$B:G=*99?7F|;~!'(B2013-08-09 19:09:01
Cinnamaldehyde (1$B7o(B) | ||||
---|---|---|---|---|
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-28 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
865 | $BC4;}(BPt$B?(G^>e$G$N%7%s%J%`%"%k%G%R%IA*Br?eAG2=H?1~$K$*$1$k(BFe$BE:2C8z2L(B | S-28 | Fe deposited Pt/SiO2 Cinnamaldehyde Selective Hydrogenation | 5/13 19:20:51 |
Ciona savignyi (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-31 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
915 | $B%f%&%l%$%\%d(B(Ciona savignyi)$B$N3$?e$m2aG=NO$NI>2A(B | S-31 | Filtration of sea water Ciona savignyi | 5/13 20:00:27 |
citrate (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
720 | $BKlG;=L$K$*$1$k(BCaC2O4$B7k>=2=$KM?$($k%/%(%s;@E:2C$N1F6A(B | S-35 | calcium oxalate citrate membrane crystallization | 5/13 16:56:17 |
Clarification (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-8 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
86 | $B%G%W%9%U%#%k%?!<$rMQ$$$?93BN@=B$$K$*$1$k@6@!2=%W%m%;%9(B | S-8 | Clarification Flocculation Monoclonal Antibodies | 5/7 14:13:30 |
clarification of cell culture (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-8 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
168 | $B%?%s%Q%/F)2a@-$N9b$$Cf6u;eKl(B | S-8 | tangential flow filtration protein permeability clarification of cell culture | 5/9 11:28:35 |
Classification (3$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-19 (2$B7o(B), S-39 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
125 | $BJ,5i$rMxMQ$7$?%-%e%]%i%@%9%H$+$i$N0!1t@.J,$NJ,N%2s<}(B | S-19 | zinc cupola dust classification | 5/8 16:04:46 |
617 | $BEE5$1KF0$rMxMQ$7$?O"B3<0J,5iAuCV$NFC@-(B | S-39 | Classification Zeta potential Electrophoresis | 5/13 14:21:28 |
845 | $B%_%9%H$rMxMQ$7$?4%<0J,5i5!$NJ,5i@-G=8~>e(B | S-19 | Classification Particle Mist | 5/13 19:01:54 |
classifier (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-19 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
221 | $B%k!<%P! | S-19 | louver classifier | 5/9 19:41:48 |
clay (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-39 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
762 | $B%&%$%k%94^M-1x@w7|By1U$NKl_I2aFC@-$K5Z$\$96&B8G4EZ$N1F6A(B | S-39 | membrane filtration virus clay | 5/13 17:35:47 |
clay dispersion (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-37 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
673 | $BG4EZJ,;61U$NEIKl4%Ag$KH<$&N3;RAX$N7A@.2aDx(B | S-37 | film formation clay dispersion gel | 5/13 16:01:56 |
Cleaning (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-20 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
366 | $B%&%k%H%i%U%!%$%s%P%V%k$r4^$s$@D6=c?e$K$h$k1vIUCeJILL$N@v>t(B | S-20 | Ultrafine bubble Cleaning Water | 5/10 19:17:41 |
1018 | [$BE8K>9V1i(B] $B@v>t!&;&6]A`:n$K$*$1$k | S-12 | cleaning sterilization hypochlorous acid | 6/5 16:57:19 |
Clearance (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-9 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
96 | $B7l1U>t2=NEK!$K$*$1$kA`:n>r7o$K$h$kMO | S-9 | Hemodiafitration Artificial kidney Clearance | 5/7 17:02:01 |
Climate change (3$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-32 (3$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
654 | [$B0MMj9V1i(B] $B29CH2=%7%0%J%k$H$=$N860xFCDj(B | S-32 | AOGCM Climate change Detection and attribution | 5/13 15:40:54 |
657 | [$B0MMj9V1i(B] $BCO5e29CH2=$,0z$-5/$3$91F6A$K$D$$$F(B | S-32 | Impact Climate change Adaptation | 5/13 15:44:14 |
660 | [$B0MMj9V1i(B] $B5$8uJQF04KOB$K4X$9$k:G6a$N8&5f!&J,@OF08~(B | S-32 | Mitigation Climate change | 5/13 15:47:21 |
cloning (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-50 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
520 | Cellvibrio sp. $B$+$i$N&A(B-$B%"%,%i!<%<0dEA;R$N%/%m!<%K%s%0$H4(E7$NJ,2r(B | S-50 | Cellvibrio sp. agarase cloning | 5/13 10:49:51 |
clustering analysis (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-6 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
56 | $B:YK&IJ | S-6 | clustering analysis cell quality check image analysis | 5/1 16:23:39 |
Co-crystal (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
433 | $BMO1UK!$K$h$k6&7k>=N3;R72AO@=$HN3;R72IJ | S-35 | Co-crystal phase diagram Crystalline particle | 5/11 18:28:45 |
co-deposition (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
169 | $BHy:Y9=B$BN$rMQ$$$?%"%k%+%j6bB0$N@8@.H?1~(B | S-35 | alkali metal microstructure co-deposition | 5/9 11:53:46 |
co-solvent (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-14 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
681 | $B:.9g=uMOG^E:2C$K$h$k:{93;@2=J* | S-14 | supercritical carbon dioxide extraction co-solvent | 5/13 16:10:54 |
CO2 (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-14 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
