Correction: Femtosecond laser direct writing Bombyx mori sericin-based nanocomposites into intrinsically soft wearable micro-/nano-electronics

Qi Liang; Qian Xu; Gongwen Yang; Yanting Xu; Hanxuan Huang; Zhishan Hou; Zhengzhong Shao; Ming Wang; Yun-Lu Sun

doi:10.1039/D6NR90105K

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DOI: 10.1039/D6NR90105K (Correction) Nanoscale, 2026, Advance Article

Correction: Femtosecond laser direct writing Bombyx mori sericin-based nanocomposites into intrinsically soft wearable micro-/nano-electronics

Qi Liang^a, Qian Xu^b, Gongwen Yang^c, Yanting Xu^c, Hanxuan Huang^a, Zhishan Hou^d, Zhengzhong Shao^c, Ming Wang^b and Yun-Lu Sun*^a
^aSchool of Information Science and Technology, Fudan University, Shanghai 200433, China. E-mail: ylsun@fudan.edu.cn
^bFrontier Institute of Chip and System, Fudan University, Shanghai 200433, China
^cDepartment of Macromolecular Science, Fudan University, Shanghai 200433, China
^dInternational Science and Technology Cooperation Base for Laser Processing Robot, Zhejiang Provincial Key Laboratory of Laser Processing Robot, Wenzhou University, Wenzhou 325035, China

Received 4th June 2026 , Accepted 4th June 2026

First published on 22nd June 2026

Abstract

Correction for ‘Femtosecond laser direct writing Bombyx mori sericin-based nanocomposites into intrinsically soft wearable micro-/nano-electronics’ by Qi Liang et al., Nanoscale, 2024, 16, 21869–21880, https://doi.org/10.1039/D4NR02442G.

The authors regret the accidental duplication of Fig. 5 in Fig. 1 in the original article. The correct Fig. 1 is presented below.


	Fig. 1 Schematic of FsLDW multiphoton lithography using sericin-based aqueous resists. (a) Images of (i) silkworm cocoons, (ii) sericin aqueous solution, (iii) aqueous solution of sericin/MB, (iv) aqueous solution of sericin/AgNO₃, and (v) aqueous solution of sericin/Ag nanoparticles. (b) 3D-scanning schematic of FsLDW multiphoton lithography. SEM images of (c), a miniature ‘sericin’ character written in sericin/MB aqueous resists, and (d), sericin/Ag nanocomposite microfilaments written in sericin/AgNO₃ aqueous resists respectively, scale bar; 10 μm. (e) Flexible strain sensor based on sericin/Ag aqueous resists and its performance characterization. (f) Motion monitoring of different parts of the human body.

The Royal Society of Chemistry apologises for these errors and any consequent inconvenience to authors and readers.

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