|---|
microchannel (3�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 4-f (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 179 | Effect of pressure and surfactant on formation of solid lipid particles using supercritical fluid extraction of emulsion
(�$BEl9)BgJ*�$B!&�(B (�$B@5�(B)�$B?%ED�(B �$B9LI'�(B�$B!&�(B (�$B@5�(B)�$B2<;3�(B �$BM52p�(B | 4-f | lipid nanoparticle
supercritical extraction of emulsion
microchannel
| 12/18
16:22:28 |
|---|
| 284 | �$BD6NW3&�(BCO2�$B$H%^%$%/%mN.O)$rMxMQ$7$?�(BPEG�$B2=%j%]%=!<%`$N%U%m!<9g@.�(B
(�$BEl9)BgJ*�$B!&�(B (�$B3X�(B)�$B0f>e�(B �$B7�$B!&�(B (�$B3X�(B)�$B=);3�(B �$BN6G72p�(B�$B!&�(B (�$B@5�(B)�$B2<;3�(B �$BM52p�(B | 8-e | supercritical carbon dioxide
microchannel
pegylated liposome
| 12/21
16:22:24 |
|---|
| 567 | �$B9b@:EY$J%P%$%*%$%s%/@Z$jBX$($N$?$a$NC10l%N%:%k$NN.O)@_7W$HI>2A�(B
(�$B:eBg1!4p9)�(B) (�$B3X�(B)�$B!{F|9b�(B �$B8w>-�(B�$B!&�(B (�$B3X�(B)�$B;3K\�(B �$B@?;NO:�(B�$B!&�(B (�$B@5�(B)�$B>.Eh�(B �$B>!�(B�$B!&�(B (�$B@5�(B)�$BCfH*�(B �$B2m�$B!&�(B (�$B@5�(B)�$B2,Ln�(B �$BBYB'�(B�$B!&�(B (�$B@5�(B)�$B6-�(B �$B?5;J�(B | 7-i | Bioprinting
Microchannel
| 12/22
19:25:50 |
|---|
Microcystis (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 13-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 370 | �$B8w@)8B$K4p$E$/%"%*%37A@.
(�$B@iMUBg9)�(B) (�$B3X�(B)�$B!{9b66�(B �$B42M[�(B�$B!&�(B (�$B@iMUBg1!9)�(B) (�$B@5�(B)�$BE7Ln�(B �$B2B@5�(B�$B!&�(B �$BD.ED�(B �$B4p�(B | 13-a | Microcystis
light restriction
buoyancy control
| 12/22
10:16:36 |
|---|
Microdevice (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SS-2 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 53 | [�$B>7BT9V1i�(B] �$B%^%$%/%m%_%-%5!<$rMQ$$$?O"B3F}2=%W%m%;%9�(B
(�$B2V2&�(B) (�$B@5�(B)�$B!{9bLZ�(B �$BF;:H�(B�$B!&�(B (�$BK!�(B)�$BFbF#�(B �$B9bO/�(B�$B!&�(B (�$BK!�(B)�$BLZ2<�(B �$B7IJ8�(B�$B!&�(B (�$BK!�(B)�$BBg@>�(B �$BM32F�(B�$B!&�(B (�$B@5�(B)�$B?">>�(B �$BN4;K�(B�$B!&�(B (�$BK!�(B)�$B9bLZ�(B �$B=SJe�(B�$B!&�(B (�$BK!�(B)�$BEOJU�(B �$BBgJe�(B�$B!&�(B (�$BK!�(B)�$B9b66�(B �$B>�$B!&�(B (�$BK!�(B)�$B3dED�(B �$B9@>O�(B�$B!&�(B (�$B5~Bg9)�(B) (�$B@5�(B)�$BA0�(B �$B0lW"�(B | SS-2 | Microdevice
Nanoemulsions
scale up
| 12/13
20:38:51 |
|---|
microfiber (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 200 | �$BCGJR2=%3%i!<%2%s%^%$%/%m%U%!%$%P!<$N9b8zN(D4@=$H%7!<%H>uAH?%7A@.$X$N1~MQ�(B
(�$B@iMUBg1!9)�(B) (�$B3X�(B)�$B!{;3Cf�(B �$B7<8c�(B�$B!&�(B �$B1-F,�(B �$BM}7C�(B�$B!&�(B (�$B@5�(B)�$B;3ED�(B �$B??@!�(B�$B!&�(B (�$B@5�(B)�$B4X�(B �$B | 7-e | microfiber
collagen
3D cell cultivation
| 12/19
10:58:00 |
|---|
microfiltration (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 13-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 56 | �$B%J%N%P%V%k$K$h$k%;%i%_%C%/Kl$N%U%!%&%j%s%0M^@)�(B
(�$BN6C+Bg�(B) (�$B@5�(B)�$B!{1|ED�(B �$BE/;N�(B�$B!&�(B �$B1J0f�(B �$B:;4u�(B�$B!&�(B �$BDT�(B �$BCN98�(B�$B!&�(B �$B;yEh�(B �$BBg51�(B�$B!&�(B (�$B9-Bg�(B) (�$B@5�(B)�$BCf0f�(B �$BCR;J�(B�$B!&�(B (�$B@5�(B)�$B@>Eh�(B �$B>D�(B | 13-a | microfiltration
ozone
ultrafine bubble
| 12/14
08:38:59 |
|---|
Microfiltration Membrane (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 411 | �$BEE5$G4@-8z2L$K$h$k@:L)$m2aKl$N%U%i%C%/%9$NJQ2=$HI=LL2~
(�$B2#9qBg9)�(B) (�$B@5�(B)�$B!{CfB<�(B �$B0lJf�(B�$B!&�(B (�$B2#9qBg�(B) (�$B@5�(B)�$BOB5W0f�(B �$B7r;J�(B�$B!&�(B (�$B2#9qBgM}9)�(B) �$BKv1J�(B �$B5#�(B | 4-b | Microfiltration Membrane
Electro viscose effect
Surface modification
| 12/22
13:37:51 |
|---|
microfluidic device (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 7-e (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 223 | �$BJBNsJ?HD7?%^%$%/%mN.BN%G%P%$%9$N?<$5@)8f$K$h$k=[4D$,$s:YK&$N9b8zN(JaB*�(B
(�$B@iMUBg1!M;�(B) (�$B3X�(B)�$B!{?7L>�(B �$B:ZE&�(B�$B!&�(B (�$B@iMUBg1!9)�(B) �$B8EH*�(B �$B@?�(B�$B!&�(B (�$B@5�(B)�$B;3ED�(B �$B??@!�(B�$B!&�(B �$B1-F,�(B �$BM}7C�(B�$B!&�(B (�$B@5�(B)�$B4X�(B �$B | 7-e | microfluidic device
circulating tumor cell
cell trapping
