Ir nanoclusters/porous N-doped carbon as a bifunctional electrocatalyst for hydrogen evolution and hydrazine oxidation reactions.

Hong-Li HuangXiya GuanHaibo LiRuiqing LiRui LiSuyuan ZengShuo TaoQingxia YaoHongyan ChenKonggang Qu

Published in: Chemical communications (Cambridge, England) (2022)

One common iridium(III) complex was employed to facilely prepare ultrafine Ir nanoclusters embedded in porous N-doped carbon, which displayed significant bifunctional activity for both hydrogen evolution and hydrazine oxidation under alkaline conditions, enabling energy-efficient hydrogen production.

Keyphrases

metal organic framework
fluorescent probe
highly efficient
visible light
sensitive detection
hydrogen peroxide
quantum dots
particulate matter
label free
energy transfer
electron transfer
anaerobic digestion