 N2O (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-m (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 680 | N2O�$B=|5n$N$?$a$N%<%*%i%$%H5[Ce:^$N3+H/�(B
(�$BElBg1!9)�(B) (�$B3X�(B)�$B!{;32<�(B �$B7KBA�(B�$B!&�(B �$BN-�(B �$B?6El�(B�$B!&�(B (�$B@5�(B)�$B0KgPLZ�(B �$B7rB@�(B�$B!&�(B �$B5\>k�(B �$B>0;R�(B�$B!&�(B (�$B%/%$!<%s%:%i%s%IBg�(B) �$B;3Fb�(B �$BM*Je�(B�$B!&�(B (�$BElBg1!9)�(B) (�$B@5�(B)�$BOF86�(B �$BE0�(B�$B!&�(B (�$B@5�(B)�$BBg5WJ]�(B �$BC#Li�(B | 12-m | zeolite
adsorption
N2O
| 12/22
12:28:43 |
|---|
NADPH overproduction (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 7-f (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 4 | �$BBgD26]$N�(Bpgi�$B0dEA;R7gB;3t$K$h$k8zN(E*$J�(BNADPH�$B@8;:%7%9%F%`$N3+H/�(B
(�$B6e9)Bg1!>p�(B) (�$B@5�(B)�$B!{>>2,�(B �$B7k�(B�$B!&�(B (�$B@5�(B)�$BARED�(B �$BGnG7�(B | 7-f | Kinetic modeling
pgi mutant
NADPH overproduction
| 11/11
14:06:08 |
|---|
nano gel particle (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 4-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 779 | CO2�$BJ,N%$N0Y$NDcJ,;R%"%_%s4^M-%J%N%2%kKl$N0BDj@-I>2A�(B
(�$B6eBg9)�(B) (�$B3X�(B)�$B!{KY0f�(B �$BNC2m�(B�$B!&�(B (�$B6eBg1!9)�(B) �$B:#B<�(B �$BOB;K�(B�$B!&�(B (�$B@5�(B)�$B@1Ln�(B �$BM'�(B�$B!&�(B (�$B@5�(B)�$B;01:�(B �$B2B;R�(B | 4-a | CO2 separation
nano gel particle
low molecular amine
| 12/22
22:30:39 |
|---|
Nano-filler (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 467 | �$B%J%N%U%#%i!r7o2<$G$N%]%j%W%m%T%l%s7k>=2=5sF0$K5Z$\$91F6A�(B
(�$B5~Bg1!9)�(B) (�$B@5�(B)�$B!{0z4V�(B �$BM*B@�(B�$B!&�(B (�$B3X�(B)�$B>>ED�(B �$BOB;N�(B�$B!&�(B �$B9~;3�(B �$BD>5#�(B�$B!&�(B (�$B@5�(B)�$BBgEh�(B �$B@5M5�(B | 12-k | Polypropylene
Nano-filler
Fast scanning calorimetry
| 12/20
17:16:35 |
|---|
nano-sized effect (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-d (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 282 | �$BB?9&@-%J%N7k>=$KJq@]$5$l$?M-5!J,;R$NH/8w@)8f�(B
(�$B9bCN9)Bg1!9)�(B) (�$B3X�(B)�$B!{:dK\�(B �$B$R$+$k�(B�$B!&�(B (�$B9bCN9)Bg�(B) (�$B@5�(B)�$BBgC+�(B �$B@/9'�(B | 12-d | nano-sized effect
metal organic framework
host-guest interaction
| 12/19
13:16:37 |
|---|
Nano-sized titanium oxide (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 757 | �$BD6NW3&Fs;@2=C:AG$rMQ$$$?Fs;@2=%A%?%sI=LLAB?e@-=hM}$H%J%N%3%s%]%8%C%HMQ%U%#%i!<8z2L�(B
(�$B6bBtBg1!<+�(B) (�$B3X�(B)�$B%"%&%0%9%A%s�(B �$B%"%s%.�(B�$B!&�(B (�$B6bBtBgM}9)�(B) �$BBg@}�(B �$BJb�(B�$B!&�(B (�$B@5�(B)�$B!{EDB<�(B �$BOB90�(B | 8-e | Supercritical CO2
Nano-sized titanium oxide
filler
| 12/22
20:48:42 |
|---|
nanocolloid (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 363 | �$B%J%N%3%m%$%I$N8B30_I2a$K$*$1$k%1!<%/6u7dN($N4J0WI>2AK!�(B
(�$BL>Bg1!9)�(B) (�$B@5�(B)�$B!{JR6M�(B �$B@?G7�(B�$B!&�(B (�$B3X�(B)�$BA}ED�(B �$B@2�$B!&�(B (�$B@5�(B)�$BF~C+�(B �$B1Q;J�(B | 4-b | filtration
cake porosity
nanocolloid
| 12/20
09:50:54 |
|---|
nanocomposite (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-d (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 126 | �$B7V8w%7%j%+%J%NN3;R$rMxMQ$7$?%U%l%-%7%V%k$J7V8w%J%N%3%s%]%8%C%HKl$N:n@=�(B
(�$BElKLBg9)�(B) (�$B3X�(B)�$B!{KvED�(B �$BNI�$B!&�(B (�$BElKLBg1!9)�(B) (�$B3X�(B)�$B:4F#�(B �$B>;5*�(B�$B!&�(B (�$B@5�(B)�$BEOIt�(B �$B2VF`;R�(B�$B!&�(B (�$B@5�(B)�$BD9Hx�(B �$BBgJe�(B | 12-d | flexible
luminescence
nanocomposite
| 12/17
11:01:29 |
|---|
nanocomposite thin film (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-h (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 452 | [�$BM%=(O@J8>^�(B] �$B%3%s%]%8%C%HGvKl$N�(Bdewetting�$B5sF0$K5Z$\$9%J%NN3;R$NI=LL=$>~:?$N1F6A�(B
