Frontiers in Nanotechnology (Oct 2023)

Non-thermal regimes of laser annealing of semiconductor nanostructures: crystallization without melting

  • Inam Mirza,
  • Alexander V. Bulgakov,
  • Hanna Sopha,
  • Hanna Sopha,
  • Sergey V. Starinskiy,
  • Sergey V. Starinskiy,
  • Hana Turčičová,
  • Ondřej Novák,
  • Jiří Mužík,
  • Martin Smrž,
  • Vladimir A. Volodin,
  • Vladimir A. Volodin,
  • Tomáš Mocek,
  • Jan M. Macak,
  • Jan M. Macak,
  • Nadezhda M. Bulgakova

DOI
https://doi.org/10.3389/fnano.2023.1271832
Journal volume & issue
Vol. 5

Abstract

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As-prepared nanostructured semiconductor materials are usually found in an amorphous form, which needs to be converted into a crystalline one for improving electronic properties and achieving enhanced application functionalities. The most utilized method is thermal annealing in a furnace, which however is time- and energy-consuming and not applicable for low-temperature melting substrates. An alternative is laser annealing, which can be carried out in a relatively short time and, additionally, offers the possibility of annealing localized areas. However, laser-annealed nanostructures are often distorted by melting, while preserving the as-prepared morphology is essential for practical applications. In this work, we analyze conditions of non-thermal ultrafast laser annealing of two kinds of nanostructures: anodic TiO2 nanotube layers and Ge/Si multilayer stacks. For both cases, regimes of crystallization have been found, which yield in preserving the initial nanomaterial morphologies without any melting signs. On these examples, ultrafast non-thermal mechanisms of structural material transformation are discussed, which can provide new opportunities for conversion of amorphous semiconductor nanomaterials into a desired crystalline form that is of high demand for existing and emerging technologies.

Keywords