Corrigendum to “Washable, stretchable, and reusable core-shell metal nanowire network-based electronics on breathable polymer nanomesh substrate” [Mater. Today 61 (2022) 30–39, (S1369702122002759), (10.1016/j.mattod.2022.10.023)]

Wooseong Jeong; Seonmin Lee; Hyeokjoo Choi; Jihoon Bae; Seon Hak Lee; Yoohan Ma; Seungsun Yoo; Jae Hyun Ha; Jung Il Hong; Seoyeon Park; Kyoohee Woo; Ji Hyuk Choi; Sungwon Lee

doi:10.1016/j.mattod.2024.12.009

Corrigendum to “Washable, stretchable, and reusable core-shell metal nanowire network-based electronics on breathable polymer nanomesh substrate” [Mater. Today 61 (2022) 30–39, (S1369702122002759), (10.1016/j.mattod.2022.10.023)]

Wooseong Jeong, Seonmin Lee, Hyeokjoo Choi, Jihoon Bae, Seon Hak Lee, Yoohan Ma, Seungsun Yoo, Jae Hyun Ha, Jung Il Hong, Seoyeon Park, Kyoohee Woo, Ji Hyuk Choi, Sungwon Lee

Department of Physics and Chemistry

Research output: Contribution to journal › Comment/debate

Abstract

The authors regret to inform that Figures S2 and S3 inadvertently duplicated Figures S2 and S3 of the ACS AMI paper titled “A Hierarchical Metal Nanowire Network Structure for Durable, Cost-Effective, Stretchable, and Breathable Electronics” (https://doi.org/10.1021/acsami.1c18538). To address this issue and ensure the integrity of our work, we are replacing the original Figures S2 and S3 with new versions that feature clearer and higher resolution SEM images. The newly added Figure S2 now displays the SEM images of the TPU nanomeshes with varying areal densities (0.4 μg cm⁻², 0.9 μg cm⁻², 1.5 μg cm⁻², and 1.8 μg cm⁻², respectively). Figure S3 shows the SEM images of the Ag nanowire network on TPU nanomesh substrates with different Ag nanowire loadings (50.6 μg cm⁻², 63.2 μg cm⁻², 88.5 μg cm⁻², and 110.2 μg cm⁻², respectively). The authors sincerely apologise to the readers of Materials Today for this oversight.[Figure presented] Figure S2. SEM images of TPU nanomeshes with different areal densities: a) 0.4 μg cm⁻², b) 0.9 μg cm⁻², c) 1.5 μg cm⁻², and d) 1.8 μg cm⁻² (scale bar = 20 μm).[Figure presented] Figure S3. SEM images of Ag nanowire network on TPU nanomesh substrates with different Ag nanowire loadings and sheet resistances: a) 50.6 μg cm⁻², b) 63.2 μg cm⁻², c) 88.5 μg cm⁻², and d) 110.2 μg cm⁻² (scale bar = 20 μm).

Original language	English
Pages (from-to)	1-2
Number of pages	2
Journal	Materials Today
Volume	82
DOIs	https://doi.org/10.1016/j.mattod.2024.12.009
State	Published - 1 Jan 2025

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Jeong, W., Lee, S., Choi, H., Bae, J., Lee, S. H., Ma, Y., Yoo, S., Ha, J. H., Hong, J. I., Park, S., Woo, K., Choi, J. H., & Lee, S. (2025). Corrigendum to “Washable, stretchable, and reusable core-shell metal nanowire network-based electronics on breathable polymer nanomesh substrate” [Mater. Today 61 (2022) 30–39, (S1369702122002759), (10.1016/j.mattod.2022.10.023)]. Materials Today, 82, 1-2. https://doi.org/10.1016/j.mattod.2024.12.009

