New Insights into Sequential Infiltration Synthesis Journal Articles uri icon

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abstract

  • Sequential infiltration synthesis (SIS) is a process derived from ALD in which a polymer is infused with inorganic material using sequential, self-limiting exposures to gaseous precursors. SIS can be used in lithography to harden polymer resists rendering them more robust towards subsequent etching, and this permits deeper and higher-resolution patterning of substrates such as silicon. Herein we describe recent investigations of a model system: Al2O3 SIS using trimethyl aluminum (TMA) and H2O within the diblock copolymer, poly(styrene-block-methyl methacrylate) (PS-b-PMMA). Combining in-situ Fourier transform infrared absorption spectroscopy, quartz-crystal microbalance, and synchrotron grazing incidence small angle X-ray scattering with high resolution scanning transmission electron microscope tomography, we elucidate important details of the SIS process: 1) TMA adsorption in PMMA occurs through a weakly-bound intermediate; 2) the SIS kinetics are diffusion-limited, with desorption 10x slower than adsorption; 3) dynamic structural changes occur during the individual precursor exposures. These findings have important implications for applications such as SIS lithography.

authors

  • Elam, Jeffrey W
  • Biswas, Mahua
  • Darling, Seth
  • Yanguas-Gil, Angel
  • Emery, Jonathan D
  • Martinson, Alex BF
  • Nealey, Paul F
  • Segal-Peretz, Tamar
  • Peng, Qing
  • Winterstein, Jonathan
  • Liddle, J Alexander
  • Tseng, Yu-Chih

publication date

  • September 10, 2015