| 12/20
22:51:39 |
|---|
| 631 | �$B%^%$%/%mN.O)$rMQ$$$?%"%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-c | calcium alginate
hydrogel particles
microfluidic device
| 12/22
23:19:21 |
|---|
Microfluidics (5�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B K-5 (2�$B7o�(B), 2-e (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 210 | [�$B>7BT9V1i�(B] Designing Complex Particle Structures by Phase Separation in Droplets
(Okayama U.) (�$B@5�(B)Watanabe Takaichi | K-5 | Diffusion
Microfluidics
Spinodal
| 12/19
22:11:21 |
|---|
| 321 | �$B%@%V%k%(%^%k%7%g%s$N0BDj@8@.$KN.O)7A>u$HMO1UJ*@-$,M?$($k1F6A�(B
(�$B?@8MBg1!9)�(B) (�$B@5�(B)�$B!{F|=P4V�(B �$B$k$j�(B�$B!&�(B �$BBg66�(B �$BNKB@O/�(B�$B!&�(B (�$B@5�(B)�$BNkLZ�(B �$BMN�(B | 2-e | Double emulsion
Flow focusing
Microfluidics
| 12/21
18:50:49 |
|---|
| 339 | �$B%+%s%A%l%P!<$N?6F02r@O$K$h$k9bJ,;R$NN.F0Dq93B,Dj$N8!F$�(B
(�$B?@8MBg1!9)�(B) (�$B3X�(B)�$B!{IpIt�(B �$BbC%N2p�(B�$B!&�(B (�$B@5�(B)�$BF|=P4V�(B �$B$k$j�(B�$B!&�(B (�$B@5�(B)�$BNkLZ�(B �$BMN�(B | 2-a | Drag force of polymers
Oscillation analysis
Microfluidics
| 12/21
20:32:54 |
|---|
| 350 | [�$B>7BT9V1i�(B] MOF�$BHyN3;R$N3,AX7?5e>u=89gBN$N7A@.�(B
(�$B5~Bg9)�(B) (�$B@5�(B)�$BEOn5�(B �$BE/�(B | K-5 | Self-assemlby
MOF
Microfluidics
| 12/21
23:48:18 |
|---|
| 444 | �$B93BN$NJaB*$H8!=P$r;V8~$7$?93BN7k9g@-%?%s%Q%/.%O%$%I%m%2%k$N@_7W�(B
(�$B6eBg1!9)�(B) (�$B3X�(B)�$B!{DEN1�(B �$B0IM4�(B�$B!&�(B (�$B@5�(B)�$BFnH*�(B �$B9'2p�(B�$B!&�(B (�$B@5�(B)�$B8eF#�(B �$B2m9(�(B�$B!&�(B (�$B@5�(B)�$B?@C+�(B �$BE5Jf�(B | 7-e | Antibody
Hydrogel bead
Microfluidics
| 12/22
15:09:29 |
|---|
Microgel particles (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 13-g (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 554 | �$BDc�(BCO2�$BJ,054D6-$K$*$$$F8zN(E*$K�(BCO2�$B$r2D5U5[<}2DG=$J29EY1~Ez@-%"%_%s4^M-%^%$%/%m%2%kN3;R$N@_7W�(B
(�$B6eBg1!9)�(B) (�$B3X�(B)�$B!{K\ED�(B �$BN5B@O/�(B�$B!&�(B (�$B3X�(B)�$B_@:j�(B �$B1{�(B�$B!&�(B (�$B@5�(B)�$B;01:�(B �$B2B;R�(B�$B!&�(B (�$B@5�(B)�$B@1Ln�(B �$BM'�(B | 13-g | CO2 separation
pKa
Microgel particles
| 12/22
19:09:45 |
|---|
Microorganism (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 13-f (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 497 | �$BE%C:<+A3H/2P$NMW0x$H$J$kHy@8J*$K$h$kH/G.8=>]$N8!F$�(B
(U. Kitakyushu) (�$B3X�(B)�$B!{F#0f�(B �$B>D�(B�$B!&�(B (�$B@5�(B)�$B>e9>='�(B �$B0lLi�(B | 13-f | Microorganism
self-heating
peat fire
| 12/22
16:55:18 |
|---|
microplastic (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 7-e (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 390 | �$B%R%H>.D2�(Bin vitro�$B%b%G%k$rMQ$$$?%^%$%/%m%W%i%9%A%C%/$NF)2a!&C_@Q$NI>2A�(B
(�$BElBg1!9)�(B) (�$B3X�(B)�$B!{NkLZ�(B �$BM%@5�(B�$B!&�(B (�$B@5�(B)�$B0pB<�(B �$B91N<�(B�$B!&�(B (�$B3$�(B)�$B%@%N%"�(B �$B%^%7%e!<�(B�$B!&�(B (�$B@5�(B)�$B@>@n�(B �$B>;51�(B�$B!&�(B (�$B@5�(B)�$B | 7-e | microplastic
in vitro
small intestine
| 12/22
12:06:05 |
|---|
microstructured gels (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 4-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 251 | Surface engineering with microstructured gel networks for superwetting membranes
(Kobe U.) (�$B3X�(B)�$B!{�(BJia Yuandong�$B!&�(B (�$B@5�(B)Guan Kecheng�$B!&�(B (�$B@5�(B)Matsuyama Hideto | 4-a | microstructured gels
superwetting surfaces
oil/water separation
| 12/21
12:12:42 |
|---|
Microwave (5�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 145 | �$B%(%^%k%7%g%s$NI=LLD%NOB,Dj$+$i$N%^%$%/%mGH>H
(�$BJ<8K8)Bg9)�(B) �$B>eED�(B �$B>OB@�(B�$B!&�(B �$BCf@>�(B �$B:LN$�(B�$B!&�(B �$B�$B!&�(B (�$B@5�(B)�$B!{D+7'�(B �$BM52p�(B | 12-b | Microwave
emulsion
surface tension
| 12/18
09:18:32 |
|---|
| 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-a | Microwave
dimensionless number
heat efficiency
| 12/18
09:34:46 |
|---|
| 168 | �$B%^%$%/%mGHHsJ?9U6I=j2CG.$K$h$k1U1U3&LL$NI=LL2~
