SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2891083319> ?p ?o ?g. }

Showing items 1 to 100 of ±146 with 100 items per page.

W2891083319 endingPage "9278" @default.
W2891083319 startingPage "9266" @default.
W2891083319 abstract "The combination of high strength, great toughness, and high heat resistance for polymeric materials is a vital factor for their practical applications. Unfortunately, until now it has remained a major challenge to achieve this performance portfolio because the mechanisms of strength and toughness are mutually exclusive. In the natural world, spider silk features the combination of high strength, great toughness, and excellent thermal stability, which are governed by the nanoconfinement of hydrogen-bonded β-sheets. Here, we report a facile bioinspired methodology for fabricating advanced polymer composite films with a high tensile strength of 152.8 MPa, a high stiffness of 4.35 GPa, and a tensile toughness of 30.3 MJ/m3 in addition to high thermal stability (69 °C higher than that of the polymer matrix) only by adding 2.0 wt % of artificial β-sheets. The mechanical and thermostable performance portfolio is superior to that of its counterparts developed to date because of the nanoconfinement and hydrogen-bond cross-linking effects of artificial β-sheets. Our study offers a facile biomimetic strategy for the design of integrated mechanically robust and thermostable polymer materials, which hold promise for many applications in electrical devices and tissue engineering fields." @default.
W2891083319 created "2018-09-27" @default.
W2891083319 creator A5006383854 @default.
W2891083319 creator A5010241534 @default.
W2891083319 creator A5012131084 @default.
W2891083319 creator A5021324401 @default.
W2891083319 creator A5037703959 @default.
W2891083319 creator A5044707487 @default.
W2891083319 creator A5075169092 @default.
W2891083319 creator A5080589248 @default.
W2891083319 creator A5091182108 @default.
W2891083319 date "2018-09-04" @default.
W2891083319 modified "2023-10-17" @default.
W2891083319 title "Bioinspired Design of Strong, Tough, and Thermally Stable Polymeric Materials <i>via</i> Nanoconfinement" @default.
W2891083319 cites W1417269071 @default.
W2891083319 cites W1422534505 @default.
W2891083319 cites W1658845344 @default.
W2891083319 cites W1971974144 @default.
W2891083319 cites W1977018044 @default.
W2891083319 cites W1980651080 @default.
W2891083319 cites W1983572892 @default.
W2891083319 cites W1983727227 @default.
W2891083319 cites W1984199725 @default.
W2891083319 cites W1992458826 @default.
W2891083319 cites W1993575187 @default.
W2891083319 cites W2004106713 @default.
W2891083319 cites W2012636400 @default.
W2891083319 cites W2013279757 @default.
W2891083319 cites W2020837825 @default.
W2891083319 cites W2032255372 @default.
W2891083319 cites W2032544789 @default.
W2891083319 cites W2034784441 @default.
W2891083319 cites W2044285822 @default.
W2891083319 cites W2051584593 @default.
W2891083319 cites W2056149316 @default.
W2891083319 cites W2057293894 @default.
W2891083319 cites W2061161404 @default.
W2891083319 cites W2065021511 @default.
W2891083319 cites W2088363460 @default.
W2891083319 cites W2089823743 @default.
W2891083319 cites W2090680200 @default.
W2891083319 cites W2092079176 @default.
W2891083319 cites W2095964024 @default.
W2891083319 cites W2102570252 @default.
W2891083319 cites W2105584562 @default.
W2891083319 cites W2110469929 @default.
W2891083319 cites W2121121542 @default.
W2891083319 cites W2121476964 @default.
W2891083319 cites W2129648659 @default.
W2891083319 cites W2130031259 @default.
W2891083319 cites W2141237492 @default.
W2891083319 cites W2142777673 @default.
W2891083319 cites W2146957340 @default.
W2891083319 cites W2149742950 @default.
W2891083319 cites W2155165605 @default.
W2891083319 cites W2160391235 @default.
W2891083319 cites W2162694674 @default.
W2891083319 cites W2164992361 @default.
W2891083319 cites W2166158493 @default.
W2891083319 cites W2168901333 @default.
W2891083319 cites W2183385390 @default.
W2891083319 cites W2193992245 @default.
W2891083319 cites W2222999645 @default.
W2891083319 cites W2272574296 @default.
W2891083319 cites W2284475944 @default.
W2891083319 cites W2314253967 @default.
W2891083319 cites W2317116953 @default.
W2891083319 cites W2326716747 @default.
W2891083319 cites W2328526169 @default.
W2891083319 cites W2330713572 @default.
W2891083319 cites W2468248915 @default.
W2891083319 cites W2527341056 @default.
W2891083319 cites W2537445102 @default.
W2891083319 cites W2551756886 @default.
W2891083319 cites W2594740085 @default.
W2891083319 cites W2757899751 @default.
W2891083319 cites W2767086060 @default.
W2891083319 cites W2949306829 @default.
W2891083319 doi "https://doi.org/10.1021/acsnano.8b04002" @default.
W2891083319 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30179445" @default.
W2891083319 hasPublicationYear "2018" @default.
W2891083319 type Work @default.
W2891083319 sameAs 2891083319 @default.
W2891083319 citedByCount "139" @default.
W2891083319 countsByYear W28910833192019 @default.
W2891083319 countsByYear W28910833192020 @default.
W2891083319 countsByYear W28910833192021 @default.
W2891083319 countsByYear W28910833192022 @default.
W2891083319 countsByYear W28910833192023 @default.
W2891083319 crossrefType "journal-article" @default.
W2891083319 hasAuthorship W2891083319A5006383854 @default.
W2891083319 hasAuthorship W2891083319A5010241534 @default.
W2891083319 hasAuthorship W2891083319A5012131084 @default.
W2891083319 hasAuthorship W2891083319A5021324401 @default.
W2891083319 hasAuthorship W2891083319A5037703959 @default.
W2891083319 hasAuthorship W2891083319A5044707487 @default.
W2891083319 hasAuthorship W2891083319A5075169092 @default.
W2891083319 hasAuthorship W2891083319A5080589248 @default.