@article{5cd0397d300b449ba5ca04b57452962b,

title = "Corrigendum to “Washable, stretchable, and reusable core-shell metal nanowire network-based electronics on breathable polymer nanomesh substrate” [Mater. Today 61 (2022) 30–39, (S1369702122002759), (10.1016/j.mattod.2022.10.023)]",

abstract = "The authors regret to inform that Figures S2 and S3 inadvertently duplicated Figures S2 and S3 of the ACS AMI paper titled “A Hierarchical Metal Nanowire Network Structure for Durable, Cost-Effective, Stretchable, and Breathable Electronics” (https://doi.org/10.1021/acsami.1c18538). To address this issue and ensure the integrity of our work, we are replacing the original Figures S2 and S3 with new versions that feature clearer and higher resolution SEM images. The newly added Figure S2 now displays the SEM images of the TPU nanomeshes with varying areal densities (0.4 μg cm−2, 0.9 μg cm−2, 1.5 μg cm−2, and 1.8 μg cm−2, respectively). Figure S3 shows the SEM images of the Ag nanowire network on TPU nanomesh substrates with different Ag nanowire loadings (50.6 μg cm−2, 63.2 μg cm−2, 88.5 μg cm−2, and 110.2 μg cm−2, respectively). The authors sincerely apologise to the readers of Materials Today for this oversight.[Figure presented] Figure S2. SEM images of TPU nanomeshes with different areal densities: a) 0.4 μg cm−2, b) 0.9 μg cm−2, c) 1.5 μg cm−2, and d) 1.8 μg cm−2 (scale bar = 20 μm).[Figure presented] Figure S3. SEM images of Ag nanowire network on TPU nanomesh substrates with different Ag nanowire loadings and sheet resistances: a) 50.6 μg cm−2, b) 63.2 μg cm−2, c) 88.5 μg cm−2, and d) 110.2 μg cm−2 (scale bar = 20 μm).",

author = "Wooseong Jeong and Seonmin Lee and Hyeokjoo Choi and Jihoon Bae and Lee, {Seon Hak} and Yoohan Ma and Seungsun Yoo and Ha, {Jae Hyun} and Hong, {Jung Il} and Seoyeon Park and Kyoohee Woo and Choi, {Ji Hyuk} and Sungwon Lee",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s)",

year = "2025",

month = jan,

day = "1",

doi = "10.1016/j.mattod.2024.12.009",

language = "English",

volume = "82",

pages = "1--2",

journal = "Materials Today",

issn = "1369-7021",

publisher = "Elsevier B.V.",

}

Jeong, W, Lee, S, Choi, H, Bae, J, Lee, SH, Ma, Y, Yoo, S, Ha, JH, Hong, JI, Park, S, Woo, K, Choi, JH & Lee, S 2025, 'Corrigendum to “Washable, stretchable, and reusable core-shell metal nanowire network-based electronics on breathable polymer nanomesh substrate” [Mater. Today 61 (2022) 30–39, (S1369702122002759), (10.1016/j.mattod.2022.10.023)]', Materials Today, vol. 82, pp. 1-2. https://doi.org/10.1016/j.mattod.2024.12.009

Corrigendum to “Washable, stretchable, and reusable core-shell metal nanowire network-based electronics on breathable polymer nanomesh substrate” [Mater. Today 61 (2022) 30–39, (S1369702122002759), (10.1016/j.mattod.2022.10.023)]. / Jeong, Wooseong; Lee, Seonmin; Choi, Hyeokjoo et al.
In: Materials Today, Vol. 82, 01.01.2025, p. 1-2.

Research output: Contribution to journal › Comment/debate

TY - JOUR

T1 - Corrigendum to “Washable, stretchable, and reusable core-shell metal nanowire network-based electronics on breathable polymer nanomesh substrate” [Mater. Today 61 (2022) 30–39, (S1369702122002759), (10.1016/j.mattod.2022.10.023)]

