$B:G=*99?7F|;~!'(B2008-09-20 14:29:01
halide removal (1$B7o(B) | ||||
---|---|---|---|---|
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-24 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
506 | $B%P%$%*%^%9%,%92=H/EE%7%9%F%`MQ4%<0%O%m%2%s=|5n%W%m%;%9$N3+H/(B | S-24 | biomass gasification gas cleaning halide removal | 4/30 10:21:42 |
halon (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (2$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
24 | $B%"%k%+%jH?1~:`$rMQ$$$?%O%m%s(B1301$BJ,2r$K$*$1$k?(G^E:2C8z2L(B | S-35 | Halon decomposition alkaline reactant method | 4/17 16:51:41 |
350 | $B8GBN%"%k%+%j$rMQ$$$?4%<0%O%m%sJ,2r(B | S-35 | halon decomposition alkaline reactant | 4/28 18:02:10 |
halophyte (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
730 | $BCf9qE7DE;T$K$*$1$k1v@8?"J*$rMQ$$$?EZ>m2~NI | S-35 | desalinization halophyte sodic soil | 4/30 16:52:11 |
Heat and Mass Transfer (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-4 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
1025 | [$BE8K>9V1i(B]$B%9%i%j!<5$K"Ec$*$h$S5$(B-$B1U(B-$B8GN.F0AX$K$*$1$kJILL$*$h$SA^F~J*LL$+$i$NG.!&J* | S-4 | Bubble Column Slurry Heat and Mass Transfer | 5/12 15:36:45 |
heat exchanger (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-6 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
2 | $BC_G.HyN3;R%9%i%j!<$r:nF0N.BN$H$7$?>.7?G.8r494o$NEAG.FC@-(B | S-6 | latent heat phase change heat exchanger | 4/11 11:02:27 |
heat integration (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-10 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
768 | $BFbItG.8r497?>xN1Ec(B(HIDiC)$B%Q%$%m%C%H%W%i%s%H$N1?E>2r@O$H%7%_%e%l!<%7%g%s(B | S-10 | heat integration overall heat transfer coefficient energy saving | 4/30 17:40:41 |
Heat Mass Transfer Model (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-10 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
740 | $BH?1~>xN1Ec$KBP$9$k2r@O%b%G%k$N8!F$(B | S-10 | Reactive Distillation Kinetic Model Heat Mass Transfer Model | 4/30 17:09:31 |
heat of reaction (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
995 | $B%a%?%N!<%k$ND6NW3&?e;@2=$K$*$1$kH?1~G.$N7hDj(B | S-25 | heat of reaction methanol supercritical water oxidation | 4/30 22:37:07 |
Heat Pipe (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-6 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
593 | $BG;EY:9%^%i%s%4%K8z2L$rMxMQ$7$?3Q7?%^%$%/%m%R!<%H%Q%$%W$N2r@O(B | S-6 | Heat Pipe Binary Mixture Marangoni Effect | 4/30 13:34:51 |
heat transfer (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-6 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
626 | MPS$BK!$K$h$k2sE>MF4oFb$NN.F0!&EAG.%7%_%e%l!<%7%g%s(B | S-2 | Moving particle method Heat transfer Voigt model | 4/30 14:44:04 |
1022 | [$B>7BT9V1i(B] $BB?9& | S-6 | combustion heat transfer | 5/2 14:30:27 |
Heat transfer coefficient (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-3 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
56 | $BYxYBA`:n$K$h$kEAG.FC@-$X$N1F6A(B | S-3 | Mixing Heat transmission Heat transfer coefficient | 4/23 10:50:29 |
Heat transfer enhancement (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-6 (2$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
23 | $B6k7A%@%/%HFb$K@_CV$7$??bD>J?HD$N8eN.0h$K$*$1$kEAG.B%?J8z2L(B | S-6 | heat transfer enhancement square channel wake region | 4/17 16:36:01 |
515 | $B?eAG5[B"9g6bN3;R= | S-6 | Metal hydride Numerical simulation Heat transfer enhancement | 4/30 10:43:33 |
Heat transmission (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-3 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
56 | $BYxYBA`:n$K$h$kEAG.FC@-$X$N1F6A(B | S-3 | Mixing Heat transmission Heat transfer coefficient | 4/23 10:50:29 |
heat-pipe (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-6 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