(�$BJ<8K8)Bg9)�(B) �$B1rIt�(B �$BCR;K�(B�$B!&�(B �$B�$B!&�(B (�$B@5�(B)�$B!{D+7'�(B �$BM52p�(B�$B!&�(B (Curtin U.) Hyde Anita�$B!&�(B Phan Chi | 1-a | Microwave
Interfacial modification
Interfacial tension
| 12/18
11:42:47 |
|---|
| 257 | �$BIbA*9bEY2=$rL\E*$H$7$?%^%$%/%mGH>H
(�$BAaBg�(B) (�$B@5�(B)�$B!{2CF#�(B �$BC#Li�(B�$B!&�(B (�$B@5�(B)�$B=j�(B �$B@i@2�(B | 2-f | Microwave
XAFS analysis
EXAFS analysis
| 12/21
13:27:28 |
|---|
| 493 | �$B%^%$%/%mGH2~e�(B
(�$BKLBg1!Am2=�(B) (�$B3X�(B)�$B!{?{ED�(B �$B51�(B�$B!&�(B (�$BKLBg1!9)�(B) (�$B@5�(B)�$B2.Ln�(B �$B7.�(B�$B!&�(B (�$B@5�(B)�$B4dB<�(B �$B?60lO:�(B�$B!&�(B (�$B@5�(B)�$B8~0f�(B �$B?B�(B | 5-a | nitrogen-doped carbon
ORR
microwave
| 12/22
16:52:34 |
|---|
Microwave plasma (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 9-f (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 452 | �$B%^%$%/%mGH%W%i%:%^$HN.F0AX$rM;9g$7$??75,8GBNG3>FAuCV$N9=C[$H$=$NG3>FFC@-�(B
(�$B6eBg1!9)�(B) (�$B3X�(B)�$B!{:#B<�(B �$BM-0lO/�(B�$B!&�(B (�$B@5�(B)�$B;3K\�(B �$B9d�(B�$B!&�(B (�$B@5�(B)�$B4_ED�(B �$B>;9@�(B | 9-f | Microwave plasma
Fluidized bed
Plasma-assisted combustion
| 12/22
15:23:33 |
|---|
| 481 | CO2�$B$N%^%$%/%mGH%W%i%:%^$K$h$k�(BCO�$B$X$N4T85J,2rH?1~�(B
(�$B6eBg1!9)�(B) (�$B3X�(B)�$B!{:4F#�(B �$B7=>-�(B�$B!&�(B (�$B@5�(B)�$B;3K\�(B �$B9d�(B�$B!&�(B (�$B@5�(B)�$B4_ED�(B �$B>;9@�(B | 5-i | CO2 Utilization
Microwave Plasma
Reductive decomposition reaction
| 12/22
16:27:03 |
|---|
MIL-100(Fe) (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 108 | MIL-100(Fe)�$B9g@.K!$N4JN,2=8!F$$H$=$N?et2=@-G=�(B
(�$BElK.Bg�(B) (�$B3X�(B)�$B!{OBED�(B �$B$_$5$H�(B�$B!&�(B (�$B3X�(B)�$B0f8}�(B �$BCRM5�(B�$B!&�(B (�$B@5�(B)�$B:#Ln�(B �$BBg51�(B | 13-a | MIL-100(Fe)
Methylene blue
Water purification
| 12/15
16:29:57 |
|---|
MIL-53(Al) (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 13-e (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 110 | PET�$B%\%H%k$r%F%l%U%?%k;@8;$H$9$k�(BMIL-53(Al)�$B7k>=$N9g@.�(B
(�$BElK.Bg�(B) (�$B3X�(B)�$B!{:4F#�(B �$B9(4p�(B�$B!&�(B (�$B@5�(B)�$B:#Ln�(B �$BBg51�(B | 13-e | MIL-53(Al)
PET
Chemical recycling
| 12/15
16:30:22 |
|---|
mini channel (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 2-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 344 | �$B1U1U%9%i%0N.$rMQ$$$?%_%K%A%c%M%k$K$h$k%7%j%+HyN3;R$N9g@.�(B
(�$B7DXfBg1!M}9)�(B) (�$B3X�(B)�$B!{4d:j�(B �$B>-;V�(B�$B!&�(B (�$B7DXfBgM}9)�(B) (�$B@5�(B)�$BF#2,�(B �$B:;ET;R�(B�$B!&�(B (�$B@5�(B)�$B;{:d�(B �$B9(0l�(B | 2-a | liquid-liquid slug flow
mini channel
silica particle
| 12/21
21:07:40 |
|---|
minor actinide (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 4-f (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 193 | �$B%9%i%0N.$rMQ$$$?%^%$%J!<%"%/%A%N%$%I$NA*BrCj=P�(B
(�$B5~Bg1!9)�(B) (�$B3X�(B)�$B!{EDHx�(B �$BM45,�(B�$B!&�(B (�$B@5�(B)�$BKR�(B �$BBYJe�(B�$B!&�(B (�$B@5�(B)�$BB�$B!&�(B (�$B@5�(B)�$BA0�(B �$B0lW"�(B�$B!&�(B (�$B86;RNO5!9=�(B) �$B:dK\�(B �$B=_;V�(B�$B!&�(B �$B:4Ln�(B �$BM:0l�(B�$B!&�(B �$B2,B<�(B �$B?.@8�(B�$B!&�(B �$BEOIt�(B �$B2mG7�(B | 4-f | segmented flow
extraction
minor actinide
| 12/18
19:47:27 |
|---|
mist generation (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B IS-1 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 299 | Periodicity and probability of mist generation via high-frequency ultrasound
(Doshisha U.) (�$B3X�(B)�$B!{�(BWang Xiaolu�$B!&�(B (�$B@5�(B)Mori Yasushige�$B!&�(B (�$B@5�(B)Tsuchiya Katsumi | IS-1 | ultrasonic atomization
mist generation
droplets bursting
| 12/21
17:00:37 |
|---|
mitochondria (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 7-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 492 | �$B9ZJl$rMQ$$$?9ZAG$N%_%H%3%s%I%j%"6I:_2=$K$h$kM-MQJ*
(�$B:eI\Bg1!9)�(B) (�$B3X�(B)�$B!{BgC+�(B �$B9'�(B�$B!&�(B (�$B@5�(B)�$B>>K\�(B �$BBsLi�(B�$B!&�(B (�$B@5�(B)�$B;3ED�(B �$BN�$B!&�(B (�$B@5�(B)�$B2.Ln�(B �$BGn9/�(B | 7-a | yeast
mitochondria
bioproduction
| 12/22
16:48:15 |
|---|
