Correction to: Superplastic Formation of Metal Nanostructure Arrays with Ultrafine Gaps (Advanced Materials, (2016), 28, 41, (9152-9162), 10.1002/adma.201602497)

Yaowu Hu, Yi Xuan, Xiaolei Wang, Biwei Deng, Mojib Saei, Shengyu Jin, Joseph Maria Kumar Irudayaraj, Gary J. Cheng

Research output: Contribution to journalComment/debate

Abstract

Adv. Mater. 2016, 28, 9152-9162 In the published article, in Figure e and Figure f, as well as in the caption for the figure, the unit for laser fluence was given incorrectly. The unit is hereby corrected as kJ m−2. The figure is corrected as shown: (Figure presented.) a–d) Nanodimers with various diameter/gap ratios (2:1, 3:1, 6:1, 12:1) before (a,c) and after (b,d) laser shock. The initial nanoparticle radii are 160 and 300 nm for (a) and (c), respectively. The insets show the treated nanodimer arrays, showing the good uniformity of the process. The laser fluence is 17 kJ m−2. Scale bar: 1 μm (insets: 2 μm). e,f) Influence of laser energy fluence on nanodimer gap shrinking: initial radius 400 nm (e); initial radius 160 nm (f). Scale bars: 1 μm (e) and 500 nm (f).

Original languageEnglish (US)
Article number1900190
JournalAdvanced Materials
Volume31
Issue number14
DOIs
StatePublished - Apr 5 2019

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Nanostructures
Metals
Lasers
Nanoparticles
Ultrafine

ASJC Scopus subject areas

  • Materials Science(all)
  • Mechanics of Materials
  • Mechanical Engineering

Cite this

Correction to : Superplastic Formation of Metal Nanostructure Arrays with Ultrafine Gaps (Advanced Materials, (2016), 28, 41, (9152-9162), 10.1002/adma.201602497). / Hu, Yaowu; Xuan, Yi; Wang, Xiaolei; Deng, Biwei; Saei, Mojib; Jin, Shengyu; Irudayaraj, Joseph Maria Kumar; Cheng, Gary J.

In: Advanced Materials, Vol. 31, No. 14, 1900190, 05.04.2019.

Research output: Contribution to journalComment/debate

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abstract = "Adv. Mater. 2016, 28, 9152-9162 In the published article, in Figure e and Figure f, as well as in the caption for the figure, the unit for laser fluence was given incorrectly. The unit is hereby corrected as kJ m−2. The figure is corrected as shown: (Figure presented.) a–d) Nanodimers with various diameter/gap ratios (2:1, 3:1, 6:1, 12:1) before (a,c) and after (b,d) laser shock. The initial nanoparticle radii are 160 and 300 nm for (a) and (c), respectively. The insets show the treated nanodimer arrays, showing the good uniformity of the process. The laser fluence is 17 kJ m−2. Scale bar: 1 μm (insets: 2 μm). e,f) Influence of laser energy fluence on nanodimer gap shrinking: initial radius 400 nm (e); initial radius 160 nm (f). Scale bars: 1 μm (e) and 500 nm (f).",
author = "Yaowu Hu and Yi Xuan and Xiaolei Wang and Biwei Deng and Mojib Saei and Shengyu Jin and Irudayaraj, {Joseph Maria Kumar} and Cheng, {Gary J.}",
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T2 - Superplastic Formation of Metal Nanostructure Arrays with Ultrafine Gaps (Advanced Materials, (2016), 28, 41, (9152-9162), 10.1002/adma.201602497)

AU - Hu, Yaowu

AU - Xuan, Yi

AU - Wang, Xiaolei

AU - Deng, Biwei

AU - Saei, Mojib

AU - Jin, Shengyu

AU - Irudayaraj, Joseph Maria Kumar

AU - Cheng, Gary J.

PY - 2019/4/5

Y1 - 2019/4/5

N2 - Adv. Mater. 2016, 28, 9152-9162 In the published article, in Figure e and Figure f, as well as in the caption for the figure, the unit for laser fluence was given incorrectly. The unit is hereby corrected as kJ m−2. The figure is corrected as shown: (Figure presented.) a–d) Nanodimers with various diameter/gap ratios (2:1, 3:1, 6:1, 12:1) before (a,c) and after (b,d) laser shock. The initial nanoparticle radii are 160 and 300 nm for (a) and (c), respectively. The insets show the treated nanodimer arrays, showing the good uniformity of the process. The laser fluence is 17 kJ m−2. Scale bar: 1 μm (insets: 2 μm). e,f) Influence of laser energy fluence on nanodimer gap shrinking: initial radius 400 nm (e); initial radius 160 nm (f). Scale bars: 1 μm (e) and 500 nm (f).

AB - Adv. Mater. 2016, 28, 9152-9162 In the published article, in Figure e and Figure f, as well as in the caption for the figure, the unit for laser fluence was given incorrectly. The unit is hereby corrected as kJ m−2. The figure is corrected as shown: (Figure presented.) a–d) Nanodimers with various diameter/gap ratios (2:1, 3:1, 6:1, 12:1) before (a,c) and after (b,d) laser shock. The initial nanoparticle radii are 160 and 300 nm for (a) and (c), respectively. The insets show the treated nanodimer arrays, showing the good uniformity of the process. The laser fluence is 17 kJ m−2. Scale bar: 1 μm (insets: 2 μm). e,f) Influence of laser energy fluence on nanodimer gap shrinking: initial radius 400 nm (e); initial radius 160 nm (f). Scale bars: 1 μm (e) and 500 nm (f).

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