603 | $B%U%l%-%7%V%k%R!<%H%Q%$%W$N5$L)@-$HEAG.FC@-(B | S-6 | heat-pipe flexible heat-pipe two-component heat pipe | 4/30 13:54:36 |
heating rate (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-26 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
985 | $B%;%k%m!<%9$NG.J,2r@8@.J*$K5Z$\$9>:29B.EY$N1F6A(B | S-26 | cellulose pyrolysis heating rate | 4/30 21:56:09 |
heavy metal (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-13 (2$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
469 | $B%^%$%/%mGH$rMxMQ$7$?%*%,%/%:$+$i$N%-%l!<%H7O?e=hM}:^$N:n@.$H=E6bB0=|5n(B | S-13 | heavy metal microwave wastewater | 4/29 22:56:08 |
962 | $BE7A39[J*7O5[Ce:^$rMQ$$$?%RAG1x@wEZ>m$NITMO2=(B:$B@_7W;X?K$NM=HwE*8!F$(B | S-13 | soil pollution heavy metal adsorption | 4/30 21:12:55 |
heavy metals (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-32 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
465 | $B%"%K%*%s@-4629%]%j%^!<$rMQ$$$?=E6bB0$NJ,N%!&2s<}(B | S-32 | N-isopropylacrylamide Acrylic acid heavy metals | 4/29 21:19:43 |
Heavy oil (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-26 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
332 | $B?e>x5$J70O5$2<$G$N;@2=E47O?(G^$K$h$k=E | S-14 | Heavy oil Oxidative cracking Kinetics | 4/28 16:53:36 |
760 | $BD6NW3&?eCf$K$*$1$k%S%A%e!<%a%s$NG.J,2r5sF0(B | S-26 | Heavy oil Supercritical water Pyrolysis | 4/30 17:33:32 |
helicase (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-21 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
50 | C$B7?4N1j%&%$%k%9M3Mh%X%j%1!<%93h@-B,DjK!$N3+H/5Z$S3h@-AK32:^$NC5:w(B | S-21 | Hepatitis C virus Fluorescence quenching helicase | 4/22 16:43:51 |
hepatic differentiation (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-19 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
623 | ES$B:YK&$r8GDj2=$7$?(BPUF/$B%9%U%'%m%$%I7??M9)4NB!AuCV$N@-G=I>2A(B | S-19 | Embrionic stem cell hepatic differentiation hybrid artificial liver | 4/30 14:38:48 |
Hepatitis C virus (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-21 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
50 | C$B7?4N1j%&%$%k%9M3Mh%X%j%1!<%93h@-B,DjK!$N3+H/5Z$S3h@-AK32:^$NC5:w(B | S-21 | Hepatitis C virus Fluorescence quenching helicase | 4/22 16:43:51 |
hepatocyte (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-19 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
215 | $B%^%$%/%m%9%F%s%7%kK!$rMxMQ$7$?@:L)6&G]M\5;=Q(B | S-19 | microstencil co-culture hepatocyte | 4/26 12:35:31 |
Hetero interface (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-33 (2$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
249 | $B;@2=J*$X%F%m%J%N%o%$%d$NC10l9=B$BNB,DjK!$N9=C[$HEE5$M"AwFC@-(B | S-33 | Oxide nanowires Transport properties Hetero interface | 4/28 11:02:27 |
251 | $B6KHyIT4xH/@-%a%b%j%G%P%$%9$K8~$1$?(BMgO/NiO$B$X%F%m%J%N%o%$%d9=B$BN$N(BIn-situ$B7A@.$HEE5$M"AwFC@-I>2A(B | S-33 | Oxide nanowires Transport properties Hetero interface | 4/28 11:05:26 |
Heterocoagulation (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-32 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
307 | $B@EEEAj8_:nMQ$rMxMQ$7$?%X%F%m6E=8$K$h$kC1J,;6@-%^%0%M%?%$%H!>%7%j%+J#9gN3;R$N:n@=(B | S-32 | Magnetite-Silica Composite Particle Heterocoagulation Monodisperse | 4/28 15:20:46 |
heterogeneous catalyst (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
296 | Aerobic Oxidation of Benzylic Compounds Using Supercritical Carbon Dioxide | S-25 | oxidation reaction heterogeneous catalyst scCO2 solvent | 4/28 14:33:10 |
Heterogeneously Viscous System (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-37 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
1024 | [$BM%=(O@J8>^(B]$B!!3IYBAe$K$*$1$k0[G4@-7O9bG;EY%9%i%j!<1U$N:.9g2aDx$N?tCM2r@O(B | S-37 | Mixing Process Heterogeneously Viscous System Numerical Analysis | 5/12 15:00:38 |