349 | Post-combustion$B$K$*$1$kEE5$2=3XE* | S-40 | CO2 electrochemical membrane | 5/10 18:26:37 |
495 | $BD6NW3&Fs;@2=C:AGCf$K$*$1$k(BRe$B?(G^$K$h$kFs;@2=C:AG$N8w4T85(B | S-14 | supercritical photoreduction CO2 | 5/13 09:52:59 |
CO2 absorption heat (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-45 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
498 | $B9b05:F@87?(BCO2$B2=3X5[<}1U$N3+H/!=9b05>r7o2<$G$N(BCO2$B5[<}G.NLI>2A(B | S-45 | CO2 chemical solvent High pressure CO2 absorption heat | 5/13 09:55:46 |
CO2 adsorption (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-45 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
674 | $B3F | S-45 | Amine Mesoporous silica CO2 adsorption | 5/13 16:02:18 |
CO2 chemical solvent (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-45 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
498 | $B9b05:F@87?(BCO2$B2=3X5[<}1U$N3+H/!=9b05>r7o2<$G$N(BCO2$B5[<}G.NLI>2A(B | S-45 | CO2 chemical solvent High pressure CO2 absorption heat | 5/13 09:55:46 |
CO2 methanation (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-1 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
857 | $BKlH?1~4o$rMQ$$$?%"%s%b%K%"J,2r$H(BCO2$B%a%?%s2=H?1~$NJ#9g2=(B | S-1 | CO2 methanation ammonia decomposition membrane reactor | 5/13 19:13:44 |
CO2 mixture (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-13 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
801 | CO2-$B%a%?%N!<%k:.9gN.BNCf$K$*$1$kM-5!2=9gJ*$NL58B4u | S-13 | Taylor dispersion CO2 mixture Diffusion coefficient | 5/13 18:11:05 |
CO2 reduction (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
229 | [$BE8K>9V1i(B] $B%a%?%s$N%I%i%$%j%U%)!<%_%s%0H?1~$K$*$1$kC:AG | S-25 | Dry reforming Hydrogen production CO2 reduction | 5/10 08:28:22 |
CO2 Separate (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-44 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
624 | $B>x5$C&Ce7?(BTSA$B%W%m%;%9$K$h$k(BCO2$BJ,N%$N2DG=@-8!F$(B | S-44 | CO2 Separate TSA Steam Regeneration | 5/13 14:31:42 |
CO2 separation (3$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-40 (2$B7o(B), S-45 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
224 | $BJ,;RF0NO3XK!$K$h$kM-5!41G=4p=$>~%7%j%+Kl$K$*$1$k(BCO2/N2$BJ,N%%7%_%e%l!<%7%g%s(B | S-40 | molecular dynamics aminopropyl group CO2 separation | 5/9 20:26:06 |
263 | T$B7?%<%*%i%$%HKl$N(BCO2$BF)2a@-G=I>2A(B | S-45 | T zeolite membrane CO2 separation separation factor | 5/10 13:26:05 |
808 | CO2$BJ,N%Kl$H$7$F9%E,$J%,%95[<}FC@-$rM-$9$k%"%_%N;@%$%*%s1UBN$N@_7W(B | S-40 | CO2 separation Facilitated transport membrane Amino acid ionic liquid | 5/13 18:18:03 |
CO2 seperation (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-45 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
265 | $B9b29Fs;@2=C:AGJ,N%$rL\E*$H$7$?%;%i%_%C%/%95[<}(B | S-45 | ceramics materials CO2 seperation bariumu titanate | 5/10 13:37:16 |
CO2 solubility (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-38 (2$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
652 | $B%$%*%s1UBN(B-$B%0%i%$%`:.9gMO1U$NJ*M}2=3XE*FC@-(B | S-38 | ionic liquid glyme CO2 solubility | 5/13 15:37:01 |
804 | $B%0%i%$%`(B-$B%9%k%[%s;@%j%A%&%`1vMO1U$NL)EY!&G4EY!&Fs;@2=C:AGMO2rEY(B | S-38 | density viscosity CO2 solubility | 5/13 18:14:20 |
CO2-Expanded Liquid (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-13 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
112 | $BFs;@2=C:AGKDD% | S-13 | CO2-Expanded Liquid Polymer Solution Viscosity | 5/8 14:39:28 |
coal (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-48 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
67 | [$BE8K>9V1i(B] $B@=A-J,Ln$K$*$1$k;q8;BP1~NO6/2=5;=Q$N8&5f$H3+H/(B | S-48 | cokemaking ironmaking coal | 5/2 19:04:20 |
914 | $B@PC:$rG3NA$H$7$?;@2=E4MxMQ%1%_%+%k%k!<%WG3>F$NH?1~FC@-(B | S-15 | chemical-looping combustion coal oxygen carrier | 5/13 20:00:24 |
Coal burning gas (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-31 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
385 | $B@PC:G3>FGS%,%9Cf$N?e6d=|5n$KE,$7$?N22=E4!&3h@-C:7O?e6d=|5n:^$N3+H/(B | S-31 | Coal burning gas Mercury removal | 5/10 21:09:38 |
Coal fly ash (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-19 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
639 | $B?eG.=hM}$K$h$k@PC:3%$H%P%$%*%^%9>F5Q3%$+$i$N%<%*%i%$%H9g@.(B | S-19 | Coal fly ash Biomass ash Zeolite | 5/13 15:07:24 |
Coal gasification gas (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-28 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
174 | $B6bB0;@2=J*=|5n:^$K$h$k@PC:%,%92=%,%9Cf$N?e6d=|5n(B | S-28 | Coal gasification gas Mercury removal Metal oxide sorbents | 5/9 12:30:17 |
Coarse grain model (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-19 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
595 | DEM$BAF;k2=%b%G%k$rMQ$$$?(B3$BZ(B | S-19 | Fluidized bed DEM Coarse grain model | 5/13 13:44:08 |
Coating (5$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-37 (4$B7o(B), S-21 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
166 | $BFb1_E{$r%3!<%F%#%s%0$7$?Fs=E1_E{4V%F%$%i!<12$NN.F0(B | S-21 | Taylor Voltex Drag Reduction Coating | 5/9 09:57:10 |
212 | $B%9!<%Q!<%3%s%T%e%?$rMQ$$$?EII[N.F0%7%_%e%l!<%7%g%s(B | S-37 | coating simulation super-computer | 5/9 18:34:41 |
215 | $BEI9)Kl$N4%Ag%7%_%e%l!<%7%g%s%=%U%H$N3+H/(B | S-37 | simulation drying coating | 5/9 18:43:44 |
701 | $B:.9gMOG^%U%#%k%`Fb$NAjJ,N%$KM?$($k4%Ag>r7o$N1F6A(B | S-37 | coating phase separation drying path | 5/13 16:39:03 |
882 | $B%0%i%S%"%m!<%kI=LL1UKl$N7WB,(B | S-37 | coating gravure roll doctor blade | 5/13 19:36:10 |
coating base (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-37 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
955 | $B0[ | S-37 | drying rate curve Fick type coating coating base | 5/13 20:59:14 |
coating window (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-37 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
185 | $B%9%m%C%H%@%$EII[$K$*$1$k30Mp$,%3!<%F%#%s%0%&%#%s%I%&$HKl8|$K5Z$\$91F6A(B | S-37 | slot die coating distrebance coating window | 5/9 14:25:13 |
cobalt (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-2 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
508 | Co$B%"%_%G%#%M!<%H$rMQ$$$?(BCo-CVD$B%W%m%;%9$K$*$1$k5$AjH?1~$H$=$NLr3d(B | S-2 | amidinate cobalt thermal CVD | 5/13 10:12:55 |
cobalt oxide (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-36 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
414 | $BD6NW3&?e$rMxMQ$7$?%b%N%+%k%\%s;@=$>~;@2=%3%P%k%H%J%NN3;R$N9g@.$HI>2A(B | S-36 | cobalt oxide supercritical water surface modification | 5/11 16:04:44 |
cocrystal (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
46 | $B%5%j%A%k;@!?%K%3%A%s%"%_%I7O(Bcocrystal$B$N;0@.J,Aj?^$HMO2r5sF0(B | S-35 | cocrystal dissolution behavior ternary phase diagram | 4/30 10:58:44 |
coexistence gas (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-31 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
20 | $B%Q%k%9J|EE%W%i%:%^$rMQ$$$?%Y%s%<%s$NJ,2r(B | S-31 | benzene plasma coexistence gas | 4/24 10:38:10 |
cokemaking (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-48 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
67 | [$BE8K>9V1i(B] $B@=A-J,Ln$K$*$1$k;q8;BP1~NO6/2=5;=Q$N8&5f$H3+H/(B | S-48 | cokemaking ironmaking coal | 5/2 19:04:20 |
collagen (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-34 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
684 | $B%"%k%+%j=hM}%3%i!<%2%s$NFC@-I>2A$*$h$S7l4I?7@8NEK!$X$N1~MQ(B | S-34 | collagen angiogenesis | 5/13 16:20:37 |
Collection efficiency (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-19 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
522 | $B4%<0%5%$%/%m%s$NF~8}<+M36u5$$,N3;RJ,N%@-G=$K5Z$\$91F6A(B | S-19 | Particle classification Gas-cyclone Collection efficiency | 5/13 10:54:57 |
colloidal fibers (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-33 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
978 | $B%3%m%$%IN3;RJ,;61U$N8:054%Ag%W%m%;%9$K$h$k%3%m%$%@%k%U%!%$%P!<$N7A@.(B | S-33 | self-organization drying colloidal fibers | 5/13 21:25:00 |
colloidal films (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-37 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
549 | $B4%Ag$K5/0x$7$?%3%m%$%IN3;RKlFb$N!V%J%NOD$_!W$K$h$kJ#6~@^H/8=(B | S-37 | drying of a suspension colloidal films nanometer-scale distortion due to drying | 5/13 11:56:58 |
Color (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-12 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
748 | $B5{>F@.;~$N29EYMzNr$K4p$E$/>F$-?'$N2r@O(B | S-12 | Color Far-infrared radiation Fish | 5/13 17:20:32 |
Combined Infrared and Convective Drying (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-12 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
923 | $BL#IU$1LM$N@V30@~(B-$BG.IwJ;MQ4%AgFC@-$K5Z$\$9G.Iw29EY$N1F6A(B | S-12 | Drying time Combined Infrared and Convective Drying Seasoned Instant Noodles | 5/13 20:09:22 |
combustion (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-1 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
372 | $B%"%s%b%K%":.9gG3NA$NG3>FFC@-$K4X$9$k4pAC8&5f(B | S-1 | ammonia combustion combustion velocity | 5/10 19:48:12 |
combustion simulation (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-18 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
851 | $BJ| | S-18 | combustion simulation DEM radioactive cesium | 5/13 19:08:37 |
combustion velocity (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-1 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
372 | $B%"%s%b%K%":.9gG3NA$NG3>FFC@-$K4X$9$k4pAC8&5f(B | S-1 | ammonia combustion combustion velocity | 5/10 19:48:12 |
Companion diagnostics (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-7 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