(�$BElKLBg1!9)�(B) (�$B@5�(B)�$B2CF#�(B �$B9*�(B�$B!&�(B (�$B3$�(B)�$BN-�(B �$BMN�(B�$B!&�(B (�$B@5�(B)�$BB<0f�(B �$BM%B@�(B�$B!&�(B (�$B@5�(B)�$B!{5WJ]�(B �$B@5�$B!&�(B (�$B@5�(B)�$B>1;J�(B �$B1RB@�(B�$B!&�(B (�$B@5�(B)�$BDMED�(B �$BN4IW�(B�$B!&�(B (�$BL>Bg1!9)�(B) (�$B@5�(B)�$B9b8+�(B �$B@?0l�(B�$B!&�(B (�$BElKLBg�(BAIMR) (�$B@5�(B)�$B0$?,�(B �$B2mJ8�(B | 12-h | nanocomposite thin film
dewetting
surface modifier
| 12/20
16:38:31 |
|---|
Nanoemulsions (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SS-4 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 28 | [�$B>7BT9V1i�(B] �$B%^%$%/%m%_%-%5!<$rMQ$$$?O"B3F}2=%W%m%;%9�(B
(�$B2V2&�(B) (�$B@5�(B)�$B!{?">>�(B �$BN4;K�(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�$B!&�(B (�$BK!�(B)�$B9bLZ�(B �$B=S2p�(B�$B!&�(B (�$BK!�(B)�$B9b66�(B �$BL@I'�(B�$B!&�(B (�$BK!�(B)�$B9bLZ�(B �$BF;:H�(B�$B!&�(B (�$BK!�(B)�$B3dED�(B �$B9@>O�(B | SS-4 | Microdevice
Nanoemulsions
scale up
| 12/2
14:53:01 |
|---|
nanofiber membrane (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 4-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 767 | Preparation and protein separation application of cibacron blue-modified electrospun PVA membrane
(�$BL>Bg9)�(B) (�$B3X�(B)�$B!{N-�(B �$B>>�(B�$B!&�(B �$BOI8+�(B �$BBsO/�(B�$B!&�(B (�$B@5�(B)�$B8~0f�(B �$B9/?M�(B | 4-a | membrane preparation
protein separation
nanofiber membrane
| 12/22
21:21:23 |
|---|
Nanofiltration mmebranes (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 593 | Preparation of NF membranes for ion separation based on membrane surface reaction
(Kobe U.) (�$B@5�(B)�$B!{�(BRajabzadeh Saeid�$B!&�(B (Iran U. Sci. and Tech.) Bagheri Maryam�$B!&�(B (Razi U.) Bakhtiari Omid�$B!&�(B (Mansoura U.) Elmarghany Mohamed�$B!&�(B (Iran U. Sci. and Tech.) Moattari Rozita�$B!&�(B Toraj Mohammadi�$B!&�(B (Kobe U.) (�$B@5�(B)Matsuyama Hideto | 4-a | Nanofiltration mmebranes
Surface reaction
Ion separation
| 12/21
15:02:36 |
|---|
Nanofluid (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 9-b (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 79 | �$B%(%A%l%s%0%j%3!<%k$r
(�$BK-EDCf8&�(B) (�$B@5�(B)�$B!{66K\�(B �$B=SJe�(B�$B!&�(B (�$BK!�(B)�$Bi61r�(B �$B8y0l�(B�$B!&�(B (�$BK!�(B)�$B;3Fb�(B �$B?r;K�(B | 9-b | Nanofluid
Heat transfer coefficient
Dispersibility
| 12/12
08:35:27 |
|---|
Nanofluids (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 3-f (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 16 | �$B?eJ?1_4IFb$K$*$1$k%J%N%U%k!<%I$NAXN.6/@)BPN.G.EAC#�(B
(�$B;37ABg�(B) (�$B@5�(B)�$B!{@V>>�(B �$B@5?M�(B�$B!&�(B �$BNkLZ�(B �$B44;N�(B | 3-f | Nanofluids
Laminar flow
Forced convection
| 11/26
09:53:30 |
|---|
Nanogel (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 11-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 716 | �$B%J%N%2%kMO1U$N29EY1~Ez@-�(BpH�$BJQ2=$rMQ$$$?29EY:9N.F0EECS$N3+H/�(B
(�$B6eBg9)�(B) (�$B3X�(B)�$B!{3T�(B �$BK\?c�(B�$B!&�(B (�$B@5�(B)�$B;01:�(B �$B2B;R�(B�$B!&�(B (�$B@5�(B)�$B@1Ln�(B �$BM'�(B | 11-a | Redox Flow Battery
Nanogel
Thermocell
| 12/22
16:00:47 |
|---|
Nanomaterials (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B K-2 (2�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 166 | [�$B%"%8%"9q:]>^�(B] Nanomaterials as High-Capacity Rechargeable Battery Electrodes
(Nat. Tsing Hua U.) Tuan Hsing-Yu | K-2 | Nanomaterials
Battery
| 12/18
11:51:05 |
|---|
| 174 | [�$B0MMj9V1i�(B] Nanomaterials for Electrodes of Fuel Cells and Water Electrolysis