heterojunction (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-27 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
327 | $B2=3XE*@=KlK!$K$h$k(BAZO$B!"(BCu2O$BGvKl$N7A@.$H$=$N(Bpn$B@\9gFC@-(B | S-27 | solar cell heterojunction oxide semiconductor | 4/28 16:30:47 |
HIDiC (4$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-10 (4$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
8 | $B05=L5!$rI,MW$H$7$J$$8:057O(BHIDiC$B$NE,MQ@-$N2r@O(B | S-10 | Distillation Compressor-free HIDiC | 4/14 17:49:43 |
445 | $B= | S-10 | HIDiC Distillation Structured Packing | 4/29 16:45:15 |
798 | $BFbItG.8r497?>xEc$N5sF0(B | S-10 | HIDiC saving energy distillation | 4/30 18:08:05 |
880 | $BFbItG.8r497?>xN1Ec(B(HIDiC)$B$K$*$1$k>J%(%M%k%.!<2r@O(B | S-10 | HIDiC Energy saving Simulation | 4/30 19:40:51 |
hidrogel (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-33 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
627 | $B%O%$%I%m%2%k$N%J%N%a%C%7%e9=B$E> | S-33 | hidrogel replication residual water | 4/30 14:44:31 |
Hierarchical System (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-15 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
41 | $B%(%A%l%sAuCV$G$N%\!<%IA`:n<+F02=%D!<%k$H(BPID$B@)8f$NJ#9g2=$K$h$k@0DjA`:n$N<+F02=(B | S-15 | Intelligent Control Hierarchical System Automation | 4/21 13:47:16 |
high electric field AC (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-22 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
492 | $B8rN.9bEE3&$rMxMQ$7$?4;5L2L=ACf$N9ZAG3h@-$N@)8f(B | S-22 | high electric field AC enzyme inactivation ohmic heating | 4/30 09:44:26 |
high flux dialyzer (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-21 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
482 | $BD62;GH%I%W%i! | S-21 | internal filtration rate high flux dialyzer fouling | 4/30 08:37:45 |
high pressure and high temperature water (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
280 | $B9b299b05?e(B-$B%^%$%/%m6u4V6(AUH?1~>l$K$h$kD69b8zN(M-5!9g@.K!$N3+H/(B | S-25 | high pressure and high temperature water microreactor suzuki coupling | 4/28 13:32:58 |
High pressure CVD (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-9 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
528 | $B%7%j%+!&%K%C%1%kJ#9gKl$ND4@=$H5$BNF)2aFC@-(B | S-9 | Nickel-silica membrane Hydrogen separation High pressure CVD | 4/30 11:18:21 |
high refractive index (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-33 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
520 | $B%J%N%$%s%W%j%s%HMQ9b6~@^ | S-33 | nanoimprint high refractive index bandpassfilter | 4/30 10:54:37 |
high shear (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-3 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
54 | $B9bJ,;63IYB5!$N=tFC@-$K$D$$$F(B | S-3 | mixing dispersion high shear | 4/23 10:00:07 |
High temperature (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-26 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
103 | $B3F | S-26 | biomass gasification high temperature | 4/24 17:41:15 |
501 | $B?e;@2=%j%A%&%`MOM;1vCf$K$*$1$kC10l%N%:%k$+$i$N5$K"@8@.(B | S-4 | Bubble formation Molten salt High temperature | 4/30 10:09:56 |
High temperature and high pressure micro device (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-36 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
147 | [$BE8K>9V1i(B] $B9b299b05%^%$%/%m%G%P%$%9$N3+H/(B ($B;:Am8&%3%s%Q%/%H2=3X%W%m%;%98&5f%;%s%?!<(B) $B!{(B($B@5(B)$BNkLZ(B $BL@(B | S-36 | High temperature and high pressure micro device Supercritical fluid Nitration reaction | 4/25 12:03:35 |
high temperature gas cleaning (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-24 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