369 | [$B>7BT9V1i(B] $BJQ@->uBV$N%?%s%Q%/ | S-7 | Protein engineering Chemical modification Companion diagnostics | 5/10 19:41:50 |
complex metal hydride (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-1 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
975 | $BJ#9g6bB0?eAG2=J*$rMQ$$$?%"%s%b%s%K%"$+$i$N?eAGH/@8(B | S-1 | ammonia complex metal hydride hydrogen generation | 5/13 21:21:58 |
component family method (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-38 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
452 | $B@.J,%U%!%_%j! | S-38 | binary interaction parameter component family method BWR equation of state | 5/12 14:18:49 |
composite (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-2 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
124 | $B%+!<%\%s%J%N%A%e!<%V$NIbM7%3!<%F%#%s%0(B | S-2 | composite PECVD nanoparticles | 5/8 16:03:35 |
composite material (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-15 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
178 | $B%a%+%N%1%_%+%kK!$GD4@=$7$?(BMg(OH)2-Ni(OH)2$BJ#9g:`NA$NC&?e!&?eOBH?1~@-(B | S-15 | Heat storage material Mechanochemical method composite material | 5/9 13:09:55 |
380 | $B2;GHEAC#FC@-$rMQ$$$?N3;R7OJ#9g:`NA%b%G%k$N:.9g>uBVI>2A(B | S-19 | Acoustic propagation characteristic Mixed state Composite material | 5/10 20:01:08 |
composite particle (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-36 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
782 | $BB?AX=E9g8GBNKl$rMxMQ$7$?J#9gHyN3;R$ND4@=(B | S-36 | composite particle polymer | 5/13 17:56:21 |
1014 | $BJ#9g2=$7$?%U%'%i%$%H<'@-N3;R$N9g@.(B | S-34 | ferrite composite particle solvothermal synthesis | 5/14 09:28:37 |
compost (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-48 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
57 | $B2 | S-48 | sludge drying compost | 5/1 22:51:18 |
613 | $B@=9]%9%i%0$+$i$NE4MO=P$H3$At@80i$NB%?J$K5Z$\$9BOHn$N1F6A(B | S-31 | compost steelmaking slag iron elution | 5/13 14:15:16 |
composting (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-50 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
638 | $B%3%s%]%9%H2=$K$*$1$k@Z$jJV$7$HHy@8J*AQA+0\(B | S-50 | composting turning microbial succession | 5/13 15:06:36 |
Composting Process (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-31 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
718 | $B%-%N%s%W%m%U%!%$%kK!$rMQ$$$?BOHn@=B$2aDx$K$*$1$kHy@8J*72=89=B$$NJQ2=(B | S-31 | Composting Process Quinone Profile Method Microbial Community Structure | 5/13 16:55:49 |
Compound droplet (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-20 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
576 | $BFs=E%N%:%k$+$i@8@.$9$kJ#9g1UE)$N%7%_%e%l!<%7%g%s(B | S-20 | Compound droplet Numerical simulation Front-Tracking | 5/13 13:03:36 |
Compression coefficient of mixed gas (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-46 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
980 | $B9b05B?@.J,%,%95[CeNLB,DjAuCV$N3+H/(B | S-46 | Volumetric - Chromatographic Mixture gas adsorption Compression coefficient of mixed gas | 5/13 21:25:31 |
compression-permeability characteristics (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-39 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
751 | $B@:L)_I2a;n83$K4p$E$/Hy@8J*%1!<%/$N05=LF)2aFC@-$NI>2A(B | S-39 | microfiltration microbial cake compression-permeability characteristics | 5/13 17:23:30 |
Computational fluid dynamics (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-20 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
13 | $B2=3X%a!<%+!<$, | S-20 | Computational Fluid Dynamics Fluidized Bed Stired Tank Reactor | 4/23 14:14:03 |
933 | $B9bB.2sE>%Y%k%+%C%WEIAu5!$K$*$1$kJ.L8N3;R7B$,EICe8zN($K5Z$\$91F6A$N8!F$(B | S-48 | Rotary bell cup atomizer Transfer efficiency Computational fluid dynamics | 5/13 20:24:40 |
concentraion dependent surface area parameter model (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-38 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
65 | $BG;EY0MB8I=LL@Q%Q%i%a!<%?%b%G%k$K$h$k(B1-butanol+water$B7O$NAjJ?9U$NAj4X(B | S-38 | liquid-liquid equilibrum concentraion dependent surface area parameter model 1-butanol+water | 5/2 17:29:22 |
concentrated suspension (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-37 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
901 | $B9bG;EYHyN3;RJ,;61U$N%l%*%m%8!<%7%_%e%l!<%7%g%s(B -$BN3;R4VAj8_:nMQ$N8z2L(B- | S-37 | concentrated suspension rheology simulation particle interaction | 5/13 19:51:20 |
Concentrator (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-18 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
743 | $B@QAX9=B$$NB?=E8zMQ3$?e>xH/G;=L4o$N@-G=(B($B3H;65wN%(B10mm$B$N(B3$BCJ$*$h$S(B4$BCJ8zMQ$NG;=L4o(B) | S-18 | Seawater Concentrator Multiple effect | 5/13 17:17:30 |