(�$BEl9)Bg2=@88&�(B) (�$B@5�(B)�$BED4,�(B �$B9'7I�(B | K-2 | Nanomaterials
Fuel Cells
Water electrolysis
| 12/18
12:52:33 |
|---|
nanoparticle (10�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-a (3�$B7o�(B), 12-d (2�$B7o�(B), 12-c (2�$B7o�(B), 3-b (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 22 | Quantifying aerosol-based synthesis of functional nanoparticle using differential mobility analysis coupled to Fourier-transform infrared spectroscopy: applications to catalyst and electrode materials
(Nat. Tsing-Hua U.) (�$B3X�(B)�$B!{�(BChiang Hsin-Li�$B!&�(B (�$BBf�(B)Chen Yu-Shen�$B!&�(B (�$B3X�(B)Sun Yu-An�$B!&�(B (�$B@5�(B)Wong David Shan-Hill�$B!&�(B (�$BBf�(B)Tsai De-Hao | 12-d | nanoparticle
aerosol
| 11/28
15:42:09 |
|---|
| 135 | �$BC4BN$N8w;6Mp$rMxMQ$7$?6b%J%NN3;R$K$h$k%W%i%:%b%s5[<}$NA}6/�(B
(�$B;37ABg9)�(B) (�$B3X�(B)�$B!{T*�(B �$BBg�$B!&�(B (�$B;37ABg1!M}9)�(B) �$B9>L\�(B �$B9(�$B!&�(B (�$B@5�(B)�$BF#86�(B �$BfF�(B | 12-c | Plasmon
Nanoparticle
Au
| 12/17
15:15:34 |
|---|
| 203 | �$BM-5!�(B-�$BL55!%O%$%V%j%C%I%3!<%H$r$7$?;@2=%S%9%^%9%J%NN3;R$NI=LLFC@-$K4X$9$k4pACE*8&5f�(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 �$B>;90�(B�$B!&�(B (�$B%H%/%d%^�(B) (�$BK!�(B)�$B@n:j�(B �$B9dH~�(B | 12-c | nanoparticle
coating
organic-inorganic hybrid
| 12/18
15:57:25 |
|---|
| 285 | �$B1UCf$K$*$1$k%J%NN3;RI=LL$H%j%,%s%I$N4V$NI=LL2=3X�(B
(�$BG@9)Bg�(B) (�$B3X�(B)�$B!{;32<�(B �$BfFJ?�(B�$B!&�(B (�$B3X�(B)�$B?\F#�(B �$BC#Li�(B�$B!&�(B (�$B@5�(B)�$B?@C+�(B �$B=(Gn�(B�$B!&�(B (�$B@5�(B)�$B2,ED�(B �$BMNJ?�(B | 12-a | nanoparticle
surface chemistry
ligand exchange
| 12/19
13:26:59 |
|---|
| 292 | �$B;@2=E4%J%NN3;RJ,;6$K$*$1$kAB?e@-%j%,%s%I$N9=B$5!G=Aj4X�(B
(�$BG@9)Bg1!�(BBASE) (�$B3X�(B)�$B!{?\F#�(B �$BC#Li�(B�$B!&�(B (�$B@5�(B)�$B?@C+�(B �$B=(Gn�(B�$B!&�(B (�$B@5�(B)�$B2,ED�(B �$BMNJ?�(B | 12-a | nanoparticle
ligand
colloidal stability
| 12/19
13:48:23 |
|---|
| 307 | �$B%U%!%$%s%P%V%k$NI=LLFC@-$rMxMQ$7$?%J%NN3;R$N3+H/�(B
(�$BM-L@9b@l�(B) (�$B3X�(B)�$B!{EOJU�(B �$B9a?%�(B�$B!&�(B (�$B:4@$J]9b@l�(B) �$BEDCf�(B �$BBYI'�(B�$B!&�(B (�$B@5�(B)�$B>kLn�(B �$BM4@8�(B�$B!&�(B (�$BM-L@9b@l�(B) (�$B@5�(B)�$BBg2OJ?�(B �$B5*;J�(B | 4-e | Fine bubble
Ion complex
Nanoparticle
| 12/19
14:56:56 |
|---|
| 502 | �$BD6NW3&M-5!=$>~$K$h$k;@2=E4%J%NN3;R$NO*=PLL@)8f$H$=$N;@AGCyB"G=�(B
(�$BElKLBg1!9)�(B) (�$B3X�(B)�$B!{EOn5�(B �$BM5B@�(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(�$BElKLBg�(BWPI-AIMR/�$BElKLBg�(BNICHe/�$BElKLBgB?858&�(B) (�$B@5�(B)�$B0$?,�(B �$B2mJ8�(B | 12-d | Supercritical hydrothermal synthesis
nanoparticle
oxygen storage capacity
| 12/20
18:44:00 |
|---|
| 651 | �$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 | 12-a | cell membrane
nanoparticle
electric field
| 12/22
00:14:08 |
|---|
| 764 | �$B%"%k%4%s�(B-�$BCbAGJ70O5$$K$*$1$kB?Aj8rN.%"!<%/$N29EYJQF0�(B
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High-speed visualization
Nanoparticle
| 12/22
21:07:11 |
|---|
| 775 | [�$B0MMj9V1i�(B] �$B5!G=@-%J%NN3;R$N4D6-DcIi2Y7?9g@.K!$N3+H/�(B
(�$B;38}Bg1!AO�(B) (�$B@5�(B)�$B@P0f�(B �$B<#G7�(B | HQ-21 | nanoparticle
environmentally-friendly
functional particle
| 12/22
22:22:56 |
|---|
nanoparticles (7�$B7o�(B) |
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| 416 | SFEE�$BK!$rMQ$$$?5!G=@-%J%N%+%W%;%k$ND4@=�(B
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Supercritical Carbon Dioxide
Nanoparticles
| 12/20
14:09:59 |
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| 429 | �$B%"%k%D%O%$%^!
(�$BElBg1!0e�(B) (�$B@5�(B)�$B!{B@ED�(B �$B@?0l�(B�$B!&�(B (�$BElBg1!9)�(B) �$B>.LnB<�(B �$BCNG7�(B�$B!&�(B (�$BElBg1!0e�(B/�$BElBg1!9)�(B) (�$B@5�(B)�$B0KF#�(B �$BBgCN�(B | 7-e | Drug Delivery
Nanoparticles
Amyloid
| 12/20
15:08:33 |
|---|
| 469 | �$BD6NW3&?eG.%U%m!<9g@.%7%9%F%`$K$h$k9bG;EY%/%m%`%I!<%W%;%j%"%J%NN3;R$N7A@.5!9=$N2rL@�(B
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mechanism
nanoparticles
| 12/20
17:17:12 |
|---|
| 474 | Basic Composite Nanoparticles for Catalysis of Transesterification to Biodiesel Production
(Nat. Tsing-Hua U.) (�$BBf�(B)�$B!{�(BChen Yu-Shen�$B!&�(B (�$BBf�(B)Tsai De-Hao | 12-c | Biodiesel
Transesterification
Nanoparticles
| 12/20
17:21:48 |
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| 513 | �$B9ZJl$X$N%J%N%W%i%9%A%C%/$NIUCe!&
(�$BJ!2,Bg9)�(B) (�$B3X�(B)�$B!{>.Eh�(B �$B??5(�(B�$B!&�(B �$B;V3@�(B �$BCN2B�(B�$B!&�(B (�$B@5�(B)�$BW"66�(B �$BM3H~;R�(B�$B!&�(B (�$B@5�(B)�$B@%8M�(B �$B900l�(B�$B!&�(B (�$B@5�(B)�$B?78M�(B �$B9@9,�(B | 12-d | Yeast cells
Nanoparticles
Cytotoxicity
| 12/20
19:04:24 |
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| 585 | �$BCJ3,E*Cj=P$K$h$kA*Br@-$N9b$$%;%m%H%K%s8!=P7V8w@-J,;R%$%s%W%j%s%H%]%j%^!<%J%NN3;R$ND4@0�(B
(�$B�$B!&�(B (�$B@5�(B)�$B5H8+�(B �$BLwCK�(B | 7-e | serotonin
molecularly imprinted polymer
nanoparticles
| 12/21
14:12:47 |
|---|
| 641 | Low-temperature chemical conversion with highly active nanomaterials synthesised using the supercritical hydrothermal method
(Tohoku U. NICHe) (�$B@5�(B)�$B!{�(BSeong Gimyeong�$B!&�(B (Tohoku U. WPI-AIMR) (�$B@5�(B)Yoko Akira�$B!&�(B (Tohoku U. IMRAM) (�$B@5�(B)Tomai Takaaki�$B!&�(B (Tohoku U. WPI-AIMR) (�$B@5�(B)Adschiri Tadafumi | 8-e | nanoparticles
low-temperature
supercritical
| 12/21
21:45:44 |
|---|
nanosheet (1�$B7o�(B) |
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nanosheet
layered structure
| 12/22
14:40:22 |
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Nanosheets (1�$B7o�(B) |
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Zeolite
surfactants
| 12/20
16:11:38 |
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nanostructure (2�$B7o�(B) |
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| 73 | Nickel-based Hybrid Nanostructure as High-Performance Catalysts for Dry Reforming of Methane
(Nat. Tsing-Hua U.) (�$B3X�(B)�$B!{�(BLiang T. Y.�$B!&�(B (�$BBf�(B)Tsai D. H. | 12-c | Aerosol
nanostructure
DRM
| 12/10
11:32:06 |
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| 481 | �$B%J%N9=B$%$%*%s1U>=$NJ,;RF0NO3X8&5f�(B:�$B5[?e@-$H3H;6@-�(B
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ionic liquid crystals
nanostructure
| 12/20
17:51:36 |
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Nanostructured Catalyst (1�$B7o�(B) |
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| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-i (1�$B7o�(B) |
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Carbon-Free
Nanostructured Catalyst
| 12/21
16:05:54 |
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Nanostructured materials (1�$B7o�(B) |
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| 12/20
15:50:46 |
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nanostructures (1�$B7o�(B) |
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| 342 | [�$B>7BT9V1i�(B] Morphologically Tuned Lithium Silicate Based Ceramic Nanostructures for Enhanced CO2 Sorption
(CSIR-NIIST) �$B!{�(BU. S. Hareesh�$B!&�(B P. V. Subha�$B!&�(B V. Vijayan�$B!&�(B R. Achu�$B!&�(B(�$B%N%j%?%1%+%s%Q%K!<%j%_%F%I�(B) (�$BK!�(B)Balagopal N. Nair | K-2 | carbon dioxide sorption
lithium silicate
nanostructures
| 12/19
19:32:09 |
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Naphtha (2�$B7o�(B) |