248 | $B%P%$%*%^%9!?GQ4~J*%,%92=H/EE%7%9%F%`MQ4%<0%,%9@:@=%7%9%F%`$N3+H/$H@-G=Z(B | S-24 | high temperature gas cleaning biomass gasification power generation | 4/28 10:55:27 |
high temperature-pressure water (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
102 | $B9b299b05?eCf;@2=$K$h$k%$%*%s8r49 | S-25 | ion exchange resin high temperature-pressure water oxidative decomposition | 4/24 17:29:37 |
High-Pressure Phase Equilibria (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
560 | PCPCE$B!&(BASOGDB(Ver.08)$B$K$h$k9b05AjJ?9U$N8!:w!&I>2A!&?d;;(B | S-25 | PCPCE$B!&(BASOGDB High-Pressure Phase Equilibria Physico-Chemical Property | 4/30 12:10:54 |
High-throughput (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-20 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
1006 | [$B>7BT9V1i(B]$B:YK&G]M\4Q;!AuCV(B(BioStationCT)$B$r;HMQ$7$?5R4QE*$J:YK&2hA| | S-20 | Morphology Imaging High-throughput | 5/1 10:06:06 |
higher aspect ratio (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-29 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
166 | $B9b%"%9%Z%/%H9&$X$N$a$C$-$H?tCMN.BN2r@O(B-2 | S-29 | electrodeposition copper higher aspect ratio | 4/25 14:36:49 |
highly crystallized TiO2 nanorods (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-30 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
283 | $B9b7k>=@-%A%?%K%"%J%N%m%C%I$N7A@.2aDx$N2rL@$H7ABV@)8f(B | S-30 | highly crystallized TiO2 nanorods hydrothermal synthesis morphology control | 4/28 13:39:37 |
Histidine-tag (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-19 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
662 | $B%R%9%A%8%s%?%0$rMxMQ$7$?(BDNA-$B%?%s%Q%/ | S-19 | DNA aptamer Histidine-tag enzyme | 4/30 15:24:35 |
Hollow fiber (3$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-33 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
156 | $BCf6u;e%+!<%\%sKl$N?;F)5$2=J,N%FC@-(B | S-9 | Carbon membrane Hollow fiber Pervaporation | 4/25 13:37:49 |
629 | $B6K:Y%7%j%3!<%s%4%`Cf6u;eKl$N%,%9!&>x5$J,N%@-G=(B | S-12 | silicone rubber hollow fiber membrane separation | 4/30 14:48:13 |
926 | $B@EEEKB;e$rMxMQ$7$?(BTiO2$BCf6u%U%!%$%P!<$N:n@=$H7ABV@)8f(B | S-33 | Electrospinning Hollow fiber TiO2 | 4/30 20:35:30 |
hollow fiber membrane (5$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-9 (3$B7o(B), S-11 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
241 | [$BE8K>9V1i(B] $B?e%9%H%l%9Dc8:5Z$SBg5$4D6-J]A4$K9W8%$9$kKl$N:n@=$HFC@-I>2A(B | S-9 | Water treatment hollow fiber membrane CO2 separation | 4/28 10:14:07 |
442 | $B?7%W%m%;%9$K$h$j:n@=$7$?M-5!(B-$BL55!%O%$%V%j%C%ICf6u;eKl$NL55!J*C4;}FC@-I>2A(B | S-9 | sol-gel process hollow fiber membrane organic-inorganic hybrid membrane | 4/29 16:13:53 |
738 | $BAjJ,N%K!$K$h$k%]%jF};@Cf6u;eKl$N:n@=$HKlFC@-I>2A(B | S-13 | phase separation poly lactic acid hollow fiber membrane | 4/30 17:08:46 |
929 | $BCf6u;eKl%3%s%?%/%?!<$K$*$1$kKlI=LL7A>u$,J* | S-9 | CO2 separation hollow fiber membrane membrane surface condition | 4/30 20:39:18 |
936 | $BKlJ,N%K!$H5[<}K!$r%O%$%V%j%C%I$5$;$?J}K!$K$h$k(BCO2$BJ,N%$K4X$9$k8&5f(B | S-11 | CO2 separation hollow fiber membrane gas absorption | 4/30 20:43:51 |
Hollow nano-capsule (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-33 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
518 | $B?F?e@-(B/$BAB?e@-$NFsAX9=B$$r;}$D9bJ,;R%J%N%+%W%;%k$N@:L)9g@.(B | S-33 | Hollow nano-capsule amphiphilic layer polymer capsule Living radical polymerization | 4/30 10:52:05 |
Honeycomb (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-14 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
691 | $B%"%k%_@=%O%K%+%`$rC4BN$H$9$k%"%k%3!<%k2~ | S-14 | Structured catalyst Methanol steam reforming Honeycomb | 4/30 16:02:31 |
Honeycomb dehumidfiers (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-8 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