condensation (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-28 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
190 | $B?eJ,6E=L$K$h$k(BRDF$B$NC&1vAG2=(B | S-28 | RDF dechlorination condensation | 5/9 15:08:36 |
conductive oxide (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-2 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
947 | $B9bG[8~@-F3EE@-;@2=J*2 | S-2 | ferroelectric material pulsed laser deposition conductive oxide | 5/13 20:50:12 |
conductivity (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-4 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
260 | $B8GBN9bJ,;R7AG3NAEECS$N(Bthrough-plane$BKlEAF3EYB,DjK!$N3NN)(B | S-4 | ion exchange membranes through-plane measurement conductivity | 5/10 13:16:57 |
cone (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-21 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
8 | $B%3!<%s7?%I%i%U%H%A%e!<%V$N:.9g@-G=(B | S-21 | Mixing Draft tube cone | 4/22 14:10:08 |
configuration control (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-34 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
272 | $BM-5!(B-$BL55!J#9g0[7AN3;R$NEE>l0u2C$K$h$k=8@Q9=B$@)8f(B | S-34 | anisotropic particles external electric field configuration control | 5/10 14:11:15 |
confined space (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
402 | $B@)8B6u4VFb$G$N%j%s;@%+%k%7%&%`7O2=9gJ*$N@8@.$K5Z$\$9:.9gFC@-$N1F6A(B | S-35 | calcium phosphate simulated body fluid confined space | 5/11 13:53:22 |
confinement (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-20 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
992 | $B5<(B2$B | S-20 | a single bubble confinement CFD | 5/13 21:47:59 |
Construction cost (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-24 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
102 | $B%b%8%e!<%k2=$K$h$k3$308=CO7z@_9);v$N8!F$(B | S-24 | Field Construction Construction cost Number of manpower | 5/8 10:18:06 |
continuous flow reactor (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-29 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
363 | $B%U%#%k%`>u8GDj2=%&%l%"!<%(G^$N9g@.$HO"B3N.DL<0H?1~%7%9%F%`$rMQ$$$?G"AG$N2C?eJ,2rH?1~I>2A(B | S-29 | immobilized enzyme film-type catalyst continuous flow reactor | 5/10 18:58:38 |
continuous process (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
194 | $B;0Aj7OAj4V0\F0?(G^H?1~$K$*$1$kAX>uBVA`:nK!$N8!F$(B | S-25 | phase transfer catalysis continuous process process design | 5/9 15:41:41 |
continuous production (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-11 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
329 | [$B>7BT9V1i(B] $B9bIJ | S-11 | high quality biodiesel continuous production reaction and separation | 5/10 17:39:13 |
Continuous Separation (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-8 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
151 | [$BE8K>9V1i(B] $B%^%$%/%m%U%k%$%G%#%/%9$rMxMQ$7$?HyN3;R!&:YK&$NO"B3J,N%(B | S-8 | Cell Sorting Microfluidics Continuous Separation | 5/8 20:33:45 |
Convection Promotion (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-18 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
1011 | $B<+A3BPN.$NB%?J$K$h$kNd5Q%7%9%F%`$NDcG.Dq932=$K$D$$$F(B | S-18 | Natural Convection Convection Promotion Heat Sink | 5/13 22:26:16 |
Cooling Water (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-22 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
92 | [$BE8K>9V1i(B] $B86;RNOH/EE=j$K$*$1$kBZN11x@w?e=hM}5;=Q(B | S-22 | Cooling Water Cesium Nuclear Power Plant | 5/7 16:43:19 |
coordination number (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-13 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
477 | $BJ,;R>pJs$+$i$NG[0L?tM=B,$rMQ$$$?>uBVJ}Dx<0$K$h$kD6NW3&Fs;@2=C:AG$X$NMO2rEY$N?d;;(B | S-13 | drug solubility coordination number supercritical carbon dioxide | 5/13 03:19:02 |
coordinative phenomenon (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-40 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
516 | $B<+N'5[C&Ce%]%j%^!<$r%0%i%U%H8GDj2=$7$?5!G=Kl$N3+H/(B | S-40 | molecular recognition coordinative phenomenon plasma graft polymerization | 5/13 10:41:57 |
copolymer (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-36 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
370 | $BD62;GH$rMQ$$$?%3%]%j%^!<$N9g@.$K$*$1$kH?1~B.EY$*$h$SJ,;RNL$K5Z$\$9=t0x;R$N1F6A(B | S-29 | ultrasound polymerization copolymer | 5/10 19:44:26 |
434 | $B?eMO1U$rFbJq$7$?C1J,;6%]%jF};@%^%$%/%m%+%W%;%k$N?75,D4@=K!$N3+H/(B | S-36 | emulsification copolymer phase separation | 5/11 18:41:58 |
copper (5$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-17 (3$B7o(B), S-33 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
30 | $B%.;@F<:xBN$N(BCO2$B%l!<%6!<2CG.=hM}$K$h$kF3EEKl$N9g@.(B | S-37 | printable electronics copper film | 4/25 14:55:49 |
