Huang YongAn

Professor    Supervisor of Doctorate Candidates    Supervisor of Master's Candidates

  • Professional Title:Professor
  • Gender:Male
  • Status:Employed
  • Department:智能制造装备与技术全国重点实验室
  • Education Level:Postgraduate (Doctoral)
  • Degree:Doctoral Degree in Engineering
  • Alma Mater:Northwestern Polytechnical University

Paper Publications

Laser-driven hierarchical "gas-needles" for programmable and high-precision proximity transfer printing of microchips

Release time:2024-06-03Hits:
  • Indexed by:
    Journal paper
  • First Author:
    Furong Chen
  • Correspondence Author:
    YongAn Huang,Jing Bian
  • Co-author:
    Mengxin Gai,Ningning Sun,Lei Liu,Zhangyu Xu,Haiyang Yu
  • Journal:
    Science Advances
  • Funded by:
    the National Natural Science Foundation of China (grant nos. 51925503, 52105576 and 52188102), etc.
  • Volume:
    9
  • Issue:
    43
  • DOI number:
    10.1126/sciadv.adk0244
  • Date of Publication:
    2023-10-27
  • Abstract:
    Micro–transfer printing (μTP) techniques are essential for advanced electronics. However, current contact/noncontact μTP techniques fail to simultaneously achieve high selectivity and transfer accuracy. Here, a laser projection proximity transfer (LaserPPT) technique is presented, which assembles the microchips in an approach-and-release manner, combining high-precision parallelism with individual chip control. An embedded carbon layer with a thin gas layer is generated by an ultraviolet laser, followed by absorbing heat from the infrared laser, to enable the sequential expansion of hierarchical “gas-needles.” The level 1 large gas-needle with a substantially growing height can reduce the gap between the microchip and the receiver. Then, the level 2 small gas-needles enable the gentle release of a chip. Therefore, the LaserPPT can obtain a strong adhesion modulation (~1000 times), excellent size scalability (<100 micrometers), and high transfer accuracy of ~4 micrometers. Last, the assembly of a micro–light-emitting diode display demonstrates the capabilities for deterministic assembly of microarrays.
  • Links to published journals: