Nadja Wolff scite author profile

Nadja Wolff

2Publications

27Citation Statements Received

133Citation Statements Given

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Heidelberg University, University of Bayreuth

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Impact of the MoS₂ Starting Material on the Dispersion Quality and Quantity after Liquid Phase Exfoliation

et al. 2019

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Liquid phase exfoliation has evolved to an important and widely used production technique for 2D materials, giving access to large quantities of nanosheets in the liquid phase. Post-exfoliation size selection, for example by liquid cascade centrifugation, can be applied to tune nanosheet lateral sizes and thicknesses. Various starting materials from powders to high-quality crystals can be used for the process. However, the impact of the starting material on the dispersion quality and quantity is widely unexplored. Here, we performed liquid phase exfoliation combined with liquid cascade centrifugation on six different MoS2 starting materials and assessed nanosheet yield, lateral size, and layer number using established quantitative spectroscopic metrics. We show that both yield and nanosheet dimensions are widely unaffected by the choice of the starting material. In contrast, some impact is observed with respect to optical properties, such as photoluminescence of the monolayers. We find that the photoluminescence intensity is lower for small crystallite bulk materials.

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Oxidation Behavior of Alumina Fiber Reinforced SiCO Composites for a Co‐Firing Process on Steel Pipes

2019

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In order to increase the operating temperature of power plants up to 700 C and to reduce the revision intervals at the current temperatures (550 C), the temperature and pressure-induced load of a hot steam pipe can be decreased by a ceramic matrix composite (CMC) jacket, that consist of alumina fibers (Nextel 610) within a SiCO matrix. Due to the creep resistance of the CMC jacket, the lifetime of the steel tube is significantly enhanced [Spatz et al., J. Eur. Ceram. Soc. 2018, 38, 2954. Within this work, the influence of oxidation of this specifically developed CMC jacket material on the mechanical properties and microstructure is examined at 550 C up to 500 h. Polymer infiltration and pyrolysis (PIP) is applied in order to fabricate unidirectional fiber reinforced oxide CMCs at 750 C in N 2 . Open porosities below 15%, shear strengths up to 18 MPa, and tensile strength up to 230 MPa are obtained after 500 h at 550 C. In order to analyze the effect of oxidation and thermal treatment, the amount and the distribution of porosity, which cause significantly changes within the microstructure, and the mechanical properties of the oxide composites are studied and discussed.

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Nadja Wolff

Impact of the MoS₂ Starting Material on the Dispersion Quality and Quantity after Liquid Phase Exfoliation

Oxidation Behavior of Alumina Fiber Reinforced SiCO Composites for a Co‐Firing Process on Steel Pipes

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Nadja Wolff

Impact of the MoS2 Starting Material on the Dispersion Quality and Quantity after Liquid Phase Exfoliation

Oxidation Behavior of Alumina Fiber Reinforced SiCO Composites for a Co‐Firing Process on Steel Pipes

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Impact of the MoS₂ Starting Material on the Dispersion Quality and Quantity after Liquid Phase Exfoliation