AI Article Synopsis
- The electrochemical properties of transition metal dichalcogenides (TMDs) depend on their structure and chemistry, necessitating large-scale, high-yield production for effective applications in energy storage and electrocatalysis.
- A thorough understanding of the synthesis process, particularly liquid-phase exfoliation, is essential for optimizing the yield of TMD nanosheets while maintaining their electrochemical qualities.
- The review highlights the integration of machine learning and data science to enhance research on 2D materials, aiming to improve TMD synthesis and other similar materials for better applications in electrochemistry.
Article Abstract
The electrochemical properties of 2D materials, particularly transition metal dichalcogenides (TMDs), hinge on their structural and chemical characteristics. To be practically viable, achieving large-scale, high-yield production is crucial, ensuring both quality and electrochemical suitability for applications in energy storage, electrocatalysis, and potential-based ionic sieving membranes. A prerequisite for success is a deep understanding of the synthesis process, forming a critical link between materials synthesis and electrochemical performance. This review extensively examines the liquid-phase exfoliation technique, providing insights into potential advancements and strategies to optimize the TMDs nanosheet yield while preserving their electrochemical attributes. The primary goal is to compile techniques for enhancing TMDs nanosheet yield through direct liquid-phase exfoliation, considering parameters like solvents, surfactants, centrifugation, and sonication dynamics. Beyond addressing the exfoliation yield, the review emphasizes the potential impact of these parameters on the structural and chemical properties of TMD nanosheets, highlighting their pivotal role in electrochemical applications. Acknowledging evolving research methodologies, the review explores integrating machine learning and data science as tools for understanding relationships and key characteristics. Envisioned to advance 2D material research, including the optimization of graphene, MXenes, and TMDs synthesis for electrochemical applications, this compilation charts a course toward data-driven techniques. By bridging experimental and machine learning approaches, it promises to reshape the landscape of knowledge in electrochemistry, offering a transformative resource for the academic community.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11504616 | PMC |
| http://dx.doi.org/10.1021/prechem.3c00119 | DOI Listing |
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