Catalytic hydrogen evolution reaction on "metal-free" graphene: key role of metallic impurities

Catalytic hydrogen evolution reaction on "metal-free" graphene: key role of metallic impurities

WoS Article

Molecular hydrogen is widely considered as a potential carbonfree and renewable energy carrier for a sustainable energy strategy. The electrocatalytic hydrogen evolution reaction is a major pathway to obtain ultra-pure hydrogen, and it vastly relies on the development of inexpensive electrocatalysts. In recent years, graphene has been proposed as a “metal-free” catalyst for the hydrogen evolution reaction. Here, we showed that metallic impurities are introduced during the synthesis process and these impurities act as the catalyst for the hydrogen evolution reaction.

Molecular hydrogen is widely considered as a potential carbonfree and renewable energy carrier for a sustainable energy strategy. The electrocatalytic hydrogen evolution reaction is a major pathway to obtain ultra-pure hydrogen, and it vastly relies on the development of inexpensive electrocatalysts. In recent years, graphene has been proposed as a “metal-free” catalyst for the hydrogen evolution reaction. Here, we showed that metallic impurities are introduced during the synthesis process and these impurities act as the catalyst for the hydrogen evolution reaction.

OXYGEN REDUCTION REACTION; CARBON NANOTUBES; ELECTROCATALYTIC ACTIVITY; NANOPOROUS GRAPHENE; DOPED GRAPHENE; OXIDE; TRANSITION; MOS2; WS2; NANORIBBONS

OXYGEN REDUCTION REACTION; CARBON NANOTUBES; ELECTROCATALYTIC ACTIVITY; NANOPOROUS GRAPHENE; DOPED GRAPHENE; OXIDE; TRANSITION; MOS2; WS2; NANORIBBONS

WANG, L.; SOFER, Z.; PUMERA, M.

2020

21.06.2019

2040-3364

Nanoscale

11

23

United Kingdom of Great Britain and Northern Ireland

11083

11085

3

https://pubs.rsc.org/en/content/articlelanding/2019/NR/C9NR03557E#!divAbstract