2023
DOI: 10.1002/smll.202207820
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Architecting the High‐Entropy Oxides on 2D MXene Nanosheets by Rapid Microwave‐Heating Strategy with Robust Photoelectrochemical Oxygen Evolution Performance

Abstract: High‐entropy oxides (HEO) have recently concerned interest as the most promising electrocatalytic materials for oxygen evolution reactions (OER). In this work, a new strategy to the synthesis of HEO nanostructures on Ti3C2Tx MXene via rapid microwave heating and subsequent calcination at a low temperature is reported. Furthermore, the influence of HEO loading on Ti3C2Tx MXene is investigated toward OER performance with and without visible‐light illumination in an alkaline medium. The obtained HEO/Ti3C2Tx‐0.5 h… Show more

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Cited by 19 publications
(5 citation statements)
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“…They also pointed out that a small amount of MXene can be more favorable for OER activity. Park et al 63 designed a composite composed of high-entropy oxide (HEO) and MXene via microwave treatment followed by low-temperature calcination (Figure 6A). The HEO was composed of V, Mn, Co, Fe, and Nibased oxides and acted as the active phase for OER.…”
Section: Mxene/transition Metal Oxides For Oer Catalystsmentioning
confidence: 99%
“…They also pointed out that a small amount of MXene can be more favorable for OER activity. Park et al 63 designed a composite composed of high-entropy oxide (HEO) and MXene via microwave treatment followed by low-temperature calcination (Figure 6A). The HEO was composed of V, Mn, Co, Fe, and Nibased oxides and acted as the active phase for OER.…”
Section: Mxene/transition Metal Oxides For Oer Catalystsmentioning
confidence: 99%
“…Rapidly increasing energy demand and the global climate change owing to the copious use of fossil fuels have forced us to explore eco-friendly and renewable energy sources. Hydrogen (H 2 ) has received tremendous attention as a very important future energy carrier to replace current fossil fuels because of its excellent energy density, renewability, and zero-carbon emission. Currently, large-scale H 2 production relies on steam–methane reforming, which utilizes methane to generate H 2 by reacting with steam. , However, this process is dependent on fossil fuels and also contributes to environmental pollution through CO 2 emissions. Therefore, the current focus of research and development worldwide is to primarily explore the efficient and clean technology for the large-scale production of H 2 . , Over the past several decades, H 2 production through electrocatalytic overall water splitting (OWS) has garnered extensive attention as an effective technology.…”
Section: Introductionmentioning
confidence: 99%
“…21–25 MXenes possess excellent properties such as high metallic conductivity (6000–8000 S cm −1 ) and appreciable thermal conductivity, solvated ion intercalation property, variable surface functional groups, and larger hydrophilicity. 26–28 Hence, a combination of MXene and NVO could improve the electrical conductivity, hydrophilicity, and surface charge properties for ammonium-ion-based charge storage electrodes.…”
Section: Introductionmentioning
confidence: 99%