SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4309111265> ?p ?o ?g. }

Showing items 1 to 100 of ±133 with 100 items per page.

W4309111265 endingPage "3439" @default.
W4309111265 startingPage "3429" @default.
W4309111265 abstract "Among the developed electrocatalysts, NiCr-layered double hydroxides (NiCr-LDH) are one of the most effective electrocatalytic materials for water oxidation. However, applications of such a kind of materials are practically limited due to their poor electric conductivity. In this work, the single-walled carbon nanotube (SWCNT) was doped to NiCr-LDH, and the LDH-based nanocomposites were synthesized using the one-step ultrasonic-assisted method. Physicochemical properties of the NiCr-LDH/SWCNT composites were characterized by means of X-ray diffraction (XRD), Fourier transform infrared spectroscopy (FT-IR), energy dispersive X-ray (EDX) analysis, transmission electron microscopy (TEM), field emission−scanning electron microscopy (FE−SEM), and linear sweep voltammetry (LSV). The NiCr-LDH/SWCNT composites were used as effective nanomaterials for oxygen evolution reaction (OER) at a near neutral medium. The LSV results confirm that the overpotential of the NiCr-LDH/SWCNT-0.006 sample decreased to about 120 mV at pH = 9.5, as compared with that of the NiCr-LDH or NiCr-LDH-SWCNT-0.006 (prepared by the two-step method) sample. The high oxygen evolution activity of NiCr-LDH/SWCNT-0.006 was associated with the co-presence of the homogeneously dispersed NiCr-LDH, good electrochemical activity, and high electrical conductivity. In addition, the as-prepared optimized NiCr-LDH/SWCNT electrocatalyst was highly stable for the OER reaction." @default.
W4309111265 created "2022-11-22" @default.
W4309111265 creator A5047214857 @default.
W4309111265 creator A5051325740 @default.
W4309111265 creator A5084654766 @default.
W4309111265 creator A5090941710 @default.
W4309111265 date "2023-01-01" @default.
W4309111265 modified "2023-09-26" @default.
W4309111265 title "Ultrasonic-assisted synthesis of Ni based-layered double hydroxide doped carbon nanotube and its highly efficient in water oxidation reaction" @default.
W4309111265 cites W1967907544 @default.
W4309111265 cites W1980208975 @default.
W4309111265 cites W1986868817 @default.
W4309111265 cites W2002655218 @default.
W4309111265 cites W2012676387 @default.
W4309111265 cites W2013967279 @default.
W4309111265 cites W2132612804 @default.
W4309111265 cites W2170634408 @default.
W4309111265 cites W2196368150 @default.
W4309111265 cites W2229597030 @default.
W4309111265 cites W2270799384 @default.
W4309111265 cites W2315535900 @default.
W4309111265 cites W2326185592 @default.
W4309111265 cites W2329431517 @default.
W4309111265 cites W2408651073 @default.
W4309111265 cites W2461109461 @default.
W4309111265 cites W2461507446 @default.
W4309111265 cites W2464619231 @default.
W4309111265 cites W2541023699 @default.
W4309111265 cites W2549149855 @default.
W4309111265 cites W2602853842 @default.
W4309111265 cites W2757460734 @default.
W4309111265 cites W2769010623 @default.
W4309111265 cites W2779252789 @default.
W4309111265 cites W2787797971 @default.
W4309111265 cites W2790111157 @default.
W4309111265 cites W2793219411 @default.
W4309111265 cites W2796107058 @default.
W4309111265 cites W2800383466 @default.
W4309111265 cites W2809951031 @default.
W4309111265 cites W2885478218 @default.
W4309111265 cites W2891190471 @default.
W4309111265 cites W2893543203 @default.
W4309111265 cites W2894207195 @default.
W4309111265 cites W2901722052 @default.
W4309111265 cites W2909379475 @default.
W4309111265 cites W2912235606 @default.
W4309111265 cites W2912981441 @default.
W4309111265 cites W2917673430 @default.
W4309111265 cites W2922652023 @default.
W4309111265 cites W2937604719 @default.
W4309111265 cites W2943281854 @default.
W4309111265 cites W2954722987 @default.
W4309111265 cites W2955364565 @default.
W4309111265 cites W2966924349 @default.
W4309111265 cites W2980847753 @default.
W4309111265 cites W2990656753 @default.
W4309111265 cites W3032663340 @default.
W4309111265 cites W3033136324 @default.
W4309111265 cites W3080495354 @default.
W4309111265 cites W3081510210 @default.
W4309111265 cites W3154140302 @default.
W4309111265 cites W3163783556 @default.
W4309111265 cites W3167813804 @default.
W4309111265 cites W3212531145 @default.
W4309111265 cites W904916737 @default.
W4309111265 doi "https://doi.org/10.1016/j.ijhydene.2022.10.236" @default.
W4309111265 hasPublicationYear "2023" @default.
W4309111265 type Work @default.
W4309111265 citedByCount "2" @default.
W4309111265 countsByYear W43091112652023 @default.
W4309111265 crossrefType "journal-article" @default.
W4309111265 hasAuthorship W4309111265A5047214857 @default.
W4309111265 hasAuthorship W4309111265A5051325740 @default.
W4309111265 hasAuthorship W4309111265A5084654766 @default.
W4309111265 hasAuthorship W4309111265A5090941710 @default.
W4309111265 hasConcept C127413603 @default.
W4309111265 hasConcept C138631740 @default.
W4309111265 hasConcept C140086010 @default.
W4309111265 hasConcept C146088050 @default.
W4309111265 hasConcept C147789679 @default.
W4309111265 hasConcept C159985019 @default.
W4309111265 hasConcept C160892712 @default.
W4309111265 hasConcept C171250308 @default.
W4309111265 hasConcept C17525397 @default.
W4309111265 hasConcept C185592680 @default.
W4309111265 hasConcept C186460083 @default.
W4309111265 hasConcept C192562407 @default.
W4309111265 hasConcept C26771246 @default.
W4309111265 hasConcept C2777869211 @default.
W4309111265 hasConcept C2778173763 @default.
W4309111265 hasConcept C33989665 @default.
W4309111265 hasConcept C42360764 @default.
W4309111265 hasConcept C513720949 @default.
W4309111265 hasConcept C52859227 @default.
W4309111265 hasConceptScore W4309111265C127413603 @default.
W4309111265 hasConceptScore W4309111265C138631740 @default.
W4309111265 hasConceptScore W4309111265C140086010 @default.
W4309111265 hasConceptScore W4309111265C146088050 @default.