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| 12/18
13:16:28 |
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catalytic cracking
light olefins
| 12/19
14:32:17 |
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Natural Organic Matter (1�$B7o�(B) |
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| 290 | Flocculation behaviour of colloidal particles induced by different cationic flocculant structure in the presence of polyanion
(U. Tsukuba) (�$B3X�(B)�$B!{�(BLim Voon Huey�$B!&�(B Yamashita Yuji�$B!&�(B (�$B@5�(B)Adachi Yasuhisa | 4-b | Flocculation behaviour
Natural Organic Matter
Branched Polymer
| 12/19
13:40:02 |
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Natural Products (1�$B7o�(B) |
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| 275 | Combined Applications of Supercritical CO2 Extraction and Molecular Distillation
(�$BL>Bg�(B) (�$B3X�(B)�$B!{�$B!&�(B (�$B@5�(B)Wahyudiono�$B!&�(B (�$B@5�(B)�$B?@ED�(B �$B1Q51�(B�$B!&�(B (�$B@5�(B)�$B8eF#�(B �$B85?.�(B�$B!&�(B (华�$BFnM}9)Bg�(B) �$B�$B!&�(B (�$B9-=#�(BHaoli�$B%P%$%*%F%/%N%m%8!<�(B) 冯 �$B;V9k�(B | 8-c | Supercritical Fluid
Molecular Distillation
Natural Products
| 12/19
12:41:09 |
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neural network model (1�$B7o�(B) |
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Solubility
neural network model
| 12/22
20:00:48 |
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neutron radiography (1�$B7o�(B) |
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|---|
| 392 | �$BCf@-;R%i%8%*%0%i%U%#$rMQ$$$?D6NW3&?eCf$N=E
(�$BElKLBg1!9)�(B) (�$B@5�(B)�$B!{>1;J�(B �$B1RB@�(B�$B!&�(B (�$BElKLBg9)�(B) �$B5FCS�(B �$BN442�(B�$B!&�(B (�$BElKLBg1!9)�(B) (�$B@5�(B)�$B;3:]�(B �$B9,;NO:�(B�$B!&�(B (�$B@5�(B)�$B5WJ]�(B �$B@5�$B!&�(B (�$B@5�(B)�$BDMED�(B �$BN4IW�(B�$B!&�(B (�$BL>Bg1!9)�(B) (�$B@5�(B)�$B9b8+�(B �$B@?0l�(B�$B!&�(B (�$B?@8MBg1!9)�(B) �$B?yK\�(B �$B>!H~�(B�$B!&�(B (�$B5~BgJ#9g8&�(B) �$B0KF#�(B �$BBg2p�(B�$B!&�(B �$BsnF#�(B �$BBY;J�(B | 3-a | neutron radiography
heavy oil
supercritical water
| 12/20
12:08:01 |
|---|
New extraction reagent (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$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 | �$B | |
|---|
| 240 | 3�$B
(�$B:42lBgM}9)�(B) (�$B@5�(B)�$B!{BgEO�(B �$B7<2p�(B�$B!&�(B (�$B:42lBg1!9)�(B) �$B^�$B!&�(B (�$B:42lBgM}9)�(B) (�$B@5�(B)�$B?9Dg�(B �$B??B@O:�(B�$B!&�(B (�$B@5�(B)�$B@n4nED�(B �$B1Q9'�(B | 4-f | New extraction reagent
different frameworks
metal extraction
| 12/18
20:36:47 |
|---|
New Type Impeller (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 2-b (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 8 | �$B%J%9%U%i%9%3MQ�(BHB�$BMc7?%9%?!<%i!<$N3+H/�(B
(�$BL>9)Bg1!9)�(B) (�$B3X�(B)�$B!{I~It�(B �$BBgJe�(B�$B!&�(B (�$B@5�(B)�$B2CF#�(B �$BDw?M�(B�$B!&�(B (�$B@5�(B)�$B8E@n�(B �$BM[51�(B�$B!&�(B (�$B00@=:n=j�(B) (�$BK!�(B)�$BCSED�(B �$BLwG7�(B�$B!&�(B (�$BK!�(B)�$BCf@>�(B �$BAoOB�(B | 2-b | Mixing
Magnetic Stirrer
New Type Impeller
| 11/19
10:26:25 |
|---|
Next-generation chemical plant (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SP-9 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 201 | [�$B>7BT9V1i�(B] �$B%@%$%;%k<0@8;:3W?7$N
(�$B%@%$%;%k�(B) (�$BK!�(B)�$B6aF#�(B �$B909/�(B | SS-7 | Next-generation chemical plant
Standardization
Intelligent and Integrated Production System
| 12/18
15:47:48 |
|---|
| 216 | [�$B>7BT9V1i�(B] �$B%@%$%;%k<0@8;:3W?7$N
(�$B%@%$%;%k�(B) (�$BK!�(B)�$B6aF#�(B �$B909/�(B | SP-9 | Next-generation chemical plant
Standardization
Intelligent and Integrated Production System
| 12/18
16:37:33 |
|---|
