2020
DOI: 10.1016/j.apcatb.2020.118974
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Utilizing spatial confinement effect of N atoms in micropores of coal-based metal-free material for efficiently electrochemical reduction of carbon dioxide

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Cited by 77 publications
(50 citation statements)
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“…Due to this contribution, the pores provide an entirely different than electrochemistry component to the mechanism, and thus, their influence should not be neglected. That effect of porosity has been also indicated recently in the studies of various CO 2 carbon-based electrocatalysts [86][87][88]. Taking it into account might help to develop even more efficient CO 2 reduction processes.…”
Section: Ultramicropores As Pseudocatalytic Centers Enhancing Oxygen mentioning
confidence: 63%
“…Due to this contribution, the pores provide an entirely different than electrochemistry component to the mechanism, and thus, their influence should not be neglected. That effect of porosity has been also indicated recently in the studies of various CO 2 carbon-based electrocatalysts [86][87][88]. Taking it into account might help to develop even more efficient CO 2 reduction processes.…”
Section: Ultramicropores As Pseudocatalytic Centers Enhancing Oxygen mentioning
confidence: 63%
“…5 a) can be classified as Type I/II [42] , [43] . Specifically, the largely increased adsorption volumes at p/p 0 ≈ 0 indicate the existence of micropores [44] , [45] , the hysteresis loops at p/p 0 = 0.45–0.95 are caused by mesopores [46] , [47] , and the large uptakes at p/p 0 > 0.95 imply the presence of macropores [48] . Both U-MnNiFe@NCB and MnNiFe@NCB are characteristic of hierarchical pores originating from the CB.…”
Section: Resultsmentioning
confidence: 99%
“…The N atom has a similar size to the C atom but higher electronegativity [26], therefore the defects caused by nitrogen doping can break the electroneutrality of C atoms in the hexagonal carbon structure [27] leading to an enhanced electronic/ionic conductivity without distortion in the local geometry that influences the electrocatalytic activity [28]. Ndoped carbons have shown to be promising candidates as catalysts for the electro-reduction of CO 2 due to the low over-potentials obtained, the high activity, stability, and selectivity towards certain products ascribed to this surface properties modification.…”
Section: N-doped Carbon-based Materialsmentioning
confidence: 99%
“…Nevertheless, the microporous structure can also be effectively used for the enhancement of the CO 2 electrocatalytic conversion to CO by utilizing spatial confinement of N atoms in micropores. Following this strategy, Liu and co-authors [27] obtained a metal-free nitrogen-doped electrocatalyst with a FE towards CO of 95% and a stability of 10 h at −0.65V vs. RHE. Catalytic materials were synthesized by means of the self-assembly method induced by evaporation of a solvent using coal as carbon source, KOH as activator, and dicyandiamide (DICY) as nitrogen resource.…”
Section: Co As Main Productmentioning
confidence: 99%
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