mixed matrix membranes (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B K-3 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 291 | [�$B>7BT9V1i�(B] Investigation of the Metal-Organic Framework/Polyimide Construction via Molecular Simulation
(Nat. Central U.) Chang Bor Kae | K-3 | Mixed matrix membranes
metal-organic frameworks
molecular simulation
| 12/21
16:32:22 |
|---|
| 551 | Influence of different aminosilane on the gas separation performance of SAPO-34 zeolite/polyimide mixed matrix membranes
(�$B;38}Bg1!AO@.2J3X�(B) (�$B3X�(B)�$B!{�(BLiu Yongsheng�$B!&�(B �$B:#B<�(B �$BM*;K�(B�$B!&�(B (�$B@5�(B)�$B4nB?�(B �$B1QIR�(B�$B!&�(B (�$B@5�(B)�$BEDCf�(B �$B0l9(�(B | 4-a | mixed matrix membranes
zeolite
silane surface modification
| 12/22
19:05:41 |
|---|
mixed oxide nanoparticle (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-d (1�$B7o�(B) |
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| 600 | �$B6bB0;@2=J*%J%NN3;R$NJ#9g2=$K$h$kDc29;@AG5[B"J|=P:`NA$N3+H/�(B
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metal oxide support catalyst
oxygen storage material
| 12/22
21:55:12 |
|---|
Mixed particles (1�$B7o�(B) |
|---|
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| 195 | �$B8G1U3IYBAe$K$*$1$k:.9gN3;R$NIbM72=8B3&2sE>?t$N?d;;�(B
(�$B=P8w6=;:�(B) (�$B@5�(B)�$B!{AjED�(B �$B??CK�(B�$B!&�(B (�$BElM}Bg1!9)�(B) (�$B3X�(B)�$B>.NS�(B �$BBgml�(B�$B!&�(B (�$BElM}Bg9)�(B) (�$B@5�(B)�$BB<>e�(B �$BM5:H�(B�$B!&�(B (�$B@5�(B)�$B>>@n�(B �$BGnN<�(B�$B!&�(B (�$B@5�(B)�$BBgC]�(B �$B>!?M�(B�$B!&�(B (�$B@5�(B)�$B>1Ln�(B �$B8|�(B | 2-b | Just suspended speed
Mixed particles
Mixing
| 12/18
21:19:47 |
|---|
Mixed proton-electron conductor (1�$B7o�(B) |
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| 221 | �$B%W%m%H%sEAF3@-;@2=J*:.9gEE2r2A�(B
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Mixed proton-electron conductor
Hydrogen permeable membranes
| 12/20
18:58:55 |
|---|
mixer (2�$B7o�(B) |
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| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SP-8 (2�$B7o�(B) |
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Mixer
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| 12/14
13:50:31 |
|---|
| 87 | [�$B>7BT9V1i�(B] FM�$B%_%-%5$O
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dispersion
multipurpose
| 12/14
14:10:13 |
|---|
Mixing (14�$B7o�(B) |
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High viscous fluid
Mixing element
| 11/19
09:50:10 |
|---|
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magnetic stirrer
new type impeller
| 11/20
13:07:25 |
|---|
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evaporation
large paddle impeller
| 11/20
14:28:37 |
|---|
| 37 | �$B9bN3;RG;EY8G1U3IYBAe$K$*$1$kN3;RG;EYJ,I[5Z$S%H%l!<%5:.9g2aDx�(B
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particle concentration
mixing
| 12/11
14:47:50 |
|---|
| 71 | [�$B>7BT9V1i�(B] �$B3IYB5;=Q$K$*$1$k4pK\FC@-$*$h$SA`:nJ}K!�(B
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Operation
Design
| 12/14
11:55:36 |
|---|
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mixing
leak-free
| 12/14
13:58:45 |
|---|
| 162 | [�$B>7BT9V1i�(B] �$BGx5$A}6/$K$h$k3h@-1xE%=hM}$N:GE,2=�(B
(�$B;0I)%1%_%+%k�(B) (�$BK!�(B)�$BO;M:�(B �$B?-8c�(B | SP-8 | Activated sludge process
aeration
mixing
| 12/18
11:19:32 |
|---|
| 163 | [�$B>7BT9V1i�(B] �$B3IYBAe7?H?1~5!$N%9%1!<%k%"%C%W;vNc�(B
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Reactor with agitator
scale up
| 12/18
11:26:57 |
|---|
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Mixed particles
Mixing
| 12/18
21:19:47 |
|---|
| 232 | �$B3IYB$K$*$1$kN.BN2r@O$N9b@:EY2=$X$N]$H$7$F!A�(B
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CFD
high viscosity fluids
| 12/21
10:05:42 |
|---|
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CFD
TERECORTAR R
| 12/21
10:11:11 |
|---|
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Full scale plant
Carrier fluidity
| 12/21
13:19:42 |
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LIF
