Maria Fischer scite author profile

Optically transparent, colorless Al-O-N and Al-Si-O-N coatings with discretely varied O and Si contents were fabricated by reactive direct current magnetron sputtering (R-DCMS) from elemental Al and Si targets and O2 and N2 reactive gases. The Si/Al content was adjusted through the electrical power on the Si and Al targets, while the O/N content was controlled through the O2 flow piped to the substrate in addition to the N2 flow at the targets. The structure and morphology of the coatings were studied by X-ray diffraction (XRD) and transmission electron microscopy (TEM), while the elemental composition was obtained from Rutherford backscattering spectrometry (RBS) and heavy ion elastic recoil detection analysis (ERDA). The chemical states of the elements in the coatings were analyzed by X-ray photoelectron spectroscopy (XPS). Based on analytical results, a model describing the microstructural evolution of the Al-O-N and also previously studied Al-Si-N [1, 2, 3, 4] coatings with O and Si content, respectively, is established. The universality of the microstructural evolution of these coatings with the concentration of the added element is attributed to the extra valence electron (e–) that must be incorporated into the AlN wurtzite host lattice. In the case of Al-O-N, this additional valence charge arises from the e – acceptor O replacing N in the AlN wurtzite lattice, while the e – donor Si substituting Al fulfills that role in the Al-Si-N system. In view of future applications of ternary Al-O-N and quaternary Al-Si-O-N transparent protective coatings, their mechanical properties such as residual stress (σ), hardness (HD) and Young’s modulus (E) were obtained from the curvature of films deposited onto thin substrates and by nanoindentation, respectively. Moderate compressive stress levels between −0.2 and −0.5 GPa, which suppress crack formation and film-substrate delamination, could be obtained together with HD values around 25 GPa.

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A setup for arc-free reactive DC sputter deposition of Al-O-N

Fischer

Trant

Thorwarth

et al. 2019

Surface and Coatings Technology

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Mapping the Structure of Oxygen-Doped Wurtzite Aluminum Nitride Coatings from Ab Initio Random Structure Search and Experiments

Gasparotto

Fischer

Scopece

et al. 2021

ACS Appl. Mater. Interfaces

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Machine learning is changing how we design and interpret experiments in materials science. In this work, we show how unsupervised learning, combined with ab initio random structure searching, improves our understanding of structural metastability in multicomponent alloys. We focus on the case of Al-O-N alloys where the formation of aluminum vacancies in wurtzite AlN upon the incorporation of substitutional oxygen can be seen as a general mechanism of solids where crystal symmetry is reduced to stabilize defects. The ideal AlN wurtzite crystal structure occupation cannot be matched due to the presence of an aliovalent hetero-element into the structure. The traditional interpretation of the c-lattice shrinkage in sputter-deposited Al-O-N films from X-ray diffraction (XRD) experiments suggests the existence of a solubility limit at 8 at % oxygen content. Here, we show that such naive interpretation is misleading. We support XRD data with accurate ab initio modeling and dimensionality reduction on advanced structural descriptors to map structure–property relationships. No signs of a possible solubility limit are found. Instead, the presence of a wide range of non-equilibrium oxygen-rich defective structures emerging at increasing oxygen contents suggests that the formation of grain boundaries is the most plausible mechanism responsible for the lattice shrinkage measured in Al-O-N sputtered films. We further confirm our hypothesis using positron annihilation lifetime spectroscopy.

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Tunable ion flux density and its impact on AlN thin films deposited in a confocal DC magnetron sputtering system

Trant

Fischer

Thorwarth

et al. 2018

Surface and Coatings Technology

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Maria Fischer

A novel methylation derivatization method for δ¹⁸O analysis of individual carbohydrates by gas chromatography/pyrolysis–isotope ratio mass spectrometry

Understanding the microstructural evolution and mechanical properties of transparent Al-O-N and Al-Si-O-N films

A setup for arc-free reactive DC sputter deposition of Al-O-N

Mapping the Structure of Oxygen-Doped Wurtzite Aluminum Nitride Coatings from Ab Initio Random Structure Search and Experiments

Tunable ion flux density and its impact on AlN thin films deposited in a confocal DC magnetron sputtering system

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Maria Fischer

A novel methylation derivatization method for δ18O analysis of individual carbohydrates by gas chromatography/pyrolysis–isotope ratio mass spectrometry

Understanding the microstructural evolution and mechanical properties of transparent Al-O-N and Al-Si-O-N films

A setup for arc-free reactive DC sputter deposition of Al-O-N

Mapping the Structure of Oxygen-Doped Wurtzite Aluminum Nitride Coatings from Ab Initio Random Structure Search and Experiments

Tunable ion flux density and its impact on AlN thin films deposited in a confocal DC magnetron sputtering system

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A novel methylation derivatization method for δ¹⁸O analysis of individual carbohydrates by gas chromatography/pyrolysis–isotope ratio mass spectrometry