NF membrane (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 4-a (2�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 238 | TiO2-ZrO2-�$BM-5!%-%l!<%HG[0L;R�(B(OCL)�$BJ#9gKl$NM-5!MO:^%J%N$m2aFC@-�(B
(�$B?@8MBg1!9)�(B/�$B@hC�$B!&�(B (�$B?@8MBg1!2J5;%$%N%Y�(B/�$B@hC�$B!&�(B (�$B@5�(B)�$BCf@n�(B �$B7I;0�(B�$B!&�(B (�$B@5�(B)�$B?7C+�(B �$BBn;J�(B�$B!&�(B (�$B?@8MBg1!9)�(B/�$B@hC�$B!&�(B (�$B@5�(B)�$B>>;3�(B �$B=(?M�(B | 4-a | titania-zirconia
NF membrane
organic solvent
| 12/18
19:26:35 |
|---|
| 344 | �$B9g@.M-5!2=9gJ*$NJ,N%@:@=$N$?$a$N?75,�(BNF�$BKl5Z$S%W%m%;%93+H/�(B
(�$B?@8MBg1!2J5;%$%N%Y�(B/�$B@hC�$B!&�(B (�$B@5�(B)�$B?7C+�(B �$BBn;J�(B�$B!&�(B (�$B@5�(B)�$BCf@n�(B �$B7I;0�(B�$B!&�(B (�$B?@8MBg1!9)�(B/�$B@hC�$B!&�(B (�$B@5�(B)�$B>>;3�(B �$B=(?M�(B�$B!&�(B (�$B?@8MBg1!2J5;%$%N%Y�(B/�$B@hC | 4-a | NF membrane
Synthetic organic compounds
Separation and purification
| 12/19
20:07:31 |
|---|
Ni leaching (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 5-i (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 624 | Ni-Co�$B:.9gN22=J*$+$i$N�(BNi�$B?;=PB.EY8~>e$K4X$9$k8!F$�(B
(�$B6eBg1!9)�(B) (�$B3X�(B)�$B!{@nED�(B �$B42G7�(B�$B!&�(B (�$B@5�(B)�$B;3K\�(B �$B9d�(B�$B!&�(B (�$B@5�(B)�$B4_ED�(B �$B>;9@�(B�$B!&�(B (�$B=;M'6bB09[;3�(B) (�$BK!�(B)�$BJ?74�(B �$B?-0l�(B | 5-i | Nickel-Cobalt mixed sulfide
Ni leaching
Sulfer oxidation
| 12/21
18:40:20 |
|---|
Ni particle (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-c (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 713 | Ni�$BN3;R$rFbJq$7$?E|8GDj2=�(BPMMA�$BN3;R$N?eAj9g@.�(B
(�$B0q>kBg1!M}9)�(B) (�$B@5�(B)�$B!{;3Fb�(B �$B5*;R�(B�$B!&�(B (�$B0q>kBg9)�(B) �$BLt;U;{�(B �$B8,2p�(B�$B!&�(B (�$B0q>kBg1!M}9)�(B) (�$B3X�(B)�$BED;R�(B �$B0&M}�(B�$B!&�(B (�$B@5�(B)�$B>.NS�(B �$BK'CK�(B | 12-c | sugar-immobilized polymer particle
Ni particle
aqueous formation
| 12/22
15:49:25 |
|---|
Nickel Hydroxide Agglomerates (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B K-4 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 552 | Formation of Nickel Hydroxide Agglomerates by Continuous Precipitation with Ammonium Ions
(NIT Suzuka) (�$B@5�(B)Funakoshi Kunio | K-4 | Continuous Precipitation
Nickel Hydroxide Agglomerates
Ammonium Ions
| 12/20
22:41:45 |
|---|
Nickel-Cobalt mixed sulfide (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 5-i (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 624 | Ni-Co�$B:.9gN22=J*$+$i$N�(BNi�$B?;=PB.EY8~>e$K4X$9$k8!F$�(B
(�$B6eBg1!9)�(B) (�$B3X�(B)�$B!{@nED�(B �$B42G7�(B�$B!&�(B (�$B@5�(B)�$B;3K\�(B �$B9d�(B�$B!&�(B (�$B@5�(B)�$B4_ED�(B �$B>;9@�(B�$B!&�(B (�$B=;M'6bB09[;3�(B) (�$BK!�(B)�$BJ?74�(B �$B?-0l�(B | 5-i | Nickel-Cobalt mixed sulfide
Ni leaching
Sulfer oxidation
| 12/21
18:40:20 |
|---|
nitrogen (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 5-c (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 402 | �$B3h@-2=CbAG5$Aj!??eAj$K$*$1$k2�$B!v�(B)�$B$NH?1~$N4sM?�(B
(�$B6e9)Bg1!@8L?BN�(B) (�$B3X�(B)�$B!{�$B!&�(B (�$B3X�(B)�$BEZED�(B �$BM*EM�(B�$B!&�(B �$B9bDT�(B �$B5A9T�(B�$B!&�(B (�$B@5�(B)�$B=U;3�(B �$BE/Li�(B | 5-c | ammonia
plasma
nitrogen
| 12/20
13:35:46 |
|---|
No heating (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B SP-10 (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 257 | [�$B>7BT9V1i�(B] �$B%S!<%kMQ�(B �$BC&%"%k%3!<%k%7%9%F%`�(B(�$BKlJ,N%5;=Q�(B)
(GEA�$B%8%c%Q%s�(B) (�$BK!�(B)�$B:,K\�(B �$B7r;J�(B | SP-10 | Dealcoholization
Minimum Aroma loss
No heating
| 12/19
10:40:13 |
|---|
Non equilibrium molecular dynamics (3�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 4-a (3�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 508 | Mixed Matrix�$BKl$K$h$kFs;@2=C:AGJ,N%$NJ,;R%7%_%e%l!<%7%g%s�(B
(�$B9)3X1!Bg@h?J9)�(B) (�$B3X�(B)�$B!{Hx_7�(B �$B7rL@�(B�$B!&�(B (�$B3X�(B)�$BW"_7�(B �$B;KLi�(B�$B!&�(B (�$B@5�(B)�$B9b1)�(B �$BMN=<�(B | 4-a | Non Equilibrium Molecular Dynamics