IMR
| 12/21
16:24:27 |
|---|
| 704 | [�$BIt2q>^�(B] �$B%U%m%s%F%#%">^�(B2020:Fingering pattern induced by spinodal decomposition in hydrodynamically stable displacement in a partially miscible system
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| 2/8
14:42:54 |
|---|
Mixing element (1�$B7o�(B) |
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| 5 | �$B0[G4EYN.BN$N:.9g%(%l%a%s%H$N?75,3+H/�(B
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High viscous fluid
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| 11/19
09:50:10 |
|---|
Mixing mechanism (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 2-d (1�$B7o�(B) |
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|---|
| 247 | Data-driven analysis for powder mixing using the Lanczos-based proper orthogonal decomposition
(U. Tokyo) (�$B3$�(B)�$B!{�(BLi Shuo�$B!&�(B Duan Guangtao�$B!&�(B (�$B@5�(B)Sakai Mikio | 2-d | DEM-CFD method
Mixing mechanism
Lanczos-based proper orthogonal decomposition
| 12/21
11:44:36 |
|---|
mixing performance (1�$B7o�(B) |
|---|
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| 282 | �$BCf6u;eKl%G%P%$%9$N:.9g@-G=I>2A$HLtJ*N3;R9g@.$X$NE,MQ�(B
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porous hollow fiber membrane device
particle synthesis
| 12/21
16:15:07 |
|---|
mixture of CO2 and organic solvent (1�$B7o�(B) |
|---|
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| 404 | Taylor�$BK!$K$h$k9b05�(BCO2+hexane/methanol�$B:.9gN.BNCf$N�(Bbenzene�$B$N3H;678?t$NB,Dj$HAj4X�(B
(�$BCf1{Bg1!M}9)�(B) (�$B3X�(B)�$B!{>.Ln;{�(B �$BMGBg�(B�$B!&�(B (�$BCf1{BgM}9)�(B) (�$B@5�(B)�$B:dIt�(B �$B=_0l�(B�$B!&�(B (�$B@5�(B)�$BA%B$�(B �$B=S9'�(B�$B!&�(B (�$B@EBg9)�(B) (�$B@5�(B)�$B9&�(B �$B>;0l�(B | 8-b | mixture of CO2 and organic solvent
diffusion coefficient
benzene
| 12/22
12:57:48 |
|---|
Modeling (1�$B7o�(B) |
|---|
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Modeling
Process systems engineering
| 12/22
20:43:41 |
|---|
Module (1�$B7o�(B) |
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Module
Active Pharmaceutical Ingredients
| 12/13
20:47:56 |
|---|
MOF (4�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B K-4 (3�$B7o�(B), K-5 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 350 | [�$B>7BT9V1i�(B] MOF�$BHyN3;R$N3,AX7?5e>u=89gBN$N7A@.�(B
(�$B5~Bg9)�(B) (�$B@5�(B)�$BEOn5�(B �$BE/�(B | K-5 | Self-assemlby
MOF
Microfluidics
| 12/21
23:48:18 |
|---|
| 416 | [�$B%"%8%"9q:]>^�(B2020] Anion-functionalized Porous Materials for Gas Separations
(Zhejiang U.) Huabin Xing | K-4 | MOF
| 12/22
13:51:25 |
|---|
| 418 | [�$B>7BT9V1i�(B] Materials Space-Tectonics: New Conceptual Paradigm for Creating Second-Generation Porous Materials
(U. Queensland/NIMS/Waseda U.) Yamauchi Yusuke | K-4 | MOF
| 12/22
13:57:31 |
|---|
| 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-4 | MOF
polycrystalline membrane
hierarchical structure
| 12/22
19:16:30 |
|---|
MOFs (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 13-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 105 | �$BC:2=?eAG$r%W%m!<%V$H$9$k�(BMOFs�$B7k>=$N4J0WE*$JFC@-I>2A�(B
(�$BElK.Bg�(B) (�$B3X�(B)�$B!{>.@t�(B �$BBg@8�(B�$B!&�(B (�$B%H%h%?<+�(B) (�$BK!�(B)�$BBg66�(B �$BNI1{�(B�$B!&�(B (�$BElK.Bg�(B) (�$B@5�(B)�$B:#Ln�(B �$BBg51�(B | 13-a | MOFs
ZIF-8
molecular probe method
| 12/15
16:28:59 |
|---|
Molecular diffusion (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 324 | �$B7W;;;Y1g$K$h$k6K@-!&L56K@-J,;R$N�(BTiO2�$B%J%N:Y9&$K$*$1$kF)2a8=>]$N2r@O�(B
(�$B?@8MBg1!2J5;%$%N%Y�(B/�$B@hC�$B!&�(B (�$B@5�(B)�$B5H2,�(B �$BJ~5W�(B�$B!&�(B (�$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>>2,�(B �$B=_�(B�$B!&�(B (�$B@5�(B)�$B>>;3�(B �$B=(?M�(B | 4-a | MD simulation
Organic solvent
Molecular diffusion
| 12/21
18:52:28 |
|---|
molecular dynamics (5�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 4-a (2�$B7o�(B), 12-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 174 | [�$B>7BT9V1i�(B] Molecular behavior of guest molecules in clathrate hydrates by ab initio molecular dynamics simulations