975 | $B29EY%9%$%s%0<0%O%K%+%`=|<>AuCV$N4J0W@_7WK!$K$D$$$F(B | S-8 | Thermal swing adsorption Honeycomb dehumidfiers Short cycle time concept | 4/30 21:37:56 |
Honeycomb Rotors (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-12 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
590 | VOC$BG;=LAuCV$N(BFlow$B8!F$$K$h$k9b8zN(2=(B | S-12 | VOC (Volatile Organic Compounds) Adsorptive Concentrator Honeycomb Rotors | 4/30 13:33:36 |
Host-guest crystal (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-31 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
488 | $BN2;@%+%j%&%`7k>=FbM-5!%2%9%HG[8~@)8f$K$h$kH/8w7k>=AO@=(B | S-31 | Luminescence Host-guest crystal Potassium sulfate | 4/30 09:37:52 |
hot compressed water (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
795 | $B9b299b05?e$rMQ$$$?>_L}Gt$+$i$NE|N`!&%"%_%N;@$N2s<}(B | S-25 | soy sauce cake hot compressed water extraction | 4/30 18:04:40 |
hot-compressed water (3$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (3$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
230 | $BEE5$2=3X%^%$%/%m%;%k$rMQ$$$?9b299b05?];@?eMO1U$N(BpH$BB,Dj(B | S-25 | electrochemical microcell pH hot-compressed water | 4/27 20:15:38 |
487 | $B<'5$IbM7E7Gi$rMQ$$$?9b299b05?eMO1U$NL)EYB,DjAuCV$N3+H/$HI>2A(B | S-25 | hot-compressed water magnetic suspension balance density | 4/30 09:36:55 |
564 | $B9b299b05?eCf$G$N(B6,13-$B%Z%s%?%;%s%-%N%s9g@.(B | S-25 | 6,13-pentacenequinone hot-compressed water aldol condensation | 4/30 12:19:10 |
HPLC (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-10 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
930 | $B%5%s%I%&%#%C%A%/%m%^%H%0%i%U%#! | S-10 | HPLC sandwich recycling | 4/30 20:41:44 |
HTS HCA (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-20 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
426 | [$B>7BT9V1i(B]$B0eLtIJ3+H/$K$*$1$kBg5,LO:YK&>pJs$NM}2r$H$=$N1~MQ(B | S-20 | functional genomics RNAi HTS HCA | 4/29 11:15:01 |
Human Blood (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-21 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
783 | $B936E8G:^$rMQ$$$J$$7l1UG4EYB,DjAuCV$N3+H/(B | S-21 | Human Blood Viscosity Rheology | 4/30 17:53:13 |
humic acid (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-7 (2$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
372 | $B%U%!%$%s%;%i%_%C%/%9B?9&BN>e$K7A@.$7$?(BPMMA$B%1!<%/AX$r%@%$%J%_%C%/Kl$H$9$k%U%_%s;@MO1U$NDj058B30_I2a(B | S-7 | humic acid porous ceramics ultrafiltration | 4/28 18:58:56 |
704 | $B%U%_%s;@!&%Y%s%H%J%$%H:.9g4uGv%9%i%j!<$N6E=8Kl_I2aFC@-(B | S-7 | membrane filtration coagulation humic acid | 4/30 16:13:54 |
humic substances (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-24 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
804 | $BAt>l:F@8B%?J$K8~$1$?E4(B($B-6(B)$B$H:x7A@.$9$kIe?"J*2A(B | S-24 | humic substances iron barren ground | 4/30 18:15:42 |
HUVEC (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-21 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
258 | $BLS:Y7l4I$rM-$9$k;0 | S-21 | Tissue Engineering HUVEC RGD peptide | 4/28 11:26:29 |
hybrid artificial liver (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-19 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
623 | ES$B:YK&$r8GDj2=$7$?(BPUF/$B%9%U%'%m%$%I7??M9)4NB!AuCV$N@-G=I>2A(B | S-19 | Embrionic stem cell hepatic differentiation hybrid artificial liver | 4/30 14:38:48 |
hybrid glass (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-33 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
619 | $BM-5!L55!%O%$%V%j%C%I%,%i%9$N8G2=2aDxCf$NBgQrCGJQ7?$N1F6A(B | S-33 | hybrid glass shear deformation orientation | 4/30 14:28:48 |
hybrid material (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-32 (2$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
