่ซ–ๆ–‡ Are MXenes Viable as Conductive, Transparent Films for Industrial Applications?

Tiezhu Guo (a Functional Nanomaterials, Catalonia Institute for Energy Research (IREC),) ; Shungui Deng ; Rene Schneider ; Chuanfang Zhang ; Jakob Heier

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Tiezhu Guo, Shungui Deng, Rene Schneider, Chuanfang Zhang, Jakob Heier. Are MXenes Viable as Conductive, Transparent Films for Industrial Applications?. Science and Technology of Advanced Materials. 2025, 26 (), 2597556. https://doi.org/10.1080/14686996.2025.2597556

่ชฌๆ˜Ž:

(abstract)

Two-dimensional transition metal carbides and nitrides, so-called MXenes, hold significant promise as flexible transparent conductive electrodes (TCEs) in diverse applications. However, MXenes fall below the minimum requirements for industrial use, largely due to factors such as the quality of MXene flakes, electrical conductivity, optical conductivity, and transparent electrode fabrication techniques. In this study, we analyze the relationships among nanosheet size, DC- and optical conductivity and its ratio (๐œŽ๐ท๐ถ/๐œŽ๐‘œ๐‘), and sheet resistance (Rs) of MXene TCEs based on data from published literature. Compared to Ti3C2Tx TCEs fabricated with low-quality, small-sized flakes (โ€‰<โ€‰1โ€‰ฮผm, ๐œŽ๐ท๐ถ/๐œŽ๐‘œ๐‘โ€‰<โ€‰10), those made with high-quality, large-sized nanosheets (โ€‰>โ€‰6โ€‰ฮผm) with narrow size distributions (๐œŽ๐ท๐ถ/๐œŽ๐‘œ๐‘โ€‰>โ€‰20) exhibit dramatically reduced Rs by several orders of magnitude while maintaining high transmittance. Nevertheless, the ๐œŽ๐ท๐ถ/๐œŽ๐‘œ๐‘ of continuous Ti3C2Tx metallic TCEs saturates at ~24, fairly below the basic requirements for commercial TCEs. By integrating a metallic silver grid onto Ti3C2Tx TCEs, a remarkable ๐œŽ๐ท๐ถ/๐œŽ๐‘œ๐‘ ratio of 330 has achieved, bringing MXene TCEs closer to fulfilling industrial application standards and inspiring greater confidence in their future adoption. Beyond the field of TCEs, the insights gained here could inspire advancements in other areas, such as optoelectronic devices, flexible displays, and energy-efficient transparent technologies. This work provides a framework for the design and development of next-generation transparent conductive materials with broad implications across various scientific and industrial domains.

ๆจฉๅˆฉๆƒ…ๅ ฑ:

ใ‚ญใƒผใƒฏใƒผใƒ‰: Transparent conductive electrodes, Mxenes, figure of merit, percolation, theoretical limitation

ๅˆŠ่กŒๅนดๆœˆๆ—ฅ: 2025-12-31

ๅ‡บ็‰ˆ่€…: Taylor & Francis

ๆŽฒ่ผ‰่ชŒ:

  • Science and Technology of Advanced Materials (ISSN: 14686996) vol. 26 2597556

็ ”็ฉถๅŠฉๆˆ้‡‘:

ๅŽŸ็จฟ็จฎๅˆฅ: ่‘—่€…ๆœ€็ต‚็จฟ (Accepted manuscript)

MDR DOI: https://doi.org/10.48505/nims.6017

ๅ…ฌ้–‹URL: https://doi.org/10.1080/14686996.2025.2597556

้–ข้€ฃ่ณ‡ๆ–™:

ใใฎไป–ใฎ่ญ˜ๅˆฅๅญ:

้€ฃ็ตกๅ…ˆ:

ๆ›ดๆ–ฐๆ™‚ๅˆป: 2025-12-15 14:59:48 +0900

MDRใงใฎๅ…ฌ้–‹ๆ™‚ๅˆป: 2025-12-18 19:08:22 +0900

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