SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3202950936> ?p ?o ?g. }

Showing items 1 to 100 of ±168 with 100 items per page.

W3202950936 endingPage "1325" @default.
W3202950936 startingPage "1311" @default.
W3202950936 abstract "The unique interactions between hexadecanoic acid (HA) and albumin (ALB) molecules on the surface of the porous layer of AZ31 Mg alloy were exploited to fabricate a novel hybrid composite film with excellent electrochemical stability in a 3.5 wt.% NaCl solution. Herein, the inorganic layer (IL) obtained by plasma electrolytic oxidation of AZ31 Mg alloy in an alkaline-phosphate-WO3 electrolyte was soaked in an organic solution composed of ALB and HA for 10 and 24 h at 60 °C. Although albumin and HA may coexist on the same surface of IL, the higher reactivity of ALB molecules would prevent the formation of a thick layer of HA. The donor-acceptor complexes formed due to the unique interactions between ALB and/or HA and IL surface would reduce the area exposed to the corrosive species which in turn would efficiently protect the substrate from corrosion. The porous structure of the IL would provide preferable sites for the physical and chemical locking triggered by charge-transfer phenomena, leading to the inhomogeneous nucleation and crystal growth of a flowery flakes-like organic layer. DFT calculations were performed to reveal the primary bonding modes between the ALB, HA, and IL and to assess the mechanistic insights into the formation of such novel hybrid composites." @default.
W3202950936 created "2021-10-11" @default.
W3202950936 creator A5006178080 @default.
W3202950936 creator A5030752729 @default.
W3202950936 creator A5046595967 @default.
W3202950936 creator A5070991414 @default.
W3202950936 creator A5083935366 @default.
W3202950936 creator A5090099156 @default.
W3202950936 date "2022-05-01" @default.
W3202950936 modified "2023-10-15" @default.
W3202950936 title "Improving the electrochemical stability of AZ31 Mg alloy in a 3.5wt.% NaCl solution via the surface functionalization of plasma electrolytic oxidation coating" @default.
W3202950936 cites W1032395513 @default.
W3202950936 cites W1963727072 @default.
W3202950936 cites W1977344445 @default.
W3202950936 cites W1986784568 @default.
W3202950936 cites W1991071971 @default.
W3202950936 cites W1992851712 @default.
W3202950936 cites W1993949056 @default.
W3202950936 cites W1995863152 @default.
W3202950936 cites W2001180934 @default.
W3202950936 cites W2006733225 @default.
W3202950936 cites W2011682807 @default.
W3202950936 cites W2015764877 @default.
W3202950936 cites W2017106153 @default.
W3202950936 cites W2020642764 @default.
W3202950936 cites W2021612473 @default.
W3202950936 cites W2022211055 @default.
W3202950936 cites W2027527261 @default.
W3202950936 cites W2037354056 @default.
W3202950936 cites W2040112547 @default.
W3202950936 cites W2040789635 @default.
W3202950936 cites W2043394420 @default.
W3202950936 cites W2044790716 @default.
W3202950936 cites W2048548373 @default.
W3202950936 cites W2053532339 @default.
W3202950936 cites W2058287707 @default.
W3202950936 cites W2063260770 @default.
W3202950936 cites W2064231462 @default.
W3202950936 cites W2067468422 @default.
W3202950936 cites W2068559689 @default.
W3202950936 cites W2069161445 @default.
W3202950936 cites W2083820617 @default.
W3202950936 cites W2085622397 @default.
W3202950936 cites W2091187751 @default.
W3202950936 cites W2134819724 @default.
W3202950936 cites W2161367069 @default.
W3202950936 cites W2163814149 @default.
W3202950936 cites W2169927586 @default.
W3202950936 cites W2181321154 @default.
W3202950936 cites W2263598080 @default.
W3202950936 cites W2328888558 @default.
W3202950936 cites W2405035371 @default.
W3202950936 cites W2418193686 @default.
W3202950936 cites W2512686152 @default.
W3202950936 cites W2514682578 @default.
W3202950936 cites W2520919733 @default.
W3202950936 cites W2593854616 @default.
W3202950936 cites W2615990324 @default.
W3202950936 cites W2624715088 @default.
W3202950936 cites W2724709132 @default.
W3202950936 cites W2737571551 @default.
W3202950936 cites W2740086777 @default.
W3202950936 cites W2763064076 @default.
W3202950936 cites W2782646579 @default.
W3202950936 cites W2796971453 @default.
W3202950936 cites W2801373228 @default.
W3202950936 cites W2807154968 @default.
W3202950936 cites W2850131278 @default.
W3202950936 cites W2886248815 @default.
W3202950936 cites W2910276851 @default.
W3202950936 cites W2943016682 @default.
W3202950936 cites W2947995430 @default.
W3202950936 cites W2966185806 @default.
W3202950936 cites W2991023851 @default.
W3202950936 cites W2998521118 @default.
W3202950936 cites W3005177879 @default.
W3202950936 cites W3017960811 @default.
W3202950936 cites W3030643285 @default.
W3202950936 cites W3042136202 @default.
W3202950936 cites W3043726482 @default.
W3202950936 cites W3087969441 @default.
W3202950936 cites W3093521648 @default.
W3202950936 cites W3131989612 @default.
W3202950936 cites W3133415338 @default.
W3202950936 cites W3153861083 @default.
W3202950936 cites W3184465545 @default.
W3202950936 cites W869083995 @default.
W3202950936 doi "https://doi.org/10.1016/j.jma.2021.08.028" @default.
W3202950936 hasPublicationYear "2022" @default.
W3202950936 type Work @default.
W3202950936 sameAs 3202950936 @default.
W3202950936 citedByCount "26" @default.
W3202950936 countsByYear W32029509362022 @default.
W3202950936 countsByYear W32029509362023 @default.
W3202950936 crossrefType "journal-article" @default.
W3202950936 hasAuthorship W3202950936A5006178080 @default.
W3202950936 hasAuthorship W3202950936A5030752729 @default.
W3202950936 hasAuthorship W3202950936A5046595967 @default.