Gas Separation
Mixed Matrix Membrane
| 12/20
18:54:53 |
|---|
| 523 | RO�$BJ,N%MQ%<%*%i%$%HKl$NF)2aB&Dq93$H%U%i%C%/%9$H$N4XO"@-�(B:�$BJ,;R%7%_%e%l!<%7%g%s$K$h$k8!F$�(B
(�$B9)3X1!Bg@h?J9)�(B) (�$B3X�(B)�$B!{F#Eg�(B �$B7rMN�(B�$B!&�(B (�$B3X�(B)�$BHu8}�(B �$BH;?M�(B�$B!&�(B (�$B@5�(B)�$B9b1)�(B �$BMN=<�(B | 4-a | Non equilibrium molecular dynamics
zeolite membranes
organic solvent reverse osmosis
| 12/20
19:39:23 |
|---|
| 538 | �$B9b052<$K$*$1$k%<%*%i%$%HKl$N�(BCO2�$BJ,N%FC@-$K4X$9$k7W;;2=3XE*8!F$�(B
(�$B9)3X1!Bg@h?J9)�(B) (�$B3X�(B)�$B!{W"_7�(B �$B;KLi�(B�$B!&�(B (�$B@5�(B)�$B9b1)�(B �$BMN=<�(B | 4-a | Non equilibrium molecular dynamics
zeolite membrane
high pressure condition
| 12/20
20:42:24 |
|---|
Non-classical-nucleation (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 8-e (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 478 | �$BD6NW3&:.9gMOG^$rMQ$$$?%A%?%s;@%P%j%&%`$N%J%N%5%$%:2=�(B
(�$BElKLBg�(BAIMR) (�$B@5�(B)�$B!{2#�(B �$BE/�(B�$B!&�(B (�$BElKLBg9)�(B) (�$B3X�(B)�$BFbF#�(B �$B9@51�(B�$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 (�$BElKLBg�(BAIMR) (�$B@5�(B)�$B0$?,�(B �$B2mJ8�(B | 8-e | Supercritical
BaTiO3
Non-classical-nucleation
| 12/20
17:33:30 |
|---|
non-isothermal detailed column model (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 4-e (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 791 | �$BAjJQ2=:`NA$K$h$kG.Jd=~8z2L$r
(�$B5~Bg9)�(B) (�$B3X�(B)�$B!{:dCf�(B �$BM&B@�(B�$B!&�(B (�$B@5�(B)�$BJ?=P�(B �$BfFB@O:�(B�$B!&�(B �$BJ?DM�(B �$BN6>-�(B�$B!&�(B (�$B@5�(B)�$BEDCf�(B �$B=(�$B!&�(B (�$BBg:e%,%9%1%_%+%k�(B) �$B>.Eh�(B �$B2F;R�(B�$B!&�(B �$B;3:,�(B �$B9/G7�(B�$B!&�(B (�$B5~Bg9)�(B) (�$B@5�(B)�$B5\86�(B �$BL-�(B | 4-e | non-isothermal detailed column model
phase change material
breakthrough curve
| 12/22
23:21:52 |
|---|
non-Newtonian fluid (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 2-b (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 214 | Metzner-Otto�$B7?Aj4X$rMQ$$$?%9%?%F%#%C%/%_%-%5!<$NJ?6Q$;$sCGB.EY$NM=B,�(B
(�$B?@8MBg9)�(B) (�$B3X�(B)�$B!{>.@>�(B �$BM55.�(B�$B!&�(B (�$B?@8MBg1!9)�(B) (�$B@5�(B)�$BKY9>�(B �$B9';K�(B�$B!&�(B (�$B%+%M%+�(B) (�$B@5�(B)�$BK-ED�(B �$B6fF)�(B�$B!&�(B (�$B?@8MBg1!9)�(B) (�$B@5�(B)�$BBgB<�(B �$BD>?M�(B | 2-b | static mixer
non-Newtonian fluid
| 12/18
16:33:32 |
|---|
non-spherical particles (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 2-b (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 288 | �$BHs5e7AN3;R$NYxYBAeFb9=B$J*$X$N>WFM8=>]$N2r@O�(B
(�$B72GO9b@l�(B) (�$B3X�(B)�$B!{@iL@�(B �$BCN9-�(B�$B!&�(B (�$B@5�(B)�$B9)F#�(B �$BfF;|�(B | 2-b | non-spherical particles
Shape factor
Collision phenomena
| 12/19
13:37:59 |
|---|
NOx (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 9-c (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 61 | �$B%j%"%/%?%M%C%H%o!<%/2r@O$K$h$kHyJ4C:G3>F$NH?1~FC@-I>2A�(B
(�$B?@8M@=9]=j�(B) (�$B@5�(B)�$B!{@6?e�(B �$BEX�(B�$B!&�(B (�$B4tIlBg9)�(B) (�$B@5�(B)�$B?@86�(B �$B?.;V�(B | 9-c | chemical kinetics
NOx
drop tube furnace
| 12/5
17:35:58 |
|---|
Nozzle Injection (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 2-g (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
|---|
| 381 | �$BG4CF@-N.BN$N%N%:%k
(�$B?@8MBg9)�(B) (�$B3X�(B)�$B!{?92,�(B �$B7r8c�(B�$B!&�(B (�$B?@8MBg1!9)�(B) (�$B@5�(B)�$BNkLZ�(B �$BMN�(B�$B!&�(B (�$B@5�(B)�$BF|=P4V�(B �$B$k$j�(B | 2-g | Nozzle Injection
Viscoelastic Fluid
Satellite Droplet
| 12/20
10:53:02 |
|---|
Nucleate Boiling (1�$B7o�(B) |
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| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 2-e (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
