SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2754298989> ?p ?o ?g. }

Showing items 1 to 100 of ±113 with 100 items per page.

W2754298989 endingPage "56" @default.
W2754298989 startingPage "47" @default.
W2754298989 abstract "Mechanically strong silk fibroin cryogels with two generations of pores were produced by carrying out the cryogelation reactions within the pores of the initial single-network (SN) fibroin cryogels. In this way, cryogels with interpenetrated and interconnected double- (DN), and triple-network (TN) structures were produced from fibroin solutions frozen at −18 °C in the presence of butanediol diglycidyl ether cross-linker and N,N,N′,N′-tetramethylethylenediamine as a pH regulator. Cryogel scaffolds formed at fibroin concentrations above 25 wt% exhibit a Young's modulus between 66 and 126 MPa, and sustain around 90% compressions under 87–240 MPa stresses. These values are the largest reported so far for fibroin scaffolds and hence the materials have promising applications in bone tissue engineering. We also show that the improvement in the mechanical performance of cryogels after multiple-networking is due to their increased content of fibroin network. Both DN and TN cryogels have two generations of interconnected macropores with diameters 20–30 μm and 3–9 μm. The size of both large and small pores could be adjusted by the relative amounts of fibroin in the network components." @default.
W2754298989 created "2017-09-25" @default.
W2754298989 creator A5009524309 @default.
W2754298989 creator A5043864779 @default.
W2754298989 creator A5045290943 @default.
W2754298989 date "2017-10-01" @default.
W2754298989 modified "2023-10-17" @default.
W2754298989 title "Cryogelation within cryogels: Silk fibroin scaffolds with single-, double- and triple-network structures" @default.
W2754298989 cites W147404393 @default.
W2754298989 cites W1823080659 @default.
W2754298989 cites W1965904253 @default.
W2754298989 cites W1966077738 @default.
W2754298989 cites W1973331422 @default.
W2754298989 cites W1977601548 @default.
W2754298989 cites W1988510537 @default.
W2754298989 cites W1990498444 @default.
W2754298989 cites W1999041362 @default.
W2754298989 cites W2001633027 @default.
W2754298989 cites W2007973276 @default.
W2754298989 cites W2010136853 @default.
W2754298989 cites W2014796309 @default.
W2754298989 cites W2016325779 @default.
W2754298989 cites W2022733137 @default.
W2754298989 cites W2026799007 @default.
W2754298989 cites W2029284022 @default.
W2754298989 cites W2031021520 @default.
W2754298989 cites W2031344083 @default.
W2754298989 cites W2040826446 @default.
W2754298989 cites W2050988064 @default.
W2754298989 cites W2054059695 @default.
W2754298989 cites W2054886092 @default.
W2754298989 cites W2064209342 @default.
W2754298989 cites W2070214702 @default.
W2754298989 cites W2073065089 @default.
W2754298989 cites W2076640106 @default.
W2754298989 cites W2077990286 @default.
W2754298989 cites W2078497911 @default.
W2754298989 cites W2082296643 @default.
W2754298989 cites W2083457492 @default.
W2754298989 cites W2083942461 @default.
W2754298989 cites W2085482729 @default.
W2754298989 cites W2091107068 @default.
W2754298989 cites W2091874564 @default.
W2754298989 cites W2094322035 @default.
W2754298989 cites W2099060798 @default.
W2754298989 cites W2101190679 @default.
W2754298989 cites W2102026800 @default.
W2754298989 cites W2103299737 @default.
W2754298989 cites W2108267270 @default.
W2754298989 cites W2109464227 @default.
W2754298989 cites W2113321721 @default.
W2754298989 cites W2124195334 @default.
W2754298989 cites W2151481123 @default.
W2754298989 cites W2159210886 @default.
W2754298989 cites W2162917607 @default.
W2754298989 cites W2169220536 @default.
W2754298989 cites W2191751320 @default.
W2754298989 cites W2312237494 @default.
W2754298989 cites W2314366236 @default.
W2754298989 cites W2395858699 @default.
W2754298989 cites W9934647 @default.
W2754298989 doi "https://doi.org/10.1016/j.polymer.2017.09.023" @default.
W2754298989 hasPublicationYear "2017" @default.
W2754298989 type Work @default.
W2754298989 sameAs 2754298989 @default.
W2754298989 citedByCount "34" @default.
W2754298989 countsByYear W27542989892018 @default.
W2754298989 countsByYear W27542989892019 @default.
W2754298989 countsByYear W27542989892020 @default.
W2754298989 countsByYear W27542989892021 @default.
W2754298989 countsByYear W27542989892022 @default.
W2754298989 countsByYear W27542989892023 @default.
W2754298989 crossrefType "journal-article" @default.
W2754298989 hasAuthorship W2754298989A5009524309 @default.
W2754298989 hasAuthorship W2754298989A5043864779 @default.
W2754298989 hasAuthorship W2754298989A5045290943 @default.
W2754298989 hasConcept C122302759 @default.
W2754298989 hasConcept C127413603 @default.
W2754298989 hasConcept C159985019 @default.
W2754298989 hasConcept C188027245 @default.
W2754298989 hasConcept C192562407 @default.
W2754298989 hasConcept C2780431358 @default.
W2754298989 hasConcept C42360764 @default.
W2754298989 hasConceptScore W2754298989C122302759 @default.
W2754298989 hasConceptScore W2754298989C127413603 @default.
W2754298989 hasConceptScore W2754298989C159985019 @default.
W2754298989 hasConceptScore W2754298989C188027245 @default.
W2754298989 hasConceptScore W2754298989C192562407 @default.
W2754298989 hasConceptScore W2754298989C2780431358 @default.
W2754298989 hasConceptScore W2754298989C42360764 @default.
W2754298989 hasFunder F4320322626 @default.
W2754298989 hasFunder F4320322628 @default.
W2754298989 hasFunder F4320324489 @default.
W2754298989 hasLocation W27542989891 @default.
W2754298989 hasOpenAccess W2754298989 @default.
W2754298989 hasPrimaryLocation W27542989891 @default.
W2754298989 hasRelatedWork W1965559769 @default.
W2754298989 hasRelatedWork W1980738957 @default.