834 | $B%(%A%l%s%0%j%3!<%k$rMQ$$$F9g@.$5$l$?%a%=%]!<%i%9%7%j%+%J%NN3;R$N@8@.5!9=(B | S-32 | mesoporous silica nanoparticles hybrid material | 4/30 18:50:29 |
894 | $B9bJ,;R=$>~%O%$%V%j%C%I%A%?%K%"%J%NN3;R$NAO@=(B | S-32 | hybrid material nanoparticle graft polymer | 4/30 19:58:41 |
hybrid materials (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-32 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
981 | $BI=LL41G=4p$rMxMQ$7$?5!G=@-HyN3;R$NJ#9g2=(B | S-32 | in-situ surface modification nanoparticles hybrid materials | 4/30 21:46:37 |
hybrid nanoparticle (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
911 | $BM-5!(B-$BL55!%O%$%V%j%C%I%J%NN3;R9g@.%a%+%K%:%`$K4X$9$k8&5f(B | S-25 | supercritical water hybrid nanoparticle synthesis | 4/30 20:16:14 |
Hydorogen storage (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-30 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
198 | Mg-TiMn1.5$BJ#9g2=9g6b$X$NFs%*%V;@2=J*E:2C$K$h$k?eAG5[<}B.EY$K5Z$\$91F6A(B | S-30 | Hydorogen storage Mechanical milling Niobium oxide | 4/25 17:44:15 |
hydrate (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-1 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
507 | $BJ,;RF0NO3XK!$K$h$k%,%9%O%$%I%l!<%H$NJ,2r%a%+%K%:%`$K4X$9$k8&5f(B | S-1 | molecular dynamics simulation hydrate dissociation | 4/30 10:25:39 |
hydro-cyclone (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-13 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
748 | $BJ,N%It$r>.$5$/$7$?(BMAP$B%j%"%/%?!<$H1UBN%5%$%/%m%s$K$h$k@8@.(BMAP$BN3;R$NJ,N%(B | S-13 | MAP hydro-cyclone phosphrous | 4/30 17:16:54 |
hydrocarbon (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-26 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
667 | $BC:2=?eAGG.J,2r$K$*$1$kB?4DK'9aB22=9gJ*$N@8@.5!9=(B | S-26 | kinetics pyrolysis hydrocarbon | 4/30 15:33:40 |
Hydrocarbon separation (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-9 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
3 | $BDc29(BCVD$BK!$K$h$k%7%j%+J#9gKl$NJ,N%@-G=(B | S-9 | Counter diffusion CVD method Silica composite membrane Hydrocarbon separation | 4/11 12:52:26 |
Hydrofluoric Acid (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
761 | $B1v8z2L$rMxMQ$7$?:.;@GQ1U$+$i$N;@$N>xN1$K$h$k;q8;:F@8(B | S-35 | Distillation Salt Effect Hydrofluoric Acid | 4/30 17:35:47 |
hydrogen (15$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-27 (5$B7o(B), S-9 (2$B7o(B), S-26 (2$B7o(B), S-24 (2$B7o(B), S-38 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
142 | $BH/EE=j$N | S-26 | Hydrogen Dimethyl Ether Steam Reforming | 4/25 11:39:58 |
172 | $BGQ%0%j%;%j%s$rE:2CJ*$KMQ$$$??eAG!"%a%?%sH/9Z%W%m%;%9(B | S-19 | hydrogen methane glycerin | 4/25 15:12:05 |
176 | $B%0%j%;%j%sE:2C$K$h$k?75,?eAG!"%a%?%sH/9Z%W%m%;%9$N9=C[(B | S-24 | hydrogen methane glycrin | 4/25 15:28:54 |
298 | $B8GDj2=C4BN$rMQ$$$??eAGH/9Z(B | S-24 | hydrogen fermentation immobilized carrier | 4/28 14:42:58 |
366 | $B%j%A%&%`%7%j%1!<%H$rMQ$$$?%(%?%N!<%k$NHsJ?9U2~ | S-27 | hydrogen lithium silicate ethanol | 4/28 18:44:28 |
385 | $B?eAGJ,N%7?2~ | S-27 | Hydrogen membrane reformer | 4/28 19:47:56 |
458 | CVD$BK!$G:n@=$7$?%Q%i%8%&%`Kl$N?eAGF)2aBQ5W@-(B | S-9 | palladium membrane CVD hydrogen | 4/29 19:01:30 |
524 | $BM-5!%O%$%I%i%$%IC&?eAGKlH?1~4o$N3+H/$H@-G=8~>e$K8~$1$?8!F$(B | S-9 | membrane reactor hydrogen CVD | 4/30 11:01:56 |
536 | $BGs>u%Q%i%8%&%`Kl$rMQ$$$?@QAX7?%b%8%e!<%k$N?eAGJ,N%@-G=(B | S-27 | Hydrogen Separation Module | 4/30 11:36:55 |
575 | $B%Q%i%8%&%`GvKl$r46CN:`$H$9$k?eAG%;%s%5!<(B | S-38 | hydrogen sensor palladium | 4/30 13:06:15 |
661 | $BJ4:U(B-$B2CG.K!$K$h$k%;%k%m!<%9$+$i$N?eAGH/@8$K5Z$\$9?e;@2=%j%A%&%`$N8z2L(B | S-26 | cellulose hydrogen milling | 4/30 15:22:59 |
677 | H2 gas generation from cellulose and PE resin by means of MC treatment with LDH as catalyst | S-5 | cellulose grinding hydrogen | 4/30 15:48:45 |