126 | $B6bB0@\9gMQF<7O%J%NN3;R$N3+H/(B | S-33 | copper nanoparticle metal-metal bonding | 5/8 16:36:50 |
282 | $BF<7jKd$a$a$C$-$K$*$1$k%8%"%j%k%"%_%s7O%l%Y%i!<$N1F6A(B | S-17 | electrodeposition leveler copper | 5/10 14:53:31 |
565 | $BEE5$F<$a$C$-$K$h$j:n@.$7$?(BTSV$BG[@~$NG.@~KDD%78?tDc8:(B | S-17 | TSV Copper thermal expansion coeffcient | 5/13 12:37:53 |
571 | $B0l2AF<$HF<%@%^%7%s$a$C$-$NB%?J:^(B | S-17 | Copper Electrodeposition Cuprous | 5/13 12:45:15 |
Copper deposition (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-14 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
820 | $BD6NW3&N.BN$rMxMQ$7$?(B3$B | S-14 | Supercritical carbon dioxide 3-D interconnections Copper deposition | 5/13 18:28:23 |
Copper electrodeposition (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-17 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
297 | PR$B%Q%k%9EEN.$K$h$C$F@8@.$5$l$k%S%"FbIt$N(BCu+$BG;EYJ,I[%7%_%e%l!<%7%g%s(B | S-17 | Copper electrodeposition reverse current cuprous ion concentration | 5/10 15:47:23 |
copper hydroxide acetate (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
809 | $B1v4p@-?];@F<$N@O=P$K5Z$\$986NA:.9g>r7o$N1F6A(B | S-35 | copper hydroxide acetate precipitation mixing | 5/13 18:18:33 |
Coprecipitation (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-31 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
122 | $B?e;@2=J*%"%k%_%K%&%`$K$h$k4uGv(BSi$B4^M-GQ?e=hM}$K$*$1$k6&D@K!$H5[CeK!$NHf3S(B | S-31 | Coprecipitation Aluminum Hydroxide Kaolinite | 5/8 15:56:51 |
Core Structure (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-15 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
557 | $B%a%?%s%O%$%I%l!<%H8:05J,2r2aDx$K$*$1$kLO5<%3%"$NG.EAF3EYB,Dj$H9=B$%b%G%k(B | S-15 | Methane Hydrates Thermal Conductivity Core Structure | 5/13 12:16:43 |
core-shell (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-36 (2$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
154 | $B%^%$%/%m%j%"%/%?$rMQ$$$?%7%j%+(B-$B6b%3%"%7%'%kJ#9g%J%NN3;R$NO"B39g@.(B | S-36 | Microreactor Core-shell Plasmon | 5/8 20:48:35 |
155 | $B%3%"%7%'%k9=B$$r;}$D<'@-BN%J%NN3;R$N9g@.$HFC@-I>2A(B | S-36 | Fe$16$N$2$ core-shell sintering | 5/8 20:50:26 |
corn cobs (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-6 (2$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
620 | $B%0%k%3!<%95Z$S%-%7%m!<%94^M-%3!<%s%3%V2C?eJ,2r1U$rMQ$$$?%"%9%?%-%5%s%A%s$NHy@8J*@8;:(B | S-6 | Corn cobs Astaxanthin Xanthophyllomyces dendrorhous | 5/13 14:24:14 |
709 | $B%3!<%s%3%V2C?eJ,2r1U$rMQ$$$?9bG;EY%-%7%j%H!<%k$NDc%3%9%H@8;:(B | S-6 | corn cobs xylitol candida magnoliae | 5/13 16:49:43 |
corrosion (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-37 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
23 | $B%J%N%U%!%$%P!<$H=$I|:^$rMQ$$$?<+8J=$I|@-KI?)%3!<%F%#%s%0(B | S-37 | self-healing corrosion pH control | 4/24 19:14:37 |
Corrosion enigneering (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-49 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
1017 | [$B>7BT9V1i(B] $B2=3XAuCV$K$*$1$kIe?)KI?)$N8=>u$H2]Bj(B | S-49 | Corrosion enigneering Chemical plants | 6/4 19:41:01 |
Corynebacterium glutamicum (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-6 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
948 | $B&B(B-$B%0%k%3%7%@!<% | S-6 | Corynebacterium glutamicum L-lysine cellobiose | 5/13 20:52:26 |
cost & project engineering (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-24 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
288 | $B%0%m!<%P%k2=$KBP1~$9$kM"=P@oN,$K$D$$$F(B | S-24 | cost & project engineering alliance strategy | 5/10 15:26:30 |
cotton fiber (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-14 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
64 | $BD6NW3&Fs;@2=C:AG$H?e$rMQ$$$?LJA!0]FbIt$X$N5!G=:^CmF~(B | S-14 | Injection cotton fiber nanoparticle | 5/2 17:25:21 |
counter diffusion CVD method (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-40 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
99 | $B%7%j%+7O5U?;F)Kl$N3+H/(B | S-40 | Silica membrane RO separation counter diffusion CVD method | 5/7 21:02:48 |
countercurrent multistage reactor (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-50 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
653 | $B%P%$%*%G%#!<%<%k@=B$$K$*$1$kYxYBAe$rMQ$$$?%(%9%F%k8r49H?1~B.EY(B | S-50 | biodiesel production transesterification rate countercurrent multistage reactor | 5/13 15:37:40 |
Coupling Phenomena (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-4 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
214 | $B%5!<%b%0%i%U%#!]$N2rL@(B | S-4 | PEFC In-plane Temperature Distribution Coupling Phenomena | 5/9 18:39:19 |
critical locus (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-13 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