AU - Jeong, Wooseong

AU - Lee, Seonmin

AU - Choi, Hyeokjoo

AU - Bae, Jihoon

AU - Lee, Seon Hak

AU - Ma, Yoohan

AU - Yoo, Seungsun

AU - Ha, Jae Hyun

AU - Hong, Jung Il

AU - Park, Seoyeon

AU - Woo, Kyoohee

AU - Choi, Ji Hyuk

AU - Lee, Sungwon

PY - 2025/1/1

Y1 - 2025/1/1

N2 - The authors regret to inform that Figures S2 and S3 inadvertently duplicated Figures S2 and S3 of the ACS AMI paper titled “A Hierarchical Metal Nanowire Network Structure for Durable, Cost-Effective, Stretchable, and Breathable Electronics” (https://doi.org/10.1021/acsami.1c18538). To address this issue and ensure the integrity of our work, we are replacing the original Figures S2 and S3 with new versions that feature clearer and higher resolution SEM images. The newly added Figure S2 now displays the SEM images of the TPU nanomeshes with varying areal densities (0.4 μg cm−2, 0.9 μg cm−2, 1.5 μg cm−2, and 1.8 μg cm−2, respectively). Figure S3 shows the SEM images of the Ag nanowire network on TPU nanomesh substrates with different Ag nanowire loadings (50.6 μg cm−2, 63.2 μg cm−2, 88.5 μg cm−2, and 110.2 μg cm−2, respectively). The authors sincerely apologise to the readers of Materials Today for this oversight.[Figure presented] Figure S2. SEM images of TPU nanomeshes with different areal densities: a) 0.4 μg cm−2, b) 0.9 μg cm−2, c) 1.5 μg cm−2, and d) 1.8 μg cm−2 (scale bar = 20 μm).[Figure presented] Figure S3. SEM images of Ag nanowire network on TPU nanomesh substrates with different Ag nanowire loadings and sheet resistances: a) 50.6 μg cm−2, b) 63.2 μg cm−2, c) 88.5 μg cm−2, and d) 110.2 μg cm−2 (scale bar = 20 μm).

AB - The authors regret to inform that Figures S2 and S3 inadvertently duplicated Figures S2 and S3 of the ACS AMI paper titled “A Hierarchical Metal Nanowire Network Structure for Durable, Cost-Effective, Stretchable, and Breathable Electronics” (https://doi.org/10.1021/acsami.1c18538). To address this issue and ensure the integrity of our work, we are replacing the original Figures S2 and S3 with new versions that feature clearer and higher resolution SEM images. The newly added Figure S2 now displays the SEM images of the TPU nanomeshes with varying areal densities (0.4 μg cm−2, 0.9 μg cm−2, 1.5 μg cm−2, and 1.8 μg cm−2, respectively). Figure S3 shows the SEM images of the Ag nanowire network on TPU nanomesh substrates with different Ag nanowire loadings (50.6 μg cm−2, 63.2 μg cm−2, 88.5 μg cm−2, and 110.2 μg cm−2, respectively). The authors sincerely apologise to the readers of Materials Today for this oversight.[Figure presented] Figure S2. SEM images of TPU nanomeshes with different areal densities: a) 0.4 μg cm−2, b) 0.9 μg cm−2, c) 1.5 μg cm−2, and d) 1.8 μg cm−2 (scale bar = 20 μm).[Figure presented] Figure S3. SEM images of Ag nanowire network on TPU nanomesh substrates with different Ag nanowire loadings and sheet resistances: a) 50.6 μg cm−2, b) 63.2 μg cm−2, c) 88.5 μg cm−2, and d) 110.2 μg cm−2 (scale bar = 20 μm).

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U2 - 10.1016/j.mattod.2024.12.009

DO - 10.1016/j.mattod.2024.12.009

M3 - Comment/debate

AN - SCOPUS:85214005844

SN - 1369-7021

VL - 82

SP - 1

EP - 2

JO - Materials Today

JF - Materials Today

ER -

Corrigendum to “Washable, stretchable, and reusable core-shell metal nanowire network-based electronics on breathable polymer nanomesh substrate” [Mater. Today 61 (2022) 30–39, (S1369702122002759), (10.1016/j.mattod.2022.10.023)]

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