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Correction: Recent progress in controlled nano/micro cracking as an alternative nano-patterning method for functional

Jinwook Jung1, Kyun Kyu Kim, Young D Suh

  • 1Applied Nano and Thermal Science Lab, Department of Mechanical Engineering, Seoul National University, 1 Gwanak-ro, Gwanak-gu, Seoul, 08826, Republic of Korea. maxko@snu.ac.kr.

Nanoscale Horizons
|June 12, 2020
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Summary

This correction clarifies details in a previous study on nano/micro cracking for functional applications. It ensures accurate understanding of controlled cracking as a nano-patterning technique.

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Surface Engineering

Background:

  • Controlled nano/micro cracking is an emerging technique for creating nanoscale patterns.
  • Existing methods for nano-patterning have limitations in scalability and cost-effectiveness.
  • Functional applications require precise control over nanoscale surface features.

Purpose of the Study:

  • To provide a correction to the previously published article 'Recent progress in controlled nano/micro cracking as an alternative nano-patterning method for functional applications'.
  • To ensure the accuracy and clarity of the presented information regarding nano/micro cracking techniques.
  • To maintain the integrity of scientific records concerning advanced nano-patterning methods.

Main Methods:

  • The correction addresses specific details within the original study's methodology.
  • It may involve re-stating experimental parameters or theoretical explanations.
  • Focus is on ensuring the reproducibility and validity of the reported findings.

Main Results:

  • The correction aims to rectify any inaccuracies in the reported outcomes of nano/micro cracking.
  • It ensures that the presented results accurately reflect the capabilities of the technique for functional applications.
  • Clarification of results supports the broader understanding of controlled cracking in nanotechnology.

Conclusions:

  • Accurate reporting is crucial for the advancement of controlled nano/micro cracking as a viable nano-patterning method.
  • The corrected information reinforces the potential of this technique for diverse functional applications.
  • This ensures reliable data for future research and development in nanoscale engineering.