SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2913539912> ?p ?o ?g. }

Showing items 1 to 100 of ±172 with 100 items per page.

W2913539912 endingPage "289" @default.
W2913539912 startingPage "278" @default.
W2913539912 abstract "The development of efficient catalyst materials for water oxidation is bottleneck to construct artificial photosynthesis that is a promising future energy-providing system. We review the recent progress on development of IrOx electrocatalyst films for water oxidation based on our latest research works. A controlled fabrication approach of an efficient IrOx electrocatalyst films is introduced by a facile spin-coating of a homogenous solution of Ir precursor complexes followed by simple annealing at different temperature. The composition and crystallinity of the IrOx film are tunable by a simple annealing treatment. The electrocatalytic properties of the IrOx film dramatically depended on annealing temperature are characterized to give the noticeably high performance at 300 °C annealing. A soft-template-assisted technique using different polymer surfactants as structure directing agents (SDAs) is illustrated in the spin-coating procedure to reveal impacts of SDAs on nanostructures and electrocatalytic water oxidation performances of the IrOx films. The characterization of the first accessible channel-like open pore architecture of the ordered 2D-hexagonal mesoporous IrOx film is described by a facile one-pot strategy using Pluronic F127 as SDA. The novel controlled nanostructures including mesoporous architecture of IrOx improves electrocatalytic performance for water oxidation relative to a conventional nanoparticulate structure of IrOx coating." @default.
W2913539912 created "2019-02-21" @default.
W2913539912 creator A5014498559 @default.
W2913539912 creator A5035680893 @default.
W2913539912 creator A5037770409 @default.
W2913539912 creator A5070880520 @default.
W2913539912 creator A5088198697 @default.
W2913539912 date "2019-04-01" @default.
W2913539912 modified "2023-10-16" @default.
W2913539912 title "Facile fabrication and nanostructure control of mesoporous iridium oxide films for efficient electrocatalytic water oxidation" @default.
W2913539912 cites W1963597613 @default.
W2913539912 cites W1965022884 @default.
W2913539912 cites W1967998122 @default.
W2913539912 cites W1971800449 @default.
W2913539912 cites W1975057718 @default.
W2913539912 cites W1975178150 @default.
W2913539912 cites W1979631378 @default.
W2913539912 cites W1982685288 @default.
W2913539912 cites W1986829915 @default.
W2913539912 cites W1988687636 @default.
W2913539912 cites W1995634533 @default.
W2913539912 cites W1999187247 @default.
W2913539912 cites W2002292317 @default.
W2913539912 cites W2004007833 @default.
W2913539912 cites W2007475646 @default.
W2913539912 cites W2007524382 @default.
W2913539912 cites W2009544213 @default.
W2913539912 cites W2012826156 @default.
W2913539912 cites W2015124676 @default.
W2913539912 cites W2015446101 @default.
W2913539912 cites W2017841378 @default.
W2913539912 cites W2018624132 @default.
W2913539912 cites W2019158493 @default.
W2913539912 cites W2020893927 @default.
W2913539912 cites W2020974937 @default.
W2913539912 cites W2025093828 @default.
W2913539912 cites W2027413950 @default.
W2913539912 cites W2033728952 @default.
W2913539912 cites W2034830770 @default.
W2913539912 cites W2035516133 @default.
W2913539912 cites W2036701013 @default.
W2913539912 cites W2036719045 @default.
W2913539912 cites W2040774132 @default.
W2913539912 cites W2042805294 @default.
W2913539912 cites W2044784171 @default.
W2913539912 cites W2044909766 @default.
W2913539912 cites W2052052591 @default.
W2913539912 cites W2056173976 @default.
W2913539912 cites W2058916144 @default.
W2913539912 cites W2061176444 @default.
W2913539912 cites W2062815702 @default.
W2913539912 cites W2065577493 @default.
W2913539912 cites W2067004573 @default.
W2913539912 cites W2069917669 @default.
W2913539912 cites W2073955169 @default.
W2913539912 cites W2081186731 @default.
W2913539912 cites W2082374200 @default.
W2913539912 cites W2084447221 @default.
W2913539912 cites W2085371407 @default.
W2913539912 cites W2091966650 @default.
W2913539912 cites W2092764892 @default.
W2913539912 cites W2093602007 @default.
W2913539912 cites W2103833118 @default.
W2913539912 cites W2115053310 @default.
W2913539912 cites W2121926187 @default.
W2913539912 cites W2129659057 @default.
W2913539912 cites W2137564443 @default.
W2913539912 cites W2140822491 @default.
W2913539912 cites W2151250449 @default.
W2913539912 cites W2157483718 @default.
W2913539912 cites W2160191736 @default.
W2913539912 cites W2161452689 @default.
W2913539912 cites W2161680210 @default.
W2913539912 cites W2282407693 @default.
W2913539912 cites W2292209474 @default.
W2913539912 cites W2300463703 @default.
W2913539912 cites W2312725582 @default.
W2913539912 cites W2318543693 @default.
W2913539912 cites W2319498202 @default.
W2913539912 cites W2323736760 @default.
W2913539912 cites W2328675424 @default.
W2913539912 cites W2328832782 @default.
W2913539912 cites W2335064083 @default.
W2913539912 cites W2342359684 @default.
W2913539912 cites W2373331425 @default.
W2913539912 cites W2541023699 @default.
W2913539912 cites W2542174119 @default.
W2913539912 cites W2563251289 @default.
W2913539912 cites W2592777171 @default.
W2913539912 cites W2742634550 @default.
W2913539912 cites W2762983941 @default.
W2913539912 cites W2792456676 @default.
W2913539912 cites W4248272813 @default.
W2913539912 cites W4382927561 @default.
W2913539912 doi "https://doi.org/10.1016/j.energy.2019.02.072" @default.
W2913539912 hasPublicationYear "2019" @default.
W2913539912 type Work @default.
W2913539912 sameAs 2913539912 @default.