(Kogakuin U.) Hiratsuka Masaki | K-2 | clathrate hydrates
molecular dynamics
ab initio
| 12/18
13:58:43 |
|---|
| 379 | �$BF)@OKlAG:`$NBQ%U%!%&%j%s%0@-G=$H5[CeJ*
(�$BL>9)Bg1!9)�(B) (�$B3X�(B)�$B!{CfED�(B �$B0T?a�(B�$B!&�(B (�$BL>9)Bg�(B) (�$B@5�(B)�$BFn1@�(B �$BN<�(B | 4-a | fouling
molecular dynamics
polyvinyl pyrrolidone
| 12/22
10:56:44 |
|---|
| 524 | LJ2�$B@.J,7O$NJ,;R%7%_%e%l!<%7%g%s$rMQ$$$?3K@8@.7PO)2r@O$H%b%G%k2=�(B
(�$B5~Bg1!9)�(B) (�$B3X�(B)�$B!{HSED�(B �$BM5Li�(B�$B!&�(B (�$B@5�(B)�$BEOn5�(B �$BE/�(B�$B!&�(B (�$B@5�(B)�$B5\86�(B �$BL-�(B | 12-a | nucleation pathway
Lennard-Jones
molecular dynamics
| 12/22
17:58:03 |
|---|
| 528 | �$BM-5!=$>~%b%s%b%j%m%J%$%HAX4V$X$NB?4DK'9aB2C:2=?eAG$N5[Ce$K4X$9$kJ,;R%7%_%e%l!<%7%g%s�(B
(�$B9)3X1!Bg@h?J9)�(B) (�$B@5�(B)�$B!{5\@n�(B �$B2mLp�(B�$B!&�(B (�$B3X�(B)�$BW"_7�(B �$B;KLi�(B�$B!&�(B (�$B3X�(B)�$BHu8}�(B �$BH;?M�(B�$B!&�(B (�$B@5�(B)�$B9b1)�(B �$BMN=<�(B | 12-i | Molecular dynamics
Montmorillonite
Adsorption
| 12/22
18:11:28 |
|---|
| 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=$0l�(B | 4-a | hydrogen bonding
LCST
molecular dynamics
| 12/22
18:38:58 |
|---|
molecular dynamics simulation (3�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 1-a (2�$B7o�(B), 12-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 120 | �$BD6NW3&Fs;@2=C:AGJ70O5$2<$K$*$1$k%]%j%a%?%/%j%k;@%a%A%kCf$N%"%s%H%i%-%N%s$N3H;678?t$NB,Dj$*$h$SJ,;RF0NO3X%7%_%e%l!<%7%g%s�(B
(�$B6eBg9)�(B) (�$B3X�(B)�$B!{@>;3�(B �$B3+�(B�$B!&�(B (�$B@5�(B)�$B4d0f�(B �$BK'IW�(B | 1-a | Diffusion coefficient
Supercritical impregnation
Molecular dynamics simulation
| 12/16
16:39:33 |
|---|
| 230 | �$BM-5!=$>~8GBN!?M-5!MOG^3&LL$NIUCe;E;v$K5Z$\$9MOG^$*$h$SI=LL=$>~:?$N1F6A�(B
(�$BElKLBg1!9)�(B) (�$B3X�(B)�$B!{:XF#�(B �$B9b2m�(B�$B!&�(B �$BC]NS�(B �$BNK�(B�$B!&�(B (�$B@5�(B)�$B5WJ]�(B �$B@5�$B!&�(B (�$B@5�(B)�$BDMED�(B �$BN4IW�(B�$B!&�(B (�$B@5�(B)�$B>1;J�(B �$B1RB@�(B�$B!&�(B (�$BElKLBgN.BN8&�(B) �$B5F@n�(B �$B9kB@�(B�$B!&�(B Surblys Donatas | 12-a | organic-modified solid
molecular dynamics simulation
work of adhesion
| 12/21
09:47:05 |
|---|
| 629 | �$B?eAG7k9g%M%C%H%o!<%/$K4p$E$/%1!<%8!&%8%c%s%W%b%G%k$N3+H/$H$=$N2aNd5Q?e$K$*$1$k3H;6%@%$%J%_%/%9$X$N1~MQ�(B
(�$B:eBg1!4p9)�(B) (�$B3X�(B)�$B!{5FDT�(B �$BBn??�(B�$B!&�(B (�$B@5�(B)�$B6b�(B �$B9]�(B�$B!&�(B (�$B@5�(B)�$B>>NS�(B �$B?-9,�(B | 1-a | hydrogen bonding
molecular dynamics simulation
supercooled liquid
| 12/22
23:15:17 |
|---|
molecular probe method (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 105 | �$BC:2=?eAG$r%W%m!<%V$H$9$k�(BMOFs�$B7k>=$N4J0WE*$JFC@-I>2A�(B
(�$BElK.Bg�(B) (�$B3X�(B)�$B!{>.@t�(B �$BBg@8�(B�$B!&�(B (�$B%H%h%?<+�(B) (�$BK!�(B)�$BBg66�(B �$BNI1{�(B�$B!&�(B (�$BElK.Bg�(B) (�$B@5�(B)�$B:#Ln�(B �$BBg51�(B | 13-a | MOFs
ZIF-8
molecular probe method
| 12/15
16:28:59 |
|---|
Molecular Separation (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B K-6 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 589 | [�$B%"%8%"9q:]>^�(B2020] Advancing Metal-Organic Framework Membranes for Highly-Efficient Molecular Separations
(Nat. Taiwan U.) Kang Dun-Yen | K-6 | Metal-Organic Framework
Molecular Separation
| 12/22
20:48:53 |
|---|
molecular simulation (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B K-3 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 291 | [�$B>7BT9V1i�(B] Investigation of the Metal-Organic Framework/Polyimide Construction via Molecular Simulation
(Nat. Central U.) Chang Bor Kae | K-3 | Mixed matrix membranes
metal-organic frameworks
molecular simulation
| 12/21
16:32:22 |
|---|
molecular surface charge distribution (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B IS-1 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 136 | Pharmaceutical cocrystal screening by machine learning with molecular surface charge distribution
