Development of carbon dots supported on Zr-MOFs nano-composites for effective oxygen evolution reaction

Efficient hydrogen generation from water splitting is a key component of the hydrogen economy. It has been extensively researched for decades how electrochemically splitting water using electrocatalysts might provide a sustainable and environmentally friendly hydrogen energy source. Sluggish kinetic...

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Bibliographic Details
Published in:Diamond and related materials 2024-11, Vol.149, p.111559, Article 111559
Main Authors: Rehman, Muhammad Yousaf Ur, Khan, Muhammad Moazzam, Nayer, Sidra, Shah, Syed Imran Abbas, Alsaiari, Norah Salem, Ehsan, Muhammad Fahad, Chughtai, Adeel Hussain, Ashiq, Muhammad Naeem
Format: Article
Language:English
Subjects:
Carbon dots
Organic linker
Oxygen evolution reaction (OER)
Stable electrode
Zr-MOF
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Summary:Efficient hydrogen generation from water splitting is a key component of the hydrogen economy. It has been extensively researched for decades how electrochemically splitting water using electrocatalysts might provide a sustainable and environmentally friendly hydrogen energy source. Sluggish kinetics of the oxygen evolution reaction (OER) hinders the process of overall water splitting. Although metal-organic frameworks (MOFs) are attractive for generation of effective OER electrocatalysts, their activity is significantly hindered by their inherent lower conductivity. Here, we demonstrate a Zr-MOF-based composite with carbon dots (CDs) in order to increase their OER activity. Its exceptional morphology with higher porosity and greater surface area results in enhanced electrochemical activity. It reveals tremendously low onset potential, i.e., 1.40 V vs. RHE, and a remarkably small overpotential of 1.45 V vs. RHE to attain benchmark current density. It exhibited a minimal Tafel value of 37 mV/dec, conquering state-of-the-art catalysts for OER. The fabricated electrocatalyst demonstrated a lower charge transfer resistance (Rct) of 0.248 Ω, with exceptional durability for about 20 h in chronoamperometric studies and for up to 1500 CV cycles. All these results demonstrated that as-fabricated Zr-MOF-based composite is a probable and potential candidate for OER. [Display omitted] •Zr-MOF based composite with carbon dots (CDs) is fabricated via hydrothermal method.•This composite exhibits low onset potential i.e. 1.40 V as well as overpotential of 1.45 V vs RHE.•It exhibited a minimal Tafel value of 37 mV/dec.•It has exceptional durability for about 20 h vis chronoamperometric studies and for up to 1500 CV cycles.
ISSN:0925-9635
DOI:10.1016/j.diamond.2024.111559