SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2089675024> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W2089675024 endingPage "8385" @default.
W2089675024 startingPage "8385" @default.
W2089675024 abstract "Uniformly sized superparamagnetic single-shell nonporous (S1) and double-shell mesoporous silica nanocomposite particles with ∼130 nm magnetite cluster cores are synthesised in this study. Mesoporous particles are prepared with two BJH pore sizes (2.44 and 3.76 nm, designated as S2 and S3 particles, respectively). Once the lipase was immobilised on particles, our results showed that the enzyme loading capacities of mesoporous structures, i.e. S2 and S3, are higher than that for nonporous particles (S1). Hydrolytic activity tests reveal that immobilised lipases retain about 90% of the free enzyme's activity. Furthermore, comparing to the free enzyme, the thermal stability of immobilised enzymes is considerably enhanced, regardless of the silica matrix structure. Also, our results indicate that the rate of the enzymatic reaction is not influenced by the type of silica matrix used for lipase immobilisation, but immobilisation results in lower enzymatic reaction rates for the immobilised enzymes compared to the free enzyme. Finally, in examining the reusability, the immobilised lipases retained more than 76% of their initial activities after 5 times’ reuse." @default.
W2089675024 created "2016-06-24" @default.
W2089675024 creator A5020582439 @default.
W2089675024 creator A5033345632 @default.
W2089675024 creator A5056911582 @default.
W2089675024 creator A5075027364 @default.
W2089675024 date "2012-01-01" @default.
W2089675024 modified "2023-10-11" @default.
W2089675024 title "Lipase immobilisation on magnetic silica nanocomposite particles: effects of the silica structure on properties of the immobilised enzyme" @default.
W2089675024 cites W1963877576 @default.
W2089675024 cites W1965354620 @default.
W2089675024 cites W1967482191 @default.
W2089675024 cites W1968837849 @default.
W2089675024 cites W1968997803 @default.
W2089675024 cites W1970341935 @default.
W2089675024 cites W1972056065 @default.
W2089675024 cites W1980055946 @default.
W2089675024 cites W1980933271 @default.
W2089675024 cites W1988447242 @default.
W2089675024 cites W1991301936 @default.
W2089675024 cites W2001264570 @default.
W2089675024 cites W2016212029 @default.
W2089675024 cites W2022342363 @default.
W2089675024 cites W2022434944 @default.
W2089675024 cites W2024060072 @default.
W2089675024 cites W2030215624 @default.
W2089675024 cites W2034959585 @default.
W2089675024 cites W2038106705 @default.
W2089675024 cites W2038925316 @default.
W2089675024 cites W2040158309 @default.
W2089675024 cites W2046825815 @default.
W2089675024 cites W2047651080 @default.
W2089675024 cites W2050661752 @default.
W2089675024 cites W2057179996 @default.
W2089675024 cites W2058248304 @default.
W2089675024 cites W2061092903 @default.
W2089675024 cites W2076318389 @default.
W2089675024 cites W2080798469 @default.
W2089675024 cites W2081186248 @default.
W2089675024 cites W2082159784 @default.
W2089675024 cites W2082788620 @default.
W2089675024 cites W2088321461 @default.
W2089675024 cites W2089805801 @default.
W2089675024 cites W2090637305 @default.
W2089675024 cites W2091672656 @default.
W2089675024 cites W2092727804 @default.
W2089675024 cites W2096900889 @default.
W2089675024 cites W2104937264 @default.
W2089675024 cites W2114285936 @default.
W2089675024 cites W2115616340 @default.
W2089675024 cites W2133999833 @default.
W2089675024 cites W2135282026 @default.
W2089675024 cites W2141945618 @default.
W2089675024 cites W2166395219 @default.
W2089675024 cites W2167683325 @default.
W2089675024 cites W2254901956 @default.
W2089675024 cites W4293247451 @default.
W2089675024 doi "https://doi.org/10.1039/c2jm30513e" @default.
W2089675024 hasPublicationYear "2012" @default.
W2089675024 type Work @default.
W2089675024 sameAs 2089675024 @default.
W2089675024 citedByCount "88" @default.
W2089675024 countsByYear W20896750242012 @default.
W2089675024 countsByYear W20896750242013 @default.
W2089675024 countsByYear W20896750242014 @default.
W2089675024 countsByYear W20896750242015 @default.
W2089675024 countsByYear W20896750242016 @default.
W2089675024 countsByYear W20896750242017 @default.
W2089675024 countsByYear W20896750242018 @default.
W2089675024 countsByYear W20896750242019 @default.
W2089675024 countsByYear W20896750242020 @default.
W2089675024 countsByYear W20896750242021 @default.
W2089675024 countsByYear W20896750242022 @default.
W2089675024 countsByYear W20896750242023 @default.
W2089675024 crossrefType "journal-article" @default.
W2089675024 hasAuthorship W2089675024A5020582439 @default.
W2089675024 hasAuthorship W2089675024A5033345632 @default.
W2089675024 hasAuthorship W2089675024A5056911582 @default.
W2089675024 hasAuthorship W2089675024A5075027364 @default.
W2089675024 hasConcept C115260700 @default.
W2089675024 hasConcept C121332964 @default.
W2089675024 hasConcept C127413603 @default.
W2089675024 hasConcept C155672457 @default.
W2089675024 hasConcept C161790260 @default.
W2089675024 hasConcept C178790620 @default.
W2089675024 hasConcept C181199279 @default.
W2089675024 hasConcept C185592680 @default.
W2089675024 hasConcept C191897082 @default.
W2089675024 hasConcept C192562407 @default.
W2089675024 hasConcept C23792430 @default.
W2089675024 hasConcept C2777496208 @default.
W2089675024 hasConcept C2777781897 @default.
W2089675024 hasConcept C2779697368 @default.
W2089675024 hasConcept C32546565 @default.
W2089675024 hasConcept C33633552 @default.
W2089675024 hasConcept C42360764 @default.
W2089675024 hasConcept C43617362 @default.
W2089675024 hasConcept C59061564 @default.