SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4328110987> ?p ?o ?g. }

Showing items 1 to 100 of ±144 with 100 items per page.

W4328110987 endingPage "2481" @default.
W4328110987 startingPage "2481" @default.
W4328110987 abstract "Polycaprolactone (PCL) has been one of the most popular biomaterials in tissue engineering due to its relatively low melting temperature, excellent thermal stability, and cost-effectiveness. However, its low cell attraction, low elastic modulus, and long-term degradation time have limited its application in a wide range of scaffold studies. Dimethyl sulfone (DMSO2) is a stable and non-hazardous organosulfur compound with low viscosity and high surface tension. PCL and DMSO2 composites may overcome the limitations of PCL as a biomaterial and tailor the properties of biocomposites. In this study, PCL and DMSO2 composites were investigated as a new bio-scaffold material to increase hydrophilicity and mechanical properties and tailor degradation properties in vitro. PCL and DMSO2 were physically mixed with 10, 20, and 30 wt% of DMSO2 to evaluate thermal, hydrophilicity, mechanical, and degradation properties of the composites. The water contact angle of the composites for hydrophilicity decreased by 15.5% compared to pure PCL. The experimental results showed that the mechanical and degradation properties of PCL and DMSO2 were better than those of pure PCL, and the properties can be tuned by regulating DMSO2 concentration in the PCL matrix. The elastic modulus of the composite with 30 wt% of DMSO2 showed 532 MPa, and its degradation time was 18 times faster than that of PCL." @default.
W4328110987 created "2023-03-22" @default.
W4328110987 creator A5011837982 @default.
W4328110987 creator A5036037058 @default.
W4328110987 creator A5041767843 @default.
W4328110987 creator A5042453527 @default.
W4328110987 creator A5057917124 @default.
W4328110987 date "2023-03-21" @default.
W4328110987 modified "2023-10-05" @default.
W4328110987 title "PCL and DMSO2 Composites for Bio-Scaffold Materials" @default.
W4328110987 cites W1865345593 @default.
W4328110987 cites W1965665343 @default.
W4328110987 cites W1973491363 @default.
W4328110987 cites W1993397944 @default.
W4328110987 cites W1997767093 @default.
W4328110987 cites W1997848759 @default.
W4328110987 cites W1998111806 @default.
W4328110987 cites W2007310752 @default.
W4328110987 cites W2019395484 @default.
W4328110987 cites W2030395172 @default.
W4328110987 cites W203494167 @default.
W4328110987 cites W2045295282 @default.
W4328110987 cites W2045342436 @default.
W4328110987 cites W2049360074 @default.
W4328110987 cites W2051013988 @default.
W4328110987 cites W2064403993 @default.
W4328110987 cites W2066739133 @default.
W4328110987 cites W2070166910 @default.
W4328110987 cites W2091273771 @default.
W4328110987 cites W2096807095 @default.
W4328110987 cites W2103745164 @default.
W4328110987 cites W2108524740 @default.
W4328110987 cites W2113042424 @default.
W4328110987 cites W2118545015 @default.
W4328110987 cites W2124893083 @default.
W4328110987 cites W2126863855 @default.
W4328110987 cites W2135427450 @default.
W4328110987 cites W2137664283 @default.
W4328110987 cites W2139457077 @default.
W4328110987 cites W2149790717 @default.
W4328110987 cites W2151567511 @default.
W4328110987 cites W2157958170 @default.
W4328110987 cites W2157976579 @default.
W4328110987 cites W2160544343 @default.
W4328110987 cites W2278692305 @default.
W4328110987 cites W2312493969 @default.
W4328110987 cites W2460239666 @default.
W4328110987 cites W2472329501 @default.
W4328110987 cites W2548152723 @default.
W4328110987 cites W2560845532 @default.
W4328110987 cites W2609838393 @default.
W4328110987 cites W2610077354 @default.
W4328110987 cites W2717814946 @default.
W4328110987 cites W2766867055 @default.
W4328110987 cites W2777233468 @default.
W4328110987 cites W2800287965 @default.
W4328110987 cites W2887889277 @default.
W4328110987 cites W2889252595 @default.
W4328110987 cites W2892117723 @default.
W4328110987 cites W2896436735 @default.
W4328110987 cites W2898076967 @default.
W4328110987 cites W2907594102 @default.
W4328110987 cites W2909816341 @default.
W4328110987 cites W2911947236 @default.
W4328110987 cites W2928332582 @default.
W4328110987 cites W2947184283 @default.
W4328110987 cites W2980536043 @default.
W4328110987 cites W3011743348 @default.
W4328110987 cites W3025116717 @default.
W4328110987 cites W3081633832 @default.
W4328110987 cites W3085558873 @default.
W4328110987 cites W3089573375 @default.
W4328110987 cites W3096532093 @default.
W4328110987 cites W3126034575 @default.
W4328110987 cites W3133881043 @default.
W4328110987 cites W3134968358 @default.
W4328110987 cites W3155637814 @default.
W4328110987 cites W3170451199 @default.
W4328110987 cites W3174704106 @default.
W4328110987 cites W3188606430 @default.
W4328110987 cites W3201928389 @default.
W4328110987 cites W3211716103 @default.
W4328110987 cites W4205617977 @default.
W4328110987 cites W4210606631 @default.
W4328110987 cites W4211223252 @default.
W4328110987 cites W4283311451 @default.
W4328110987 cites W4313225830 @default.
W4328110987 cites W595596642 @default.
W4328110987 cites W95616734 @default.
W4328110987 doi "https://doi.org/10.3390/ma16062481" @default.
W4328110987 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36984361" @default.
W4328110987 hasPublicationYear "2023" @default.
W4328110987 type Work @default.
W4328110987 citedByCount "2" @default.
W4328110987 countsByYear W43281109872023 @default.
W4328110987 crossrefType "journal-article" @default.
W4328110987 hasAuthorship W4328110987A5011837982 @default.
W4328110987 hasAuthorship W4328110987A5036037058 @default.