One-step synthesis and electrocatalytic hydrogen evolution in self-supported tantalum carbonitrides

•Cost-effective, easily scalable synthesis of tantalum carbonitrides.•Superior HER performance (ƞ = 50 mV @ 1 mA/cm2) in a self-supported form than previously reported TaN and Ta3N5.•Low onset potential attributed to graphitic Ta-C-S interface. We report the synthesis of TaCxNy overlay on tantalum f...

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Published in:Materials letters 2024-10, Vol.372, p.137025, Article 137025
Main Authors: Sharma Mukkavilli, Raghunath, Arunkumar, B.R., Mathur, Sanjay, Kumar, Ravi
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Language:English
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Ceramics
Energy Storage and Conversion
Water splitting
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Mathur, Sanjay
Kumar, Ravi
description •Cost-effective, easily scalable synthesis of tantalum carbonitrides.•Superior HER performance (ƞ = 50 mV @ 1 mA/cm2) in a self-supported form than previously reported TaN and Ta3N5.•Low onset potential attributed to graphitic Ta-C-S interface. We report the synthesis of TaCxNy overlay on tantalum foil utilizing for the first-time melamine (C3H3N6) and thiourea (CH4N2S) as precursors to provide an ammonia-free access to carbonitride phases at 1000 °C. X-ray diffraction (XRD) and Raman analysis confirmed the formation of TaCxNy, with additional Ta2CS2 and g-C3N4 phases observed in the synthesis performed using thiourea. EDX analysis at the cross section demonstrated sulphur incorporation at the interface, indicating Ta-C-S bonds, which was supported by X-ray photoelectron spectroscopy (XPS). The resulting materials were evaluated as self-supported electrodes for electrocatalytic hydrogen evolution reaction (HER). A low overpotential (50 mV at 1 mA/cm2) and stability of 6 h (at −15 mA/ cm2) was delivered in the catalyst synthesized from thiourea attributed to graphitic Ta-C-S moieties at the interface.
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subjects Ceramics
Energy Storage and Conversion
Water splitting
title One-step synthesis and electrocatalytic hydrogen evolution in self-supported tantalum carbonitrides
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