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The Atomic Layer Deposition Technique for the Fabrication of Memristive Devices: Impact of the Precursor on Pre-deposited Stack Materials

Quinteros, C. P., Hardtdegen, A., Barella, M., Golmar, F., Palumbo, F., Curiale, J., Hoffmann-Eifert, S. & Levy, P., 10-Oct-2018, New Uses of Micro and Nanomaterials. IntechOpen, p. 1-23 23 p.

Research output: Chapter in Book/Report/Conference proceedingChapterAcademicpeer-review

  • Cynthia P. Quinteros
  • Alex Hardtdegen
  • Mariano Barella
  • Federico Golmar
  • Felix Palumbo
  • Javier Curiale
  • Susanne Hoffmann-Eifert
  • Pablo Levy
Atomic layer deposition (ALD) is a standard technique employed to grow thin-film oxides for a variety of applications. We describe the technique and demonstrate its use for obtaining memristive devices. The metal/insulator/metal stack is fabricated by means of ALD-grown HfO2, deposited on top of a highly doped Si substrate with an SiO2 film and a Ti electrode. Enhanced device capabilities (forming free, self-limiting current, non-crossing hysteretic current-voltage features) are presented and discussed. Careful analysis of the stack structure by means of X-ray reflectometry, atomic force microscopy, and secondary ion mass spectroscopy revealed a modification of the device stack from the intended sequence, HfO2/Ti/SiO2/Si. Analytical studies unravel an oxidation of the Ti layer which is addressed for the use of the ozone precursor in the HfO2 ALD process. A new deposition process and the model deduced from impedance measurements support our hypothesis: the role played by ozone on the previously deposited Ti layer is found to determine the overall features of the device. Besides, these ALD-tailored multifunctional devices exhibit rectification capability and long enough retention time to deserve their use as memory cells in a crossbar architecture and multibit approach, envisaging other potential applications.
Original languageEnglish
Title of host publicationNew Uses of Micro and Nanomaterials
PublisherIntechOpen
Pages1-23
Number of pages23
Publication statusPublished - 10-Oct-2018

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