SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4304807958> ?p ?o ?g. }

Showing items 1 to 100 of ±149 with 100 items per page.

W4304807958 endingPage "16951" @default.
W4304807958 startingPage "16944" @default.
W4304807958 abstract "Tuning the electronic state of a nanocatalyst is of vital importance for elevating its catalytic performance toward oxygen evolution reaction (OER). Herein, a cation-anion dual doping strategy has been proposed for modifying the electronic structure of CoP via doping Fe and S atoms. Impressively, Fe doping has been demonstrated to be favorable for improving the carrier density of CoP to produce more hydroxyl radicals (•OH), while S doping can further modify the electronic structure of CoP to improve the charge-transfer characteristics, thereby synergistically decreasing the energy barrier for the transformation of O* to OOH* and promoting the electrocatalytic OER performance. More importantly, the highly open nanobox structure is also beneficial for the exposure of more accessible catalytically active sites, which can substantially facilitate the electron and mass transport, leading to the superb catalytic OER performance. The successful modulation of OER performance via dual-doping strategy will pose a new strategy for designing more advanced nanocatalysts for energy-related catalysis process." @default.
W4304807958 created "2022-10-13" @default.
W4304807958 creator A5012677271 @default.
W4304807958 creator A5012716977 @default.
W4304807958 creator A5024094461 @default.
W4304807958 creator A5033570936 @default.
W4304807958 creator A5036131297 @default.
W4304807958 creator A5057215711 @default.
W4304807958 creator A5076345724 @default.
W4304807958 creator A5090258117 @default.
W4304807958 date "2022-10-12" @default.
W4304807958 modified "2023-10-14" @default.
W4304807958 title "Cation–Anion Dual Doping Modifying Electronic Structure of Hollow CoP Nanoboxes for Enhanced Water Oxidation Electrocatalysis" @default.
W4304807958 cites W2802414289 @default.
W4304807958 cites W2804473893 @default.
W4304807958 cites W2831661154 @default.
W4304807958 cites W2885961638 @default.
W4304807958 cites W2890079715 @default.
W4304807958 cites W2901245970 @default.
W4304807958 cites W2924989184 @default.
W4304807958 cites W2953296162 @default.
W4304807958 cites W2990616150 @default.
W4304807958 cites W3000017902 @default.
W4304807958 cites W3003906133 @default.
W4304807958 cites W3008728890 @default.
W4304807958 cites W3019429621 @default.
W4304807958 cites W3030340209 @default.
W4304807958 cites W3031677979 @default.
W4304807958 cites W3047574690 @default.
W4304807958 cites W3111765116 @default.
W4304807958 cites W3121242558 @default.
W4304807958 cites W3126947968 @default.
W4304807958 cites W3132497700 @default.
W4304807958 cites W3133944108 @default.
W4304807958 cites W3135841876 @default.
W4304807958 cites W3136580420 @default.
W4304807958 cites W3153164717 @default.
W4304807958 cites W3157403835 @default.
W4304807958 cites W3164424952 @default.
W4304807958 cites W3167416710 @default.
W4304807958 cites W3182263488 @default.
W4304807958 cites W3187146476 @default.
W4304807958 cites W3197360312 @default.
W4304807958 cites W3198764538 @default.
W4304807958 cites W3211183909 @default.
W4304807958 cites W3213452591 @default.
W4304807958 cites W4200078957 @default.
W4304807958 cites W4200152039 @default.
W4304807958 cites W4200378106 @default.
W4304807958 cites W4206992503 @default.
W4304807958 cites W4214894129 @default.
W4304807958 cites W4221115004 @default.
W4304807958 cites W4225275599 @default.
W4304807958 cites W4226293400 @default.
W4304807958 cites W4281635181 @default.
W4304807958 cites W4285112107 @default.
W4304807958 cites W4286440450 @default.
W4304807958 cites W4286510139 @default.
W4304807958 cites W4286567182 @default.
W4304807958 cites W4288068358 @default.
W4304807958 cites W4289885326 @default.
W4304807958 cites W4292996426 @default.
W4304807958 cites W4297131760 @default.
W4304807958 doi "https://doi.org/10.1021/acs.inorgchem.2c03060" @default.
W4304807958 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36223524" @default.
W4304807958 hasPublicationYear "2022" @default.
W4304807958 type Work @default.
W4304807958 citedByCount "49" @default.
W4304807958 countsByYear W43048079582022 @default.
W4304807958 countsByYear W43048079582023 @default.
W4304807958 crossrefType "journal-article" @default.
W4304807958 hasAuthorship W4304807958A5012677271 @default.
W4304807958 hasAuthorship W4304807958A5012716977 @default.
W4304807958 hasAuthorship W4304807958A5024094461 @default.
W4304807958 hasAuthorship W4304807958A5033570936 @default.
W4304807958 hasAuthorship W4304807958A5036131297 @default.
W4304807958 hasAuthorship W4304807958A5057215711 @default.
W4304807958 hasAuthorship W4304807958A5076345724 @default.
W4304807958 hasAuthorship W4304807958A5090258117 @default.
W4304807958 hasConcept C123669783 @default.
W4304807958 hasConcept C124952713 @default.
W4304807958 hasConcept C127413603 @default.
W4304807958 hasConcept C135473242 @default.
W4304807958 hasConcept C142362112 @default.
W4304807958 hasConcept C145148216 @default.
W4304807958 hasConcept C147597530 @default.
W4304807958 hasConcept C147789679 @default.
W4304807958 hasConcept C161790260 @default.
W4304807958 hasConcept C171250308 @default.
W4304807958 hasConcept C17525397 @default.
W4304807958 hasConcept C178790620 @default.
W4304807958 hasConcept C185592680 @default.
W4304807958 hasConcept C192562407 @default.
W4304807958 hasConcept C21951064 @default.
W4304807958 hasConcept C2780980858 @default.
W4304807958 hasConcept C33989665 @default.
W4304807958 hasConcept C42360764 @default.
W4304807958 hasConcept C45083100 @default.