SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4317506483> ?p ?o ?g. }

Showing items 1 to 100 of ±153 with 100 items per page.

W4317506483 endingPage "403" @default.
W4317506483 startingPage "403" @default.
W4317506483 abstract "Dense and mesoporous FePd nanowires (NWs) with 45 to 60 at.% Pd content were successfully fabricated by template- and micelle-assisted pulsed potentiostatic electrodeposition using nanoporous anodic alumina and polycarbonate templates of varying pore sizes. An FePd electrolyte was utilized for obtaining dense NWs while a block copolymer, P-123, was added to this electrolyte as the micelle-forming surfactant to produce mesoporous NWs. The structural and magnetic properties of the NWs were investigated by electron microscopy, X-ray diffraction, and vibrating sample magnetometry. The as-prepared NWs were single phase with a face-centered cubic structure exhibiting 3.1 µm to 7.1 µm of length. Mesoporous NWs revealed a core-shell structure where the porosity was only witnessed in the internal volume of the NW while the outer surface remained non-porous. Magnetic measurements revealed that the samples displayed a soft ferromagnetic behavior that depended on the shape anisotropy and the interwire dipolar interactions. The mesoporous core and dense shell structure of the NWs were seen to be slightly affecting the magnetic properties. Moreover, mesoporous NWs performed excellently as SERS substrates for the detection of 4,4′-bipyridine, showing a low detection limit of 10−12 M. The signal enhancement can be attributed to the mesoporous morphology as well as the close proximity of the embedded NWs being conducive to localized surface plasmon resonance." @default.
W4317506483 created "2023-01-20" @default.
W4317506483 creator A5021308810 @default.
W4317506483 creator A5021599173 @default.
W4317506483 creator A5023189015 @default.
W4317506483 creator A5030888633 @default.
W4317506483 creator A5042560115 @default.
W4317506483 creator A5056470271 @default.
W4317506483 creator A5056758110 @default.
W4317506483 creator A5061743891 @default.
W4317506483 creator A5062051699 @default.
W4317506483 creator A5081609124 @default.
W4317506483 date "2023-01-19" @default.
W4317506483 modified "2023-09-30" @default.
W4317506483 title "Electrochemical Synthesis, Magnetic and Optical Characterisation of FePd Dense and Mesoporous Nanowires" @default.
W4317506483 cites W1484231735 @default.
W4317506483 cites W1967114990 @default.
W4317506483 cites W1970930361 @default.
W4317506483 cites W1987660055 @default.
W4317506483 cites W1996179250 @default.
W4317506483 cites W2020622851 @default.
W4317506483 cites W2032981288 @default.
W4317506483 cites W2036205062 @default.
W4317506483 cites W2036576446 @default.
W4317506483 cites W2042704747 @default.
W4317506483 cites W2044038216 @default.
W4317506483 cites W2046002334 @default.
W4317506483 cites W2048057811 @default.
W4317506483 cites W2062257138 @default.
W4317506483 cites W2070368557 @default.
W4317506483 cites W2071098459 @default.
W4317506483 cites W2072721200 @default.
W4317506483 cites W2075312988 @default.
W4317506483 cites W2084978547 @default.
W4317506483 cites W2111884505 @default.
W4317506483 cites W2115794058 @default.
W4317506483 cites W2140900547 @default.
W4317506483 cites W2302150364 @default.
W4317506483 cites W2317152655 @default.
W4317506483 cites W2326219699 @default.
W4317506483 cites W2327733677 @default.
W4317506483 cites W2330865980 @default.
W4317506483 cites W267032426 @default.
W4317506483 cites W2735831481 @default.
W4317506483 cites W2780070741 @default.
W4317506483 cites W2799326107 @default.
W4317506483 cites W2903940981 @default.
W4317506483 cites W2905218610 @default.
W4317506483 cites W2921962408 @default.
W4317506483 cites W2945411159 @default.
W4317506483 cites W2963020637 @default.
W4317506483 cites W2964792304 @default.
W4317506483 cites W2971763914 @default.
W4317506483 cites W2998252754 @default.
W4317506483 cites W3000389211 @default.
W4317506483 cites W3012734367 @default.
W4317506483 cites W3030509376 @default.
W4317506483 cites W3034338885 @default.
W4317506483 cites W3038040838 @default.
W4317506483 cites W3049341055 @default.
W4317506483 cites W3082496020 @default.
W4317506483 cites W3111038892 @default.
W4317506483 cites W3125577444 @default.
W4317506483 cites W3134433299 @default.
W4317506483 cites W3134937903 @default.
W4317506483 cites W3159523954 @default.
W4317506483 cites W3186402549 @default.
W4317506483 cites W3198551619 @default.
W4317506483 cites W3217139455 @default.
W4317506483 cites W4200142762 @default.
W4317506483 cites W4205716204 @default.
W4317506483 cites W4223994104 @default.
W4317506483 cites W4225661241 @default.
W4317506483 cites W4311900473 @default.
W4317506483 doi "https://doi.org/10.3390/nano13030403" @default.
W4317506483 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36770364" @default.
W4317506483 hasPublicationYear "2023" @default.
W4317506483 type Work @default.
W4317506483 citedByCount "0" @default.
W4317506483 crossrefType "journal-article" @default.
W4317506483 hasAuthorship W4317506483A5021308810 @default.
W4317506483 hasAuthorship W4317506483A5021599173 @default.
W4317506483 hasAuthorship W4317506483A5023189015 @default.
W4317506483 hasAuthorship W4317506483A5030888633 @default.
W4317506483 hasAuthorship W4317506483A5042560115 @default.
W4317506483 hasAuthorship W4317506483A5056470271 @default.
W4317506483 hasAuthorship W4317506483A5056758110 @default.
W4317506483 hasAuthorship W4317506483A5061743891 @default.
W4317506483 hasAuthorship W4317506483A5062051699 @default.
W4317506483 hasAuthorship W4317506483A5081609124 @default.
W4317506483 hasBestOaLocation W43175064831 @default.
W4317506483 hasConcept C11268172 @default.
W4317506483 hasConcept C115260700 @default.
W4317506483 hasConcept C121332964 @default.
W4317506483 hasConcept C127413603 @default.
W4317506483 hasConcept C147789679 @default.
W4317506483 hasConcept C161790260 @default.
W4317506483 hasConcept C171250308 @default.