(�$BEl9)BgJ*�$B!&�(B (�$B3X�(B)�$BJR2,�(B �$BBg;V�(B�$B!&�(B (�$B3X�(B)�$BB<>e�(B �$B9-�$B!&�(B (�$B@5�(B)Hung Ying Chieh�$B!&�(B (�$B@5�(B)�$B?%ED�(B �$B9LI'�(B�$B!&�(B (�$B@5�(B)�$B2<;3�(B �$BM52p�(B | IS-1 | cocrystal
machine learning
molecular surface charge distribution
| 12/17
16:14:58 |
|---|
Molecularly Imprinted Polymer (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 202 | �$B3X=,$K4XM?$9$k?@7PEAC#J*
(�$B�$B!&�(B (�$B3X�(B)�$B�$B!&�(B (�$B3X�(B)�$B1sF#�(B �$B7rB@�(B | 7-b | Molecularly Imprinted Polymer
Imaging
Neurotransmitter
| 12/19
14:26:08 |
|---|
| 203 | �$BJ,;R%$%s%W%j%s%H%+!<%\%s%Z!<%9%HEE6K$rMQ$$$?%P%s%3%^%$%7%s%;%s%5$NB,Dj86M}$N9M;!�(B
(�$B�$B!&�(B (�$B3X�(B)�$BIpED�(B �$BM*Mx�(B�$B!&�(B (�$B3X�(B)�$B0$It�(B �$BKo�$B!&�(B �$BH(Ln�(B �$BL@I'�(B | 7-e | Molecularly Imprinted Polymer
Nanoparticle
Surface Phenomenon
| 12/19
14:51:47 |
|---|
molybdenum disulfide (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-k (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 501 | �$B%"%s%b%K%&%`1vE:2CJ.L8G.J,2rK!$K$h$kFsN22=%b%j%V%G%s$N9g@.$H$=$N%j%A%&%`Fs
(�$BEl9)BgJ*�$B!&�(B (�$B3X�(B)Akylbek Adi�$B!&�(B (�$B3X�(B)Belgibayeva Ayaulym�$B!&�(B (�$B@5�(B)�$BC+8}�(B �$B@t�(B | 12-k | molybdenum disulfide
Anode
Lithium secondary battery
| 12/22
17:04:17 |
|---|
molybdenum-containing catalyst (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 5-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 2 | �$B%b%j%V%G%s$r%Y!<%9$H$7$?J#9g;@2=J*?(G^$K$h$k%W%m%Q%s$NItJ,;@2=�(B
(�$BFAEgBg1!AO@.2J3X�(B) (�$B3X�(B)�$B!{5HED�(B �$B?pJf�(B�$B!&�(B (�$BFAEgBgM}9)�(B) �$BBg@n�(B �$BN&�(B�$B!&�(B (�$BFAEgBg1!9(�(B�$B!&�(B (�$B@5�(B)�$B2CF#�(B �$B2mM5�(B�$B!&�(B (�$B@5�(B)�$B?y;3�(B �$BLP�(B | 5-a | propane
partial oxidation
molybdenum-containing catalyst
| 11/9
18:09:13 |
|---|
monocyclic compounds (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 26 | �$B9b299b05?e$rMQ$$$?%3!<%R!<@8F&Cj=P$K$*$1$kC14D@8@.J*$N5sF0�(B
(�$B1'ET5\Bg1!CO�(B) (�$B3X�(B)�$B!{CSC+�(B �$B2BO/�(B�$B!&�(B (�$B1'ET5\Bg9)�(B) (�$B@5�(B)�$B:4F#�(B �$B9d;K�(B�$B!&�(B (�$B@5�(B)�$B0KF#�(B �$BD>�$B!&�(B (�$B1'ET5\BgG@�(B) �$BFsIS�(B �$B8-0l�(B | 8-c | Extraction of coffee
Hydrothermal
Monocyclic compounds
| 12/9
17:56:43 |
|---|
| 436 | �$B?eAGF)2a%Q%i%8%&%`KlEE6K$rMQ$$$??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 �$BD> | 5-d | Hydrogenation of toluene
Hydrothermal
monocyclic compounds
| 12/22
14:41:17 |
|---|
Monovalent and divalent cations (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 4-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 486 | �$B@52YEEKl$NJ,;R9=B$%b%G%k$K4p$E$/Fs2A%+%A%*%sJ,N%FC@-$NM}O@E*I>2A�(B
(�$B9)3X1!Bg@h?J9)�(B) (�$B3X�(B)�$B!{@';^�(B �$B0l51�(B�$B!&�(B (�$B3X�(B)�$BHu8}�(B �$BH;?M�(B�$B!&�(B (�$B@5�(B)�$B5\@n�(B �$B2mLp�(B�$B!&�(B (�$B@5�(B)�$B9b1)�(B �$BMN=<�(B | 4-a | Nano filtration membrane
Non Equilibrium Molecular Dynamics
Monovalent and divalent cations
| 12/22
16:38:39 |
|---|
Montmorillonite (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-i (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 528 | �$BM-5!=$>~%b%s%b%j%m%J%$%HAX4V$X$NB?4DK'9aB2C:2=?eAG$N5[Ce$K4X$9$kJ,;R%7%_%e%l!<%7%g%s�(B
(�$B9)3X1!Bg@h?J9)�(B) (�$B@5�(B)�$B!{5\@n�(B �$B2mLp�(B�$B!&�(B (�$B3X�(B)�$BW"_7�(B �$B;KLi�(B�$B!&�(B (�$B3X�(B)�$BHu8}�(B �$BH;?M�(B�$B!&�(B (�$B@5�(B)�$B9b1)�(B �$BMN=<�(B | 12-i | Molecular dynamics
Montmorillonite
Adsorption
| 12/22
18:11:28 |
|---|
MOR zeolite membranes (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 4-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 12 | MOR�$B%<%*%i%$%HKl$N%$%=%W%m%T%k%"%k%3!<%kF)2a@-@)8f�(B
(�$B�$B!&�(B �$B5HED�(B �$BM-4u�(B�$B!&�(B �$B;32l�(B �$BVEJ?�(B�$B!&�(B (�$B3X�(B)�$B@P0f�(B �$B9nE5�(B | 4-a | MOR zeolite membranes
Water/Isopropanol
post-treatment
| 12/1
13:56:54 |
|---|
MPL (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 15 | �$B9b291?E>$G�(BMPL�$BM-L5$,�(BPEM�$B$*$h$S�(BGDL�$B$N0[$J$k�(BPEFC�$BC1%;%k$N3F2A�(B