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| 80 | �$B9bG4@-N.BNCf$G$N3KJ(F-$K$h$k5$K"$NO"B3@8@.5sF0$N?tCM2r@O�(B
(�$BFAEgBg1!@hC<650iIt�(B) (�$B3X�(B)�$B!{W"2,�(B �$BM&?M�(B�$B!&�(B (�$BFAEgBg1! | 2-e | Nucleate Boiling
Bubble Formation
High Viscous Liquid
| 12/12
11:05:41 |
|---|
Nucleation (2�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-g (2�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
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| 224 | �$B>W7b3K2=$K$*$h$\$9A`:n0x;R$N1F6A�(B
(�$BAaBgM}9)8&�(B) (�$B@5�(B)�$B!{EOn5�(B �$BM5G7�(B�$B!&�(B (�$BAaBg@h?JM}9)�(B) (�$B@5�(B)�$BJ?Bt�(B �$B@t�(B | 12-g | Nucleation
Supercooled Melt
Solid Collision
| 12/18
17:28:20 |
|---|
| 703 | �$BB?9&@-G[0L9bJ,;R�(BHKUST-1 �$B$N7k>=@.D92aDx$NB.EYO@E*2r@O�(B
(�$B9-Bg1!9)�(B) (�$B@5�(B)�$B!{5WJ]�(B �$BM%�(B�$B!&�(B �$B;3yu�(B �$B=Y�(B�$B!&�(B (�$B@5�(B)�$BEgED�(B �$B3X�(B | 12-g | Metal-organic framework
Nucleation
| 12/22
14:43:29 |
|---|
Numerical modeling (1�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 6-g (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
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| 823 | [�$B0MMj9V1i�(B] AI�$B;~Be$K$*$1$k5!G=:`3+H/J,Ln$N?tM}%b%G%j%s%0�(B
(�$BElBg9)�(B) (�$B@5�(B)�$B5H9>�(B �$B7z0l�(B | 6-g | Functional product
Numerical modeling
AI
| 12/25
14:26:40 |
|---|
Numerical simulation (6�$B7o�(B) |
|---|
| �$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'�(B 12-h (2�$B7o�(B), 2-a (2�$B7o�(B), 12-a (1�$B7o�(B) |
| �$B�$BHV9f�(B | �$B9V1iBjL\!?H/I=| �$BJ,N`�(B | �$B%-!<%o!<%I�(B | �$B | |
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| 130 | �$B%+!<%F%s%3!<%F%#%s%0$N?tCM%7%_%e%l!<%7%g%s�(B
(�$B:k6LBg9)�(B) (�$B3X�(B)�$B!{@iMU�(B �$B9/B@O:�(B�$B!&�(B (�$B:k6LBg1!M}9)�(B) (�$B3X�(B)�$B@iMU�(B �$B>"�(B�$B!&�(B (�$B3X�(B)�$BCfEg�(B �$BNKB@�(B�$B!&�(B (�$B@5�(B)�$BK\4V�(B �$B=S;J�(B�$B!&�(B (�$B%5%$%G%s2=3X�(B) �$BG_5\�(B �$B90OB�(B�$B!&�(B �$B>.ED�(B �$B=c5W�(B | 12-h | Coating
Numerical Simulation
| 12/17
14:57:59 |
|---|
| 152 | �$BG4Ce:^EII[Kl$K@8$8$k%T%s%[!<%k$N@.D9B.EY�(B
(�$B:k6LBg1!M}9)�(B) (�$B3X�(B)�$B!{@iMU�(B �$B>"�(B�$B!&�(B (�$B3X�(B)�$BCfEg�(B �$BNKB@�(B�$B!&�(B (�$B@5�(B)�$BK\4V�(B �$B=S;J�(B�$B!&�(B (�$B%5%$%G%s2=3X�(B) �$BBg5WJ]�(B �$BMNM$�(B�$B!&�(B �$BG_5\�(B �$B90OB�(B�$B!&�(B �$B>.ED�(B �$B=c5W�(B | 12-h | Numerical simulation
Pinhole
Contact angle
| 12/17
18:13:45 |
|---|
| 268 | �$B6E=8BN7A@.2aDx$r5-=R$9$kN3;R4V@\?(%b%G%k�(B
(�$BElBg4D0B%;�(B) (�$B@5�(B)�$B!{C$L&�(B �$BNg�(B�$B!&�(B (PIA) (�$B@5�(B)�$B>.CS�(B �$B=$�(B�$B!&�(B (�$B@5�(B)�$B;38}�(B �$BM34tIW�(B�$B!&�(B (�$BElBg4D0B%;�(B/�$BElBg1!9)�(B) (�$B@5�(B)�$BDT�(B �$B2B;R�(B | 12-a | Colloidal aggregation
Numerical simulation
Contact model
| 12/19
11:23:57 |
|---|
| 415 | �$B9bG4@-N.BN$KFC2=$7$?%7%_%e%l!<%7%g%sZ�(B
(�$B%*%U%#%9<<1`�(B) (�$B@5�(B)�$B<<1`�(B �$B9@;J�(B | 2-a | high viscosity fluid
particle method
numerical simulation
| 12/20
14:08:32 |
|---|
| 428 | Shear-thinning�$BN.BN7O$K$*$1$k1_?m7?%F%$%i!
(�$B@E8)Bg�(B) (�$B@5�(B)�$B!{A}ED�(B �$BM&?M�(B�$B!&�(B (�$B?@8MBg1!9)�(B) �$BB<@>�(B �$B9n4p�(B�$B!&�(B (�$B@5�(B)�$BBgB<�(B �$BD>?M�(B�$B!&�(B (�$B@E8)Bg�(B) �$B2<;3ED�(B �$B??�(B | 2-a | Conical Taylor-Couette flow
Shear-thinning fluid
Numerical simulation
| 12/20
15:04:31 |
|---|
| 761 | �$BJ4Kv5[F~@=:^$NGYE~C#5sF0$K$*$1$kN3;RIUCe8=>]$N2r@O�(B
(�$B:eI\Bg1!9)�(B) (�$B3X�(B)�$B!{;0C+�(B �$BN<2p�(B�$B!&�(B (�$B@5�(B)�$BBg:j�(B �$B=$;J�(B�$B!&�(B (�$B@5�(B)�$BCgB<�(B �$B1QLi�(B�$B!&�(B (�$B@5�(B)�$BLJLn�(B �$BE/�(B | 2-f | Dry Powder Inhalation
Numerical simulation
particle behavior
| 12/22
20:58:59 |
|---|
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