Tailored electrocatalysts by controlled electrochemical deposition and surface nanostructuring

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Tailored electrocatalysts by controlled electrochemical deposition and surface nanostructuring. / Sebastián-Pascual, Paula; Jordão Pereira, Inês; Escudero-Escribano, María.

I: Chemical Communications, Bind 56, Nr. 87, 11.11.2020, s. 13261-13272.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Sebastián-Pascual, P, Jordão Pereira, I & Escudero-Escribano, M 2020, 'Tailored electrocatalysts by controlled electrochemical deposition and surface nanostructuring', Chemical Communications, bind 56, nr. 87, s. 13261-13272. https://doi.org/10.1039/d0cc06099b

APA

Sebastián-Pascual, P., Jordão Pereira, I., & Escudero-Escribano, M. (2020). Tailored electrocatalysts by controlled electrochemical deposition and surface nanostructuring. Chemical Communications, 56(87), 13261-13272. https://doi.org/10.1039/d0cc06099b

Vancouver

Sebastián-Pascual P, Jordão Pereira I, Escudero-Escribano M. Tailored electrocatalysts by controlled electrochemical deposition and surface nanostructuring. Chemical Communications. 2020 nov. 11;56(87):13261-13272. https://doi.org/10.1039/d0cc06099b

Author

Sebastián-Pascual, Paula ; Jordão Pereira, Inês ; Escudero-Escribano, María. / Tailored electrocatalysts by controlled electrochemical deposition and surface nanostructuring. I: Chemical Communications. 2020 ; Bind 56, Nr. 87. s. 13261-13272.

Bibtex

@article{39f56844f88f4d3bb675c6ce7e445ac7,
title = "Tailored electrocatalysts by controlled electrochemical deposition and surface nanostructuring",
abstract = "Controlled electrodeposition and surface nanostructuring are very promising approaches to tailor the structure of the electrocatalyst surface, with the aim to enhance their efficiency for sustainable energy conversion reactions. In this highlight, we first summarise different strategies to modify the structure of the electrode surface at the atomic and sub-monolayer level for applications in electrocatalysis. We discuss aspects such as structure sensitivity and electronic and geometric effects in electrocatalysis. Nanostructured surfaces are finally introduced as more scalable electrocatalysts, where morphology, cluster size, shape and distribution play an essential role and can be finely tuned. Controlled electrochemical deposition and selective engineering of the surface structure are key to design more active, selective and stable electrocatalysts towards a decarbonised energy scheme. This journal is ",
author = "Paula Sebasti{\'a}n-Pascual and {Jord{\~a}o Pereira}, In{\^e}s and Mar{\'i}a Escudero-Escribano",
year = "2020",
month = nov,
day = "11",
doi = "10.1039/d0cc06099b",
language = "English",
volume = "56",
pages = "13261--13272",
journal = "Chemical Communications",
issn = "1359-7345",
publisher = "Royal Society of Chemistry",
number = "87",

}

RIS

TY - JOUR

T1 - Tailored electrocatalysts by controlled electrochemical deposition and surface nanostructuring

AU - Sebastián-Pascual, Paula

AU - Jordão Pereira, Inês

AU - Escudero-Escribano, María

PY - 2020/11/11

Y1 - 2020/11/11

N2 - Controlled electrodeposition and surface nanostructuring are very promising approaches to tailor the structure of the electrocatalyst surface, with the aim to enhance their efficiency for sustainable energy conversion reactions. In this highlight, we first summarise different strategies to modify the structure of the electrode surface at the atomic and sub-monolayer level for applications in electrocatalysis. We discuss aspects such as structure sensitivity and electronic and geometric effects in electrocatalysis. Nanostructured surfaces are finally introduced as more scalable electrocatalysts, where morphology, cluster size, shape and distribution play an essential role and can be finely tuned. Controlled electrochemical deposition and selective engineering of the surface structure are key to design more active, selective and stable electrocatalysts towards a decarbonised energy scheme. This journal is

AB - Controlled electrodeposition and surface nanostructuring are very promising approaches to tailor the structure of the electrocatalyst surface, with the aim to enhance their efficiency for sustainable energy conversion reactions. In this highlight, we first summarise different strategies to modify the structure of the electrode surface at the atomic and sub-monolayer level for applications in electrocatalysis. We discuss aspects such as structure sensitivity and electronic and geometric effects in electrocatalysis. Nanostructured surfaces are finally introduced as more scalable electrocatalysts, where morphology, cluster size, shape and distribution play an essential role and can be finely tuned. Controlled electrochemical deposition and selective engineering of the surface structure are key to design more active, selective and stable electrocatalysts towards a decarbonised energy scheme. This journal is

U2 - 10.1039/d0cc06099b

DO - 10.1039/d0cc06099b

M3 - Journal article

C2 - 33104137

AN - SCOPUS:85095460797

VL - 56

SP - 13261

EP - 13272

JO - Chemical Communications

JF - Chemical Communications

SN - 1359-7345

IS - 87

ER -

ID: 260401203