$B:G=*99?7F|;~!'(B2015-07-10 15:24:01
$B$3$NJ,N`$G$h$/;H$o$l(B $B$F$$$k%-!<%o!<%I(B | $B%-!<%o!<%I(B | $B | |
---|---|---|---|
immobilized enzyme | 1$B7o(B | ||
flexibility | 1$B7o(B | ||
microgel particles | 1$B7o(B | ||
CO2 capture release | 1$B7o(B | ||
Filling Membrane | 1$B7o(B | ||
molecularly imprinted polymer | 1$B7o(B | ||
microchannel | 1$B7o(B | ||
Heterocyclic Ring Systems | 1$B7o(B | ||
Enzyme | 1$B7o(B | ||
enzymatic reaction | 1$B7o(B | ||
Proton Exchange Membrane | 1$B7o(B | ||
Immobilization | 1$B7o(B | ||
film | 1$B7o(B | ||
Side-Chain Crystalline Block Co-Polymer | 1$B7o(B | ||
degree of cross-linking | 1$B7o(B | ||
Polymer of Intrinsic Microporosity (PIM) | 1$B7o(B | ||
Supramolecular Interaction | 1$B7o(B | ||
Solid state alkaline fuel cell (SAFC) | 1$B7o(B | ||
Polymer brush | 1$B7o(B | ||
Multiblock Copolymer | 1$B7o(B | ||
Anion exchange membrane(AEM) | 1$B7o(B |
$B | $B9V1iBjL\!?H/I=$B%-!<%o!<%I(B | $BH/I=7A<0(B | |
---|---|---|---|
295 | $BJ,;R%$%s%W%j%s%H%]%j%^!<<+8J;Y;}Kl$N%2!<%H8z2L$N%-%i%kA*Br@-$KM?$($k2M66EY$HKl9=B$$N1F6A(B | degree of cross-linking flexibility molecularly imprinted polymer | P |
333 | $BHs?eG^BNCf$G$N9ZAGJ]8n5!G=$rM-$9$k9ZAG8GDj2=C4BN$ND4@=(B | Enzyme Immobilization Polymer brush | O |
708 | $BB&:?7k>=@-%V%m%C%/6&=E9gBN$N7k>=2=D6J,;R4VNO$rMxMQ$7$?EE2r | Filling Membrane Side-Chain Crystalline Block Co-Polymer Supramolecular Interaction | O |
784 | $B%X%F%m86;R4VAj8_:nMQ$r4pHW$H$7$??75,8GBN9bJ,;R7AG3NAEECSMQEE2r | Proton Exchange Membrane Multiblock Copolymer Heterocyclic Ring Systems | P |
803 | $B%_%/%mB?9&@-9bJ,;R(B(PIM)$B$r4pHW$H$7$?(BSAFC$BMQ%"%K%*%s8r49Kl$N9g@.$H@-G=I>2A(B | Solid state alkaline fuel cell (SAFC) Anion exchange membrane(AEM) Polymer of Intrinsic Microporosity (PIM) | P |
858 | Kinetics study of CO2 capture-release process by thermal responsive microgel particles | microgel particles CO2 capture release film | O |
862 | $B%^%$%/%m%A%c%M%kI=LL$N%]%j%^! | immobilized enzyme microchannel enzymatic reaction | O |