917 | $BFs@.J,:.9gN.BN$NNW3&E@6aK5$K$*$1$k2a>j%(%s%?%k%T!<$NFC0[E*5sF0$NM=B,(B II. $BNW3&50@W$H2a>j%(%s%?%k%T!<$rF@$k>uBV$N(Bp-T$BLL>e$G$N0LCV4X78(B | S-13 | excess enthalpy critical locus binary mixture | 5/13 20:01:32 |
Critical Point (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-13 (2$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
175 | $B%J%N6u7dFb$K$*$1$kNW3&E@9_2<(B | S-13 | Critical point Nanopore Molecular dynamics | 5/9 12:35:49 |
1004 | $BNW3&E@6aK5$G$N%Y%s%<%s(B+$B%7%/%m%X%-%5%s7O$N2a>j%(%s%?%k%T!<-6(B | S-13 | Excess enthalpy Critical Point Binary fluid mixtures | 5/13 21:57:29 |
cross-flow filtration (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-39 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
196 | $BJB9TJ?Kl7?1s?4%;%k$K$h$k9bJ,;RMO1U$N==;zN.1s?48B30_I2aFC@-(B | S-39 | centrifugal ultrafiltration blue dextran cross-flow filtration | 5/9 15:43:08 |
cryogenic measurement (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-36 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
474 | $B%/%i%$%*(BQCM$B$K$h$k%2%kBN$NG4CF@-B,Dj(B | S-36 | QCM-A cryogenic measurement viscoelasticity | 5/13 02:54:18 |
crystal purity (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-33 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
52 | [$B0MMj9V1i(B] $BM;1U>=@O$K$*$1$k8G1U3&LL$G$NMO | S-33 | solute distribution melt crystallization crystal purity | 5/1 12:03:20 |
Crystal size (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
133 | $B0eLtIJ86Lt$N%*%$%k2=>=@O$K$*$1$k7k>=N37B@)8f(B | S-35 | Crystallization Crystal size Oil droplet | 5/8 17:17:42 |
Crystal size distribution (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
7 | [$BM%=(O@J8>^(B] $BN37BJ,I[$,69$$Hy7k>=$r@=B$$9$k$?$a$N7+$jJV$72sJ,Nd5Q>=@O(B | S-35 | Crystal size distribution Recrystallization Solution structure | 4/22 13:20:49 |
Crystalline particle (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
433 | $BMO1UK!$K$h$k6&7k>=N3;R72AO@=$HN3;R72IJ | S-35 | Co-crystal phase diagram Crystalline particle | 5/11 18:28:45 |
crystallinity (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-4 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
979 | P3HT/ICBA$BM-5!B@M[EECS$NH/EEFC@-$H;@2=%A%?%sKl$N7k>=@-$H$N4X78(B | S-4 | Titanium Oxide organic solar cell crystallinity | 5/13 21:25:21 |
crystallization (8$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (6$B7o(B), S-34 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
60 | $B8w;RAj4XK!$K$h$k(BKCl$B?eMO1U$+$i$N3KH/@88=>]$N4Q;!(B | S-35 | DLS Nucleation Crystallization | 5/2 13:15:15 |
133 | $B0eLtIJ86Lt$N%*%$%k2=>=@O$K$*$1$k7k>=N37B@)8f(B | S-35 | Crystallization Crystal size Oil droplet | 5/8 17:17:42 |
149 | L-$B%0%k%?%_%s;@$N(BL-$B%P%j%s7k>=7A@)8f$K5Z$\$9%a%+%K%:%`2r@O(B | S-8 | L-Valine L-Glutamic Acid Crystallization | 5/8 20:27:17 |
268 | $BDc297k>=2=%"%k%_%JGvKl$N3+H/(B | S-34 | alumina film crystallization | 5/10 13:41:37 |
405 | $BH?1~>=@O2aDx$K$*$1$k%b%j%V%G%s;@%8%k%3%K%&%`$N7A>u$*$h$SN37BI>2A(B | S-35 | Crystallization zirconium molybdate | 5/11 14:07:42 |
412 | Anti-Solvent($BHsMOG^(B)$BE:2C>=@O$G$NA`:n>r7o$,7k>=N3;R72$N7ABV$KM?$($k1F6A(B | S-35 | anti-slvent morphology crystallization | 5/11 15:31:13 |
794 | mL$BO"B3>=@O$K$*$1$k@=IJ7k>=$NN37B$K5Z$\$93IYB$N1F6A(B | S-35 | crystallization agitation L-glutamic acid | 5/13 18:07:45 |
1013 | $B%m!<%?%j!<%I%i%`%U%l!<%+$rMQ$$$?Nd5Q>=@OK!$N8&5f(B | S-35 | Crystallization Drum Flaker | 5/14 03:22:13 |
Cs adsorption (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-43 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
453 | $BLZ | S-43 | hexacyanoferrate($B-6(B) wood chip Cs adsorption | 5/12 14:53:54 |
Cu seed (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-17 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
726 | $B9b%"%9%Z%/%HHf(BTSV$B$N%7!<%IKl$N:n@=(B | S-17 | High Aspect Ratio Cu seed TSV | 5/13 17:03:18 |
Cu-CVD (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-2 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
959 | $B%"%_%G%#%M!<%H86NA$rMQ$$$?(BCu-CVD$B$K$*$1$k=i4|3KH/@8$N4Q;!(B | S-2 | Cu-CVD Nucleation Amidinate | 5/13 21:01:06 |
Cu-Sn (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-17 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
81 | $BEE5$(BCu-Sn$B$a$C$-$K$h$k(BLi$B%$%*%sFs | S-17 | lithium-ion secondary batteries Cu-Sn electrodeposition | 5/7 10:33:37 |
Cu/HZSM-5 (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-28 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
818 | $B%Y%s%<%s$N5$Aj@\?(;@2=H?1~$K$*$1$k(BCu/HZSM-5$B$X$N(BZr$BE:2C8z2L(B | S-28 | Cu/HZSM-5 phenol partial oxidation | 5/13 18:25:21 |
culture area restriction (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-6 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
819 | $B%R%HLVKl?'AG>eHi:YK&$N@.=OG]M\$K$*$1$kG]M\NN0h@)8B$N1F6A(B | S-6 | RPE cell culture area restriction | 5/13 18:25:51 |
CuO (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-34 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
