SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3138191509> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W3138191509 endingPage "2002091" @default.
W3138191509 startingPage "2002091" @default.
W3138191509 abstract "Hydrogen peroxide (H2O2) is one of the 100 most paramount chemicals in the world, which has been widely used in industrial synthesis, pulp and bleaching, semiconductor cleaning, medical sterilizing, environmental treatments, and energy storage. Among various H2O2 production methods, anthraquinone process has intrinsic drawbacks such as energy-intensive and environmental pollution while 2-electron oxygen reduction reaction (ORR) provides an economic, efficient, and nonhazardous alternative process to realize the in situ production of H2O2 instead. Recently, heteroatom-doped carbon electrocatalysts, especially the nitrogen-doped ones, receive special attention due to the tunability on selectivity, activity, and stability towards ORR. In this review, the preparation methods on N-doped carbon-based electrocatalysts with different nitrogen forms are systematically classified, the mechanism of specific nitrogen morphology acting on two-electron ORR is discussed, especially the selectivity, and the factors (pH, nitrogen content, active surface site density, physical properties of carbon substrates) affecting the ORR selectivity of N-doped electrocatalysts are analyzed. Moreover, the preparation of H2O2 with N-doped carbon materials in different experimental systems is also summarized. Finally, the development direction of H2O2 synthesis by 2-electron ORR is prospected, and the suggestions from the aspects of production technology, testing method, and theoretical research are put forward." @default.
W3138191509 created "2021-03-29" @default.
W3138191509 creator A5010613556 @default.
W3138191509 creator A5033787359 @default.
W3138191509 creator A5034640598 @default.
W3138191509 creator A5042937128 @default.
W3138191509 creator A5046799805 @default.
W3138191509 date "2021-03-16" @default.
W3138191509 modified "2023-10-18" @default.
W3138191509 title "H 2 O 2 Electrogeneration from O 2 Electroreduction by N‐Doped Carbon Materials: A Mini‐Review on Preparation Methods, Selectivity of N Sites, and Prospects" @default.
W3138191509 cites W1179743453 @default.
W3138191509 cites W1964156215 @default.
W3138191509 cites W1965320422 @default.
W3138191509 cites W1966004345 @default.
W3138191509 cites W1968537250 @default.
W3138191509 cites W1978555025 @default.
W3138191509 cites W1979396951 @default.
W3138191509 cites W1981270178 @default.
W3138191509 cites W1982667399 @default.
W3138191509 cites W1992339039 @default.
W3138191509 cites W1992790479 @default.
W3138191509 cites W2001160166 @default.
W3138191509 cites W2005874465 @default.
W3138191509 cites W2008573944 @default.
W3138191509 cites W2008981443 @default.
W3138191509 cites W2009901571 @default.
W3138191509 cites W2009989575 @default.
W3138191509 cites W2027225797 @default.
W3138191509 cites W2031355298 @default.
W3138191509 cites W2037426700 @default.
W3138191509 cites W2039685585 @default.
W3138191509 cites W2039760851 @default.
W3138191509 cites W2041471143 @default.
W3138191509 cites W2046212621 @default.
W3138191509 cites W2052246714 @default.
W3138191509 cites W2059158372 @default.
W3138191509 cites W2059362080 @default.
W3138191509 cites W2061367556 @default.
W3138191509 cites W2063247997 @default.
W3138191509 cites W2087207644 @default.
W3138191509 cites W2115496480 @default.
W3138191509 cites W2121180786 @default.
W3138191509 cites W2166691744 @default.
W3138191509 cites W2272252865 @default.
W3138191509 cites W2290956218 @default.
W3138191509 cites W2302671968 @default.
W3138191509 cites W2317679108 @default.
W3138191509 cites W2320907518 @default.
W3138191509 cites W2325126315 @default.
W3138191509 cites W2325617174 @default.
W3138191509 cites W2503198707 @default.
W3138191509 cites W2518359222 @default.
W3138191509 cites W2519323249 @default.
W3138191509 cites W2537490372 @default.
W3138191509 cites W2563531284 @default.
W3138191509 cites W2564427596 @default.
W3138191509 cites W2565410192 @default.
W3138191509 cites W2584333491 @default.
W3138191509 cites W2745204117 @default.
W3138191509 cites W2752235900 @default.
W3138191509 cites W2761964773 @default.
W3138191509 cites W2769855742 @default.
W3138191509 cites W2771377027 @default.
W3138191509 cites W2775494703 @default.
W3138191509 cites W2782723324 @default.
W3138191509 cites W2787350164 @default.
W3138191509 cites W2787972732 @default.
W3138191509 cites W2793108803 @default.
W3138191509 cites W2800221845 @default.
W3138191509 cites W2805559882 @default.
W3138191509 cites W2807282856 @default.
W3138191509 cites W2817935754 @default.
W3138191509 cites W2869696020 @default.
W3138191509 cites W2883690671 @default.
W3138191509 cites W2886193535 @default.
W3138191509 cites W2886249127 @default.
W3138191509 cites W2891982331 @default.
W3138191509 cites W2892369411 @default.
W3138191509 cites W2895988677 @default.
W3138191509 cites W2901788524 @default.
W3138191509 cites W2914316573 @default.
W3138191509 cites W2922089161 @default.
W3138191509 cites W2940026479 @default.
W3138191509 cites W2965473727 @default.
W3138191509 cites W2974426157 @default.
W3138191509 cites W2990189009 @default.
W3138191509 cites W2990194258 @default.
W3138191509 cites W2995943508 @default.
W3138191509 cites W3001737709 @default.
W3138191509 cites W3017316500 @default.
W3138191509 cites W3025425718 @default.
W3138191509 cites W3047209455 @default.
W3138191509 cites W3107214121 @default.
W3138191509 cites W3116329762 @default.
W3138191509 doi "https://doi.org/10.1002/admi.202002091" @default.
W3138191509 hasPublicationYear "2021" @default.
W3138191509 type Work @default.
W3138191509 sameAs 3138191509 @default.