Synthesis and applications of double metal MXenes: A review

Akhoondi, Asieh; Ebrahimi Nejad, Mitra; Yusuf, Mohammad; Aminabhavi, Tejraj M.; Batoo, Khalid Mujasam; Rtimi, Sami

doi:10.53063/synsint.2023.32150

Cited by 1 publication

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References 109 publications

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“…Based on the SEM image of the as-prepared sample, zinc oxide retains a honeycomb form after the sonochemical process. MXenes or transition metal carbides, nitrides, or carbonitrides are an emerging new class of 2D atomically thin layer composites with many applications in materials science, engineering, chemistry, and physics [92][93][94][95]. Titanium carbide, Ti 3 C 2 T x as one of the most widely explored MXenes, has been investigated for electrochemical sensors [96,97].…”

Section: Ultrasonication Methodsmentioning

confidence: 99%

Recent advances in the synthesis of ZnO-based electrochemical sensors

Akhoondi,

Ahmad,

Nawaz Sharif

et al. 2023

Synth. Sinter.

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Until now, various composites based on zinc oxide (ZnO) have been investigated in electrochemical sensors. The physical and electrochemical properties of ZnO and its structure can improve the selectivity, sensitivity, and adaptability of nanocomposites. Therefore, the focus on the fabrication of cheap ZnO-based electrodes with affordable and easy transportability has increased. In addition, the electrochemical behavior is affected by the structure and morphology of the ZnO-based composite in detecting pollutants such as volatile organic compounds, heavy metals, and toxins. Furthermore, ZnO-based nanostructures are efficient in the fabrication of electrochemical sensors in the food industry, pharmaceutical analysis, and medical diagnostics. In this review, various techniques in the synthesis of ZnO-based electrodes and their effect on the particle size, shape, and morphology of compounds have been collected. Since the performance of chemical sensors has a direct relationship with the structure of the composite used in its electrode, it is necessary to discuss the new production methods, new concepts, strategies, and challenges. Additionally, new gains highlight recent developments and sensing of various analytes in the monitoring systems. These sensors have demonstrated a strong growth acceleration which could lead to the development of recent technologies. At last, an optimistic outlook is provided on the future of ZnO-based sensors and their challenges.

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