(�$B;0=EBg1!�(B) (�$B3X�(B)�$B!{>.Eg�(B �$BM&:H�(B�$B!&�(B (�$B3X�(B)�$B2,8M�(B �$BC#:H�(B�$B!&�(B (�$B@5�(B)�$B@>B<�(B �$B82�(B�$B!&�(B �$BW"ED�(B �$B??;K�(B | 9-e | PEFC
PEM and GDL thicknesses
MPL
| 12/2
18:48:48 |
|---|
| 114 | �$B8GBN9bJ,;R7AG3NAEECS$NB?9&
(�$BK-EDCf8&�(B) (�$BK!�(B)�$B!{>>2,�(B �$B@$N$;R�(B�$B!&�(B (�$B@5�(B)�$B2CF#�(B �$B8g�(B | 5-i | MPL
SEM
Electron-Staining
| 12/16
12:01:31 |
|---|
mucin (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 7-e (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 562 | �$B%`%A%s�(B-�$B%\%m%s;@Aj8_:nMQ$K$h$j7A@.$5$l$k%R%I%m%2%k$N3+H/$HD2Fb:Y6]G]M\4p:`$X$N1~MQ�(B
(�$B:eBg1!4p9)�(B) (�$B@5�(B)�$B!{CfH*�(B �$B2m�$B!&�(B (�$B:eBg4p9)�(B) �$Bc7F#�(B �$B7=;K�(B�$B!&�(B (�$B:eBg1!4p9)�(B) �$B>.Eh�(B �$B>!�(B�$B!&�(B (�$B@5�(B)�$B6-�(B �$B?5;J�(B | 7-e | hydrogel
mucin
gut microbiome
| 12/22
19:18:41 |
|---|
multi-inclined electrodes (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 13-e (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 72 | �$BB?AX79
(�$BK!@/Bg@8L?�(B) (�$B@5�(B)�$B!{?9�(B �$BN4>;�(B�$B!&�(B (�$BK!@/Bg1!M}9)�(B) �$B0KF#�(B �$BM%�(B�$B!&�(B (�$BK!@/Bg@8L?�(B) �$B>eED�(B �$BE/Li�(B�$B!&�(B (�$B@5�(B)�$BKLB<�(B �$B8&B@�(B | 13-e | aqueous slurry
chemical free flocculation
multi-inclined electrodes
| 12/14
12:13:31 |
|---|
multicomponent system (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 1-a (2�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 89 | �$B?7$7$$3hNL78?t<0$N=cJ*
(�$B6eBg9)�(B) (�$B@5�(B)�$B4d0f�(B �$BK'IW�(B | 1-a | interaction number parameter
new activity coefficient equation
multicomponent system
| 12/14
15:43:06 |
|---|
| 184 | �$B2~NI$7$??7$7$$3hNL78?t<0$rMQ$$$?�(B2,3�$B$*$h$S�(B4�$B@.J,7O5$1UJ?9U$NAj4X�(B
(�$B6eBg1!9)�(B) (�$B3X�(B)�$B!{>>ED�(B �$BM*4u�(B�$B!&�(B (�$B@5�(B)�$B4d0f�(B �$BK'IW�(B | 1-a | interaction number parameter
new activity coefficient model
multicomponent system
| 12/18
17:33:57 |
|---|
multilayer membrane (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 8-e (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 4 | �$B?2-Assisted Polymer Compression�$BB?AXKl@_7W$N8!F$�(B
(�$B;:Am8&2=%W%m�(B) (�$B@5�(B)�$BAj_7�(B �$B?r;K�(B | 8-e | carbon dioxide
multilayer membrane
deep learning
| 11/13
10:53:01 |
|---|
Multimodal chromatography (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 7-c (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 394 | �$B%^%k%A%b!<%@%k%/%m%^%H�(B(MMC)�$BC4BN$KBP$9$k%?%s%Q%/
(�$B5~9)A!Bg1!9)7]�(B) (�$B3X�(B)�$B!{Bg86�(B �$B:L9a�(B�$B!&�(B �$B>.NS�(B �$BNJ�(B�$B!&�(B (�$B3X�(B)�$B_@K\�(B �$BM%N$�(B�$B!&�(B (�$B%o%$%(%`%7%#�(B) (�$BK!�(B)�$B|b66�(B �$BNIJe�(B�$B!&�(B (�$BK!�(B)�$B9b0f�(B �$B9'M'�(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 �$BM[0l�(B | 7-c | Multimodal chromatography
Dynamic binding capacity
Design of Experiment
| 12/22
12:29:36 |
|---|
multipurpose (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SP-8 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 87 | [�$B>7BT9V1i�(B] FM�$B%_%-%5$O
(�$BF|K\%3!<%/%99)6H�(B) (�$BK!�(B)�$B4X�(B �$B??4u�(B | SP-8 | mixer
dispersion
multipurpose
| 12/14
14:10:13 |
|---|
multiscale simulation (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 5-h (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 518 | Multiscale simulation framework for chemical vapor deposition in nonlinear surface reaction kinetics case
(�$BElBg1!9)�(B) (�$B3X�(B)�$B!{�(BZhang Jin�$B!&�(B (�$B@5�(B)Deura Momoko�$B!&�(B (�$B@5�(B)Momose Takeshi�$B!&�(B (�$B@5�(B)Shimogaki Yukihiro | 5-h | multiscale simulation
chemical vapor deposition
nonlinear reaction kinetics
| 12/22
17:51:46 |
|---|
Multistage evaporation (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-c | Continuous evaporation
Multistage evaporation
Highly concentration
| 12/8
15:31:09 |
|---|
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easp 2.46; update.pl 2.37 (C)1999-2015 kawase