SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2002882862> ?p ?o ?g. }

Showing items 1 to 100 of ±162 with 100 items per page.

W2002882862 endingPage "5188" @default.
W2002882862 startingPage "5180" @default.
W2002882862 abstract "Efficient electrochemical water splitting to hydrogen and oxygen is considered a promising technology to overcome our dependency on fossil fuels. Searching for novel catalytic materials for electrochemical oxygen generation is essential for improving the total efficiency of water splitting processes. We report the synthesis, structural characterization, and electrochemical performance in the oxygen evolution reaction of Fe-doped NiO nanocrystals. The facile solvothermal synthesis in tert-butanol leads to the formation of ultrasmall crystalline and highly dispersible FexNi1–xO nanoparticles with dopant concentrations of up to 20%. The increase in Fe content is accompanied by a decrease in particle size, resulting in nonagglomerated nanocrystals of 1.5–3.8 nm in size. The Fe content and composition of the nanoparticles are determined by X-ray photoelectron spectroscopy and energy-dispersive X-ray spectroscopy measurements, while Mössbauer and extended X-ray absorption fine structure analyses reveal a substitutional incorporation of Fe(III) into the NiO rock salt structure. The excellent dispersibility of the nanoparticles in ethanol allows for the preparation of homogeneous ca. 8 nm thin films with a smooth surface on various substrates. The turnover frequencies (TOF) of these films could be precisely calculated using a quartz crystal microbalance. Fe0.1Ni0.9O was found to have the highest electrocatalytic water oxidation activity in basic media with a TOF of 1.9 s–1 at the overpotential of 300 mV. The current density of 10 mA cm–2 is reached at an overpotential of 297 mV with a Tafel slope of 37 mV dec–1. The extremely high catalytic activity, facile preparation, and low cost of the single crystalline FexNi1–xO nanoparticles make them very promising catalysts for the oxygen evolution reaction." @default.
W2002882862 created "2016-06-24" @default.
W2002882862 creator A5009264260 @default.
W2002882862 creator A5009816450 @default.
W2002882862 creator A5015165857 @default.
W2002882862 creator A5018585760 @default.
W2002882862 creator A5028381489 @default.
W2002882862 creator A5032630196 @default.
W2002882862 creator A5033447664 @default.
W2002882862 creator A5036052363 @default.
W2002882862 creator A5072155528 @default.
W2002882862 creator A5073510387 @default.
W2002882862 creator A5076261003 @default.
W2002882862 creator A5087818652 @default.
W2002882862 date "2015-04-28" @default.
W2002882862 modified "2023-10-16" @default.
W2002882862 title "Iron-Doped Nickel Oxide Nanocrystals as Highly Efficient Electrocatalysts for Alkaline Water Splitting" @default.
W2002882862 cites W1965586936 @default.
W2002882862 cites W1966029540 @default.
W2002882862 cites W1971113415 @default.
W2002882862 cites W1976204697 @default.
W2002882862 cites W1982685288 @default.
W2002882862 cites W1985240449 @default.
W2002882862 cites W1997585234 @default.
W2002882862 cites W1998260542 @default.
W2002882862 cites W1999893125 @default.
W2002882862 cites W1999912925 @default.
W2002882862 cites W2011610639 @default.
W2002882862 cites W2011685920 @default.
W2002882862 cites W2017126587 @default.
W2002882862 cites W2022714449 @default.
W2002882862 cites W2025053815 @default.
W2002882862 cites W2030207473 @default.
W2002882862 cites W2030385807 @default.
W2002882862 cites W2030978013 @default.
W2002882862 cites W2035646561 @default.
W2002882862 cites W2036032241 @default.
W2002882862 cites W2045153748 @default.
W2002882862 cites W2058916144 @default.
W2002882862 cites W2065540791 @default.
W2002882862 cites W2069028466 @default.
W2002882862 cites W2070491781 @default.
W2002882862 cites W2072455039 @default.
W2002882862 cites W2076968595 @default.
W2002882862 cites W2078353661 @default.
W2002882862 cites W2081302505 @default.
W2002882862 cites W2098547240 @default.
W2002882862 cites W2099963918 @default.
W2002882862 cites W2103442387 @default.
W2002882862 cites W2112985932 @default.
W2002882862 cites W2114291507 @default.
W2002882862 cites W2124128778 @default.
W2002882862 cites W2132612804 @default.
W2002882862 cites W2133406747 @default.
W2002882862 cites W2153070782 @default.
W2002882862 cites W2161452689 @default.
W2002882862 cites W2253066946 @default.
W2002882862 cites W2307072548 @default.
W2002882862 cites W2312725582 @default.
W2002882862 cites W2318543693 @default.
W2002882862 cites W2328832782 @default.
W2002882862 cites W2329431517 @default.
W2002882862 cites W2332386396 @default.
W2002882862 cites W2507577123 @default.
W2002882862 cites W2599199563 @default.
W2002882862 cites W2963154913 @default.
W2002882862 doi "https://doi.org/10.1021/acsnano.5b00520" @default.
W2002882862 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25831435" @default.
W2002882862 hasPublicationYear "2015" @default.
W2002882862 type Work @default.
W2002882862 sameAs 2002882862 @default.
W2002882862 citedByCount "421" @default.
W2002882862 countsByYear W20028828622015 @default.
W2002882862 countsByYear W20028828622016 @default.
W2002882862 countsByYear W20028828622017 @default.
W2002882862 countsByYear W20028828622018 @default.
W2002882862 countsByYear W20028828622019 @default.
W2002882862 countsByYear W20028828622020 @default.
W2002882862 countsByYear W20028828622021 @default.
W2002882862 countsByYear W20028828622022 @default.
W2002882862 countsByYear W20028828622023 @default.
W2002882862 crossrefType "journal-article" @default.
W2002882862 hasAuthorship W2002882862A5009264260 @default.
W2002882862 hasAuthorship W2002882862A5009816450 @default.
W2002882862 hasAuthorship W2002882862A5015165857 @default.
W2002882862 hasAuthorship W2002882862A5018585760 @default.
W2002882862 hasAuthorship W2002882862A5028381489 @default.
W2002882862 hasAuthorship W2002882862A5032630196 @default.
W2002882862 hasAuthorship W2002882862A5033447664 @default.
W2002882862 hasAuthorship W2002882862A5036052363 @default.
W2002882862 hasAuthorship W2002882862A5072155528 @default.
W2002882862 hasAuthorship W2002882862A5073510387 @default.
W2002882862 hasAuthorship W2002882862A5076261003 @default.
W2002882862 hasAuthorship W2002882862A5087818652 @default.
W2002882862 hasConcept C127413603 @default.
W2002882862 hasConcept C135473242 @default.
W2002882862 hasConcept C147789679 @default.
W2002882862 hasConcept C155672457 @default.