678 | $B%*%k%=%A%?%s;@%P%j%&%`$rMQ$$$?%a%?%s$N?e>x5$2~e(B | S-27 | Ba2TiO4 hydrogen steam reforming | 4/30 15:49:27 |
817 | $B@iMUCO6hCO0hO"7H(B(RING$B-7;v6H(B)$B$K$h$k%3%s%S%J!<%HI{@8%,%9$+$i$N?eAGJ,N%3hMQ(B | S-12 | complex hydrogen recovery | 4/30 18:31:24 |
1023 | $B%8%k%3%K%";Y;}BN$rMQ$$$?%Q%i%8%&%`?eAGJ,N%Kl$N3+H/!!$=$N(B3 | S-27 | Palladium Membrane Hydrogen | 5/10 13:29:00 |
hydrogen distributor (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-9 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
844 | $BEy29!&5$Aj7O$K$*$1$k?eAG6!5k7?KlH?1~4o$N2DG=@-(B | S-9 | membrane reactor hydrogen distributor isothermal | 4/30 19:05:21 |
Hydrogen fermentation (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-19 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
799 | Enterobacter aerogenes$B$rMQ$$$??eAG@8;:$HBe | S-19 | Hydrogen fermentation pH control metabolite | 4/30 18:09:26 |
Hydrogen permeation membrane (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-27 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
663 | $B5U%S%k%I%"%C%WK!$rMQ$$$?6bB07OJ#9g?eAGF)2aKl$N;Y;}BNAX@=KlJ}K!$N8!F$(B | S-27 | Hydrogen permeation membrane palladium alloy plating | 4/30 15:24:48 |
Hydrogen peroxide (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-30 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
416 | $B%j%s;i | S-30 | Lipid bilayer membranes Hydrogen peroxide Membrane permeability | 4/29 01:32:09 |
Hydrogen production (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-27 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
584 | $B%Q%i%8%&%`Kl7?H?1~4o$rMQ$$$?%a%?%s$N%I%i%$%j%U%)!<%_%s%0$K$h$k?eAG@=B$(B | S-27 | Pd membrane reactor Methane dry reforming Hydrogen production | 4/30 13:23:23 |
hydrogen separation (3$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-9 (3$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
269 | CVD$BK!$K$h$k?eAGJ,N%MQ%P%J%8%&%`GvKl$N:n@=(B | S-9 | Vanadium membrane CVD hydrogen separation | 4/28 12:33:45 |
528 | $B%7%j%+!&%K%C%1%kJ#9gKl$ND4@=$H5$BNF)2aFC@-(B | S-9 | Nickel-silica membrane Hydrogen separation High pressure CVD | 4/30 11:18:21 |
937 | $B%>%k!<%2%kK!$K$h$k9=B$2=%"%k%3%-%7%I$rMQ$$$??75,?eAGJ,N%Kl$N3+H/(B | S-9 | hydrogen separation structured alkoxide sol-gel method | 4/30 20:44:12 |
Hydrogen spillover (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-14 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
863 | Ultra Accelerated Quantum Chemical Molecular Dynamics Study of the Mechanism of Hydrogen Spillover at Pt/$B&C(B-Al2O3 Catalyst Surface. | S-14 | Hydrogen spillover Pt/$B&C(B-Al2O3 catalyst surface Ultra accelerated quantum chemical molecular dynamics program | 4/30 19:22:13 |
hydrogen sulfide (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
781 | $B@PC:%,%92=%W%m%;%9$K$*$1$k3h@-%3!<%/%9$NN22=?eAG=|5n@-G=$NI>2A(B | S-35 | desulfuration hydrogen sulfide activated coke | 4/30 17:50:34 |
hydrogenation (2$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
331 | $BC4;}(BRh$B?(G^$K$h$kD6NW3&Fs;@2=C:AGCf$G$N%U%'%N!<%k?eAG2=(B | S-25 | hydrogenation matal catalyst | 4/28 16:45:27 |
848 | $B%7%j%+HoJ$6bB0?(G^$N%7%j%+HoJ$AX$,H?1~B.EY$K5Z$\$91F6A(B(2) | S-14 | silica-coated metal catalysts diffusion in silica layer hydrogenation | 4/30 19:15:43 |
hydrolysis (4$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (3$B7o(B), S-24 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
549 | $B0!NW3&?e=hM}5;=Q$rMQ$$$?7\IT2D?)It0L$N;q8;2=(B -$B1)!"%U%'%6!<%_!<%k(B - | S-25 | Sub-critical water Hydrolysis Chicken | 4/30 11:52:42 |
550 | $B0!NW3&?e=hM}5;=Q$rMQ$$$?7\IT2D?)It0L$N;q8;2=(B -$B7\$,$i$HFbB!$N:.9gJ*!"%A%-%s%_!<%k(B - | S-25 | Sub-critical water Hydrolysis Chicken | 4/30 11:55:50 |
566 | $B%j%0%N%;%k%m!<%97O%P%$%*%^%9$ND>@\;@E|2=K!$N8!F$(B | S-24 | lignocellulosic biomass hydrolysis saccharification | 4/30 12:29:13 |