788 | V2O5-MnO2-KPO3$B7OL51tJ4Kv%,%i%9$X$N(BCuO$BE:2C$,%,%i%9%M%C%H%o!<%/9=B$$K5Z$\$9BQ?e@-JQ2=(B | S-34 | Lead-free Water durability CuO | 5/13 18:03:13 |
cupola dust (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-19 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
125 | $BJ,5i$rMxMQ$7$?%-%e%]%i%@%9%H$+$i$N0!1t@.J,$NJ,N%2s<}(B | S-19 | zinc cupola dust classification | 5/8 16:04:46 |
Cuprous (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-17 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
571 | $B0l2AF<$HF<%@%^%7%s$a$C$-$NB%?J:^(B | S-17 | Copper Electrodeposition Cuprous | 5/13 12:45:15 |
cuprous ion concentration (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-17 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
297 | PR$B%Q%k%9EEN.$K$h$C$F@8@.$5$l$k%S%"FbIt$N(BCu+$BG;EYJ,I[%7%_%e%l!<%7%g%s(B | S-17 | Copper electrodeposition reverse current cuprous ion concentration | 5/10 15:47:23 |
curcumin (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-6 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
911 | $BC&;iF}Cf$N%+%<%$%s$NFbJq@-$rMxMQ$7$?%/%k%/%_%s$N?eJ,;6@-8~>e(B | S-6 | curcumin skim milk solbility | 5/13 19:59:03 |
CVD (7$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-2 (7$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
410 | $B@V?'H/8w%7%j%3%s:`NA$N5$Aj9g@.$HH/8wFC@-(B | S-2 | CVD nanoparticles photoluminescence | 5/11 15:14:37 |
436 | $B%b%N%a%A%k%H%j%/%m%m%7%i%s$r86NA$H$7$?(BSiC-CVD$B%W%m%;%9$NAm3gH?1~%b%G%k$N8!F$(B | S-2 | SiC CVD Methyltrichlorosilane | 5/11 20:06:46 |
577 | $B%8%a%A%k%8%/%m%m%7%i%s$r86NA$H$7$?(BSiC-CVD$B%W%m%;%9$N%^%k%A%9%1!<%k2r@O(B | S-2 | SiC CVD Dimethyldichlorosilane | 5/13 13:03:38 |
587 | $BM-5!%/%m%m%7%i%s$r86NA$H$7$?(BSiC-CVD$B%W%m%;%9=P8}%,%9J,@O$K$h$kH?1~%b%G%k$N8!F$(B | S-2 | CVD Metyltrichlorosilane Dimetyldichlorosilane | 5/13 13:30:50 |
605 | $B?75,(BRu-CVD/ALD$B86NA$rMQ$$$? | S-2 | Ruthenium CVD ALD | 5/13 14:02:32 |
637 | $B%b%N%a%A%k%H%j%/%m%m%7%i%s$r86NA$H$7$?(BSiC-CVD$B%W%m%;%9$K$*$1$kI=LLH?1~$r9MN8$7$?AGH?1~5!9=$N9=C[(B | S-2 | SiC CVD reaction mechanism | 5/13 15:02:02 |
899 | $B%a%?%s$r86NA$H$9$k2=3X5$Aj?;F)K!$K$h$kC:AGA!0]6/2=C:AGJ#9g:`NA@=B$2aDx$NHsDj>o%7%_%e%l!<%7%g%s(B | S-2 | reaction kinetics transport phenomena CVD | 5/13 19:49:09 |
cyanobacteria (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-6 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
601 | $B<'@-HyN3;R$rMQ$$$?MuAt$N%"%l%$>u8IN)G]M\5;=Q$N3+H/(B | S-6 | cyanobacteria cell culture array magnetic particles | 5/13 13:58:21 |
Cyclic operation (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
670 | V-Mg-O$B?(G^>e$G$N%W%m%Q%s;@2=C&?eAG$N<~4|E*G;EYJQF0A`:n(B | S-25 | Cyclic operation Oxidative dehydrogenation Lattice oxygen | 5/13 15:54:42 |
cyclization (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-30 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
838 | $B%-%J%/%j%I%s4iNA$N9b299b05%^%$%/%m9g@.$K$*$1$kH?1~>r7o$N8!F$(B | S-30 | microreactor cyclization oxidation | 5/13 18:56:42 |
cyclohexane dehydrogenation (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-29 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
416 | $B%7%/%m%X%-%5%sC&?eAGMQB?4I<0%a%s%V%l%s%j%"%/%?!<$K$*$1$kKlJ]8n4I$N1F6A(B | S-29 | membrane reactor protection pipe cyclohexane dehydrogenation | 5/11 16:13:26 |
cylinder (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-37 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
895 | $B%_%/%mAjJ,N%$rMxMQ$7$?%7%j%s%@!<9=B$Kl$N8GDj2=(B | S-37 | microphase-separated structure immobilization cylinder | 5/13 19:46:29 |
cytokine (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-6 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
710 | $B@~0]2j:YK&:.:_HfN($,@QAX6Z2j:YK&%7!<%H$N%5%$%H%+%$%s@8@.G=$KM?$($k1F6A(B | S-6 | cell sheet skeletal muscle myoblast cytokine | 5/13 16:50:26 |
cytotoxicity (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-6 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
699 | DNA$B%@%a!<%8M6F37?0dEA;RH/8=%7%9%F%`$rMQ$$$?:YK&%;%s%5!<$N3+H/(B | S-6 | cell sensors p53 promoter cytotoxicity | 5/13 16:38:16 |
Czochralski method (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-48 (2$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
301 | $BEEN.(B-$B<'>l0u2C$,(BCz$BK!M;1UB.EYJQF0$K5Z$\$91F6A$K4X$9$k8&5f(B | S-48 | Czochralski method electromagnetic field Lorentz force | 5/10 16:11:50 |
316 | $B2sE><'>l0u2C$,(BCz$BK!M;1UB.EYJQF0$K5Z$\$91F6A$K4X$9$k8&5f(B | S-48 | Czochralski method Rotational magnetic field Ultrasonic Velocity Profiler | 5/10 16:49:00 |
CZTS nanoparticles (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-34 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
900 | Cu2ZnSnS4 (CZTS)$B%J%NN3;R$ND4@=K!$N8!F$(B | S-34 | CZTS nanoparticles synthesis method characterization | 5/13 19:50:33 |