AI Article Synopsis

  • - Conjugated polymer sorting is an efficient method for extracting semiconducting single-walled carbon nanotubes (s-SWCNTs), but it usually involves harmful petroleum-based solvents.
  • - This study introduces a new fluorene-based conjugated polymer with diamines and ethylene glycol linkers, which improves solubility and affinity for s-SWCNTs in bio-renewable solvents, resulting in a high sorting yield of 55% and purity of 99.6%.
  • - The sorted s-SWCNTs were used to create thin-film transistors that showed excellent charge carrier mobilities and high on/off current ratios, demonstrating the effectiveness of using eco-friendly solvents in the purification process.

Article Abstract

Conjugated polymer sorting is recognized as an efficient and scalable method for the selective extraction of semiconducting single-walled carbon nanotubes (s-SWCNTs). However, this process typically requires the use of nonpolar and aromatic solvents as the dispersion medium, which are petroleum-based and carry significant production hazards. Moreover, there is still potential for improving the efficiency of batch purification. Here, this study presents fluorene-based conjugated polymer that integrates diamines containing ethylene glycol chains (ODA) as linkers within the main chain, to effectively extract s-SWCNTs in bio-renewable solvents. The introduction of ODA segments enhances the solubility in bio-renewable solvents, facilitating effective wrapping of s-SWCNTs in polar environments. Additionally, the ODA within the main chain enhances affinity to s-SWCNTs, thereby contributing to increased yields and purity. The polymer achieves a high sorting yield of 55% and a purity of 99.6% in dispersion of s-SWCNTs in 2-Methyltetrahydrofuran. Thin-film transistor arrays fabricated with sorted s-SWCNTs solution through slot-die coating exhibit average charge carrier mobilities of 20-23 cm V⁻¹ s⁻¹ and high on/off current ratios exceeding 10 together with high spatial uniformity. This study highlights the viability of bio-renewable solvents in the sorting process, paving the way for the eco-friendly approach to the purification of SWCNTs.

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Source
http://dx.doi.org/10.1002/smll.202403651DOI Listing

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