FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2989377790> ?p ?o ?g. }

• W2989377790 endingPage "492" @default.
• W2989377790 startingPage "481" @default.
• W2989377790 abstract "Zinc (Zn) alloys have attracted much attention for biomedical applications due to their biodegradability, biocompatibility, and biological functionalities. Zn alloy foams have high potential to be used as regenerative medical implants by virtue of their porous structure, which allows new bone tissue ingrowth, their low elastic modulus approximating that of natural bone, and their biodegradation, which eliminates the need for follow-up surgery to remove the implants after bone tissue healing. In this context, a biodegradable Zn–Cu foam was fabricated by electrochemical deposition on a foamed Cu template and given a subsequent diffusion heat treatment. The microstructure, mechanical properties, degradation behavior, toxicity, hemolysis percentages, and antibacterial effects of the Zn–Cu foams were assessed for biomedical applications. The Zn–Cu foams exhibited a yield strength of ~12.1 MPa, a plateau strength of 16.8 MPa, and a strain over 50% under compression tests. The corrosion rate of the Zn–Cu foams measured by electrochemical polarization testing was 0.18 mm/y. The Zn–Cu foams showed good blood compatibility with a hemolysis percentage of less than 5%. Cytotoxicity assessment indicated that a 100% concentration of the Zn–Cu foam extract showed clear cytotoxicity against MC3T3-E1 osteoblast cells, but a 12.5% concentration of the extract showed > 90% cell viability. Moreover, the Zn–Cu foams showed good antibacterial effects. This work reportsa biodegradable Zn–Cu foam with high mechanical strength and ductility, suitable degradation rate, good antibacterial capacity, and good hemolysis property and biocompatibility. The Zn–Cu foam exhibited a yield strength of ~12.1 MPa, a plateau strength of 16.8 MPa, and a strain over 50% under compression tests. The corrosion rate of the Zn–Cu foam measured by electrochemical polarization testing was 0.18 mm/y in Hanks’ Solutions. The Zn–Cu foam showed good blood compatibility with a hemolysis percentage of less than 5%. Cytotoxicity assessment indicated that a 12.5% concentration of the foam extract showed > 90% cell viability. Moreover, the Zn–Cu foam showed good antibacterial effects against S. aureus." @default.
• W2989377790 created "2019-11-22" @default.
• W2989377790 creator A5008496752 @default.
• W2989377790 creator A5022399770 @default.
• W2989377790 creator A5022922480 @default.
• W2989377790 creator A5030691366 @default.
• W2989377790 creator A5039924530 @default.
• W2989377790 creator A5045128194 @default.
• W2989377790 creator A5088345571 @default.
• W2989377790 creator A5088397015 @default.
• W2989377790 date "2020-01-01" @default.
• W2989377790 modified "2023-10-17" @default.
• W2989377790 title "Degradation behavior, cytotoxicity, hemolysis, and antibacterial properties of electro-deposited Zn–Cu metal foams as potential biodegradable bone implants" @default.
• W2989377790 cites W1159641261 @default.
• W2989377790 cites W1515823547 @default.
• W2989377790 cites W1975965726 @default.
• W2989377790 cites W1976176247 @default.
• W2989377790 cites W1977541218 @default.
• W2989377790 cites W1985792000 @default.
• W2989377790 cites W1987190449 @default.
• W2989377790 cites W1990836743 @default.
• W2989377790 cites W1995248744 @default.
• W2989377790 cites W2000958961 @default.
• W2989377790 cites W2003493189 @default.
• W2989377790 cites W2003616665 @default.
• W2989377790 cites W2009845905 @default.
• W2989377790 cites W2014478371 @default.
• W2989377790 cites W2016847601 @default.
• W2989377790 cites W2020252167 @default.
• W2989377790 cites W2025084129 @default.
• W2989377790 cites W2026422865 @default.
• W2989377790 cites W2026455182 @default.
• W2989377790 cites W2030667189 @default.
• W2989377790 cites W2031718525 @default.
• W2989377790 cites W2034680997 @default.
• W2989377790 cites W2050875646 @default.
• W2989377790 cites W2057775621 @default.
• W2989377790 cites W2058040615 @default.
• W2989377790 cites W2058203839 @default.
• W2989377790 cites W2067172809 @default.
• W2989377790 cites W2069842272 @default.
• W2989377790 cites W2080287742 @default.
• W2989377790 cites W2086758442 @default.
• W2989377790 cites W2157882907 @default.
• W2989377790 cites W2167787684 @default.
• W2989377790 cites W2171947690 @default.
• W2989377790 cites W2185555832 @default.
• W2989377790 cites W2188969692 @default.
• W2989377790 cites W2230487954 @default.
• W2989377790 cites W2253346914 @default.
• W2989377790 cites W2286452885 @default.
• W2989377790 cites W2332595610 @default.
• W2989377790 cites W2337321605 @default.
• W2989377790 cites W2406708812 @default.
• W2989377790 cites W2460608438 @default.
• W2989377790 cites W2470205717 @default.
• W2989377790 cites W2477906172 @default.
• W2989377790 cites W2536176462 @default.
• W2989377790 cites W2567006127 @default.
• W2989377790 cites W2587987519 @default.
• W2989377790 cites W2594627979 @default.
• W2989377790 cites W2596816814 @default.
• W2989377790 cites W260156229 @default.
• W2989377790 cites W2614522135 @default.
• W2989377790 cites W2734862433 @default.
• W2989377790 cites W2761121042 @default.
• W2989377790 cites W2763718100 @default.
• W2989377790 cites W2793923905 @default.
• W2989377790 cites W2802575828 @default.
• W2989377790 cites W2885940131 @default.
• W2989377790 cites W2887074252 @default.
• W2989377790 cites W2911927254 @default.
• W2989377790 cites W2912450819 @default.
• W2989377790 cites W747508636 @default.
• W2989377790 doi "https://doi.org/10.1016/j.actbio.2019.11.031" @default.
• W2989377790 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31740321" @default.
• W2989377790 hasPublicationYear "2020" @default.
• W2989377790 type Work @default.
• W2989377790 sameAs 2989377790 @default.
• W2989377790 citedByCount "88" @default.
• W2989377790 countsByYear W29893777902020 @default.
• W2989377790 countsByYear W29893777902021 @default.
• W2989377790 countsByYear W29893777902022 @default.
• W2989377790 countsByYear W29893777902023 @default.
• W2989377790 crossrefType "journal-article" @default.
• W2989377790 hasAuthorship W2989377790A5008496752 @default.
• W2989377790 hasAuthorship W2989377790A5022399770 @default.
• W2989377790 hasAuthorship W2989377790A5022922480 @default.
• W2989377790 hasAuthorship W2989377790A5030691366 @default.
• W2989377790 hasAuthorship W2989377790A5039924530 @default.
• W2989377790 hasAuthorship W2989377790A5045128194 @default.
• W2989377790 hasAuthorship W2989377790A5088345571 @default.
• W2989377790 hasAuthorship W2989377790A5088397015 @default.
• W2989377790 hasConcept C157021035 @default.
• W2989377790 hasConcept C159985019 @default.
• W2989377790 hasConcept C178790620 @default.
• W2989377790 hasConcept C185592680 @default.
• W2989377790 hasConcept C191897082 @default.

• next