882 | $B0!NW3&?e$rMQ$$$?%;%k%m!<%9$N2C?eJ,2r(B | S-25 | Subcritical water Hydrolysis Cellulose | 4/30 19:42:53 |
Hydrolysis of Supercritical water (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
421 | [$BE8K>9V1i(B]$BD6NW3&?e$rMQ$$$?GS?eCf$NN22+2=9gJ*=hM}%W%m%;%9$N3+H/(B | S-25 | Hydrolysis of Supercritical water SCWO Sulfur-containing COD Waste | 4/29 09:29:44 |
hydrophilic polymer (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-33 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
555 | $B?e@-FsAj7O$rMxMQ$7$?(BW/W/O$B%(%^%k%7%g%s$ND4@=(B | S-33 | Aqueous two phase system multiple emulsion hydrophilic polymer | 4/30 12:01:46 |
hydrophobicity (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
405 | TPEN$BM6F3BN$rMQ$$$?Cj=P%/%m%^%H%0%i%U%#!<$K$h$k=E6bB0%j%5%$%/%k(B | S-35 | extraction chromatography metal recycle hydrophobicity | 4/28 22:00:57 |
hydrothermal (5$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-25 (2$B7o(B), S-24 (2$B7o(B), S-32 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
616 | $B9bG;EY%G%s%W%s$NG.?eE|2=(B | S-24 | starch saccharification hydrothermal | 4/30 14:21:16 |
642 | $B1v4p@-G.?e$K$h$k%]%j%(%A%l%s%J%U%?%l!<%H$N2r=E9gH?1~B.EY(B | S-25 | Poly(ethylene naphthalate) Depolymerization Hydrothermal | 4/30 15:01:23 |
726 | $BG~cC$N?eG.=hM}$K$h$k%j%0%K%s$N9=B$JQ2=7PO)$N2r@O(B | S-25 | wheat bran hydrothermal lignin | 4/30 16:48:01 |
843 | $BG.?e=hM}$K$h$k3$AtM3Mh%"%k%.%s;@$NE|2=$K4X$9$k8&5f(B | S-24 | alginate hydrothermal biomass | 4/30 19:04:04 |
969 | Surface Modification of Metal Oxide Nanocrystals with Tunable Structure in Hydrothermal Process | S-32 | nanoparticle hydrothermal structure | 4/30 21:25:22 |
Hydrothermal Reaction (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-35 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
960 | $B?eG.H?1~$K$h$kM-5!=[4D;q8;$N1U>u;tNA2=(B | S-35 | Hydrothermal Reaction Liquid Feeds | 4/30 21:07:58 |
hydrothermal synthesis (6$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-30 (3$B7o(B), S-25 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
106 | $B?eG.K!$rMQ$$$?%^%0%M%?%$%H%J%NN3;R$N7A@.$K5Z$\$96&B8%"%K%*%s$N1F6A(B | S-30 | magnetite hydrothermal synthesis nanoparticle | 4/24 17:48:02 |
107 | $B%^%0%M%?%$%H%J%NN3;R$N?eG.9g@.$K$*$1$kF};@%$%*%sE:2C$N1F6A(B | S-5 | magnetite hydrothermal synthesis nanoparticle | 4/24 17:49:31 |
283 | $B9b7k>=@-%A%?%K%"%J%N%m%C%I$N7A@.2aDx$N2rL@$H7ABV@)8f(B | S-30 | highly crystallized TiO2 nanorods hydrothermal synthesis morphology control | 4/28 13:39:37 |
523 | $B%I%G%+%s%8%"%_%s$rMxMQ$7$?GvJR>u%A%?%s;@%J%N%7!<%H$N7A>u@)8f$HI=LLFC@-(B | S-30 | nanosheet hydrothermal synthesis morphology control | 4/30 10:58:47 |
724 | $BD6NW3&?eG.H?1~$K$h$k6bB0!&9g6b%J%NN3;R$N9g@.(B | S-25 | hydrothermal synthesis metal nanoparticles | 4/30 16:47:03 |
864 | $B9b299b05?eCf$K$*$1$k4D>u%8%Z%W%A%I$N<+8JAH?%2=$H6bB0;@2=J*%J%NN3;RG[Ns$X$N1~MQ(B | S-34 | self-assembly cyclic dipeptide hydrothermal synthesis | 4/30 19:22:26 |
hydroxyapatite (3$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-33 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
30 | $B%W%i%:%^MO | S-9 | Endotoxin Hydroxyapatite | 4/19 08:34:14 |
82 | $B%F%s%W%l!<%H$H$7$FG[8~9=B$@-M-5!%2%k$rMxMQ$7$?%"%Q%?%$%H%O%K%+%`$NAO@=(B | S-33 | unidirectional freezing hydroxyapatite organic gel | 4/24 11:00:06 |
620 | $B%+!<%\%M!<%H4^M-%"%Q%?%$%HI=LL$K$*$1$k%?%s%Q%/ | S-30 | Hydroxyapatite carbonate ion protein adsorption and desorption | 4/30 14:32:15 |
Hygroscopic Property (1$B7o(B) | ||||
$B$3$N%-!<%o!<%I$,$h$/;H$o$l$F$$$k%7%s%]%8%&%`!&9V1iJ,N`!'(B S-5 (1$B7o(B) | ||||
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $B | | |
498 | $B:.9g%(%"%m%>%k$N5[<>FC@-(B | S-5 | Aerosol Hygroscopic Property Crystallization | 4/30 10:03:32 |