SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2895972022> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W2895972022 endingPage "15" @default.
W2895972022 startingPage "7" @default.
W2895972022 abstract "Abstract As the design of heterogeneous electrocatalysts is entering the ‘atom’ age, synchrotron radiation-based X-ray absorption spectroscopy (XAS) has started to expand its strategic presence in electrocatalysis. XAS has demonstrated its usefulness in determining the electronic and geometric structures of supported single atom catalysts thanks to its high sensitivities towards elemental, chemical, and orbital determination. Nowadays, it is expected that the role of XAS will further increase as current research interests are shifting to more complex size-selected single- or multi-element atomic clusters, including challenging electrochemical processes. This review discusses the latest applications of XAS in characterization of electrocatalysts with atomic dispersion, such as single atoms and clusters. Involved advanced analyses methods like wavelet transform, as well as outlooks and challenges for revealing the dynamic behaviours of catalytic active sites using in-situ XAS are also presented and discussed." @default.
W2895972022 created "2018-10-26" @default.
W2895972022 creator A5038741162 @default.
W2895972022 creator A5040398298 @default.
W2895972022 creator A5068911848 @default.
W2895972022 date "2019-04-01" @default.
W2895972022 modified "2023-10-16" @default.
W2895972022 title "Probe active sites of heterogeneous electrocatalysts by X-ray absorption spectroscopy: From single atom to complex multi-element composites" @default.
W2895972022 cites W1965457783 @default.
W2895972022 cites W1972673502 @default.
W2895972022 cites W1986829915 @default.
W2895972022 cites W1987561877 @default.
W2895972022 cites W1989715071 @default.
W2895972022 cites W1992591486 @default.
W2895972022 cites W1996017297 @default.
W2895972022 cites W2032100925 @default.
W2895972022 cites W2044238202 @default.
W2895972022 cites W2070227796 @default.
W2895972022 cites W2073527872 @default.
W2895972022 cites W2174170240 @default.
W2895972022 cites W2256235712 @default.
W2895972022 cites W2276596429 @default.
W2895972022 cites W2297872481 @default.
W2895972022 cites W2298984325 @default.
W2895972022 cites W2417998670 @default.
W2895972022 cites W2502288548 @default.
W2895972022 cites W2552656916 @default.
W2895972022 cites W2557321703 @default.
W2895972022 cites W2558739653 @default.
W2895972022 cites W2564196652 @default.
W2895972022 cites W2567342708 @default.
W2895972022 cites W2573377826 @default.
W2895972022 cites W2591686856 @default.
W2895972022 cites W2617194355 @default.
W2895972022 cites W2619818123 @default.
W2895972022 cites W2620180261 @default.
W2895972022 cites W2624508105 @default.
W2895972022 cites W2626285542 @default.
W2895972022 cites W2726465153 @default.
W2895972022 cites W2735002352 @default.
W2895972022 cites W2738062132 @default.
W2895972022 cites W2754328210 @default.
W2895972022 cites W2756103432 @default.
W2895972022 cites W2762985090 @default.
W2895972022 cites W2765469889 @default.
W2895972022 cites W2766829889 @default.
W2895972022 cites W2767966656 @default.
W2895972022 cites W2768340505 @default.
W2895972022 cites W2769305719 @default.
W2895972022 cites W2773190775 @default.
W2895972022 cites W2776687276 @default.
W2895972022 cites W2786709116 @default.
W2895972022 cites W2786858597 @default.
W2895972022 cites W2789745531 @default.
W2895972022 cites W2789758237 @default.
W2895972022 cites W2789860986 @default.
W2895972022 cites W2790244070 @default.
W2895972022 cites W2790507915 @default.
W2895972022 cites W2791105942 @default.
W2895972022 cites W2792551382 @default.
W2895972022 cites W2799585656 @default.
W2895972022 cites W2800287062 @default.
W2895972022 cites W2802378983 @default.
W2895972022 cites W2802791016 @default.
W2895972022 cites W2802984257 @default.
W2895972022 cites W2803427589 @default.
W2895972022 cites W2805483123 @default.
W2895972022 cites W2805691064 @default.
W2895972022 cites W2806355489 @default.
W2895972022 cites W2807378195 @default.
W2895972022 cites W2808186004 @default.
W2895972022 cites W2840782614 @default.
W2895972022 cites W2883020705 @default.
W2895972022 cites W2883418751 @default.
W2895972022 cites W2884659972 @default.
W2895972022 cites W4235941586 @default.
W2895972022 doi "https://doi.org/10.1016/j.coelec.2018.09.011" @default.
W2895972022 hasPublicationYear "2019" @default.
W2895972022 type Work @default.
W2895972022 sameAs 2895972022 @default.
W2895972022 citedByCount "20" @default.
W2895972022 countsByYear W28959720222019 @default.
W2895972022 countsByYear W28959720222020 @default.
W2895972022 countsByYear W28959720222021 @default.
W2895972022 countsByYear W28959720222022 @default.
W2895972022 countsByYear W28959720222023 @default.
W2895972022 crossrefType "journal-article" @default.
W2895972022 hasAuthorship W2895972022A5038741162 @default.
W2895972022 hasAuthorship W2895972022A5040398298 @default.
W2895972022 hasAuthorship W2895972022A5068911848 @default.
W2895972022 hasConcept C119824511 @default.
W2895972022 hasConcept C120665830 @default.
W2895972022 hasConcept C121332964 @default.
W2895972022 hasConcept C125287762 @default.
W2895972022 hasConcept C127413603 @default.
W2895972022 hasConcept C149635348 @default.
W2895972022 hasConcept C159985019 @default.
W2895972022 hasConcept C171250308 @default.