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3 article(s) from Schwaiger, Ruth

Bio-inspired micro-to-nanoporous polymers with tunable stiffness

Julia Syurik,
Ruth Schwaiger,
Prerna Sudera,
Stephan Weyand,
Siegbert Johnsen,
Gabriele Wiegand and
Hendrik Hölscher

Beilstein J. Nanotechnol. 2017, 8, 906–914, doi:10.3762/bjnano.8.92

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Figure 1: A schematic of the foaming process showing the critical steps to obtain a sample with a controlled ...

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Figure 2: SEM images of the cross section with a gradient of pores before and after indentation. (a) The orig...

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Figure 3: Pore distribution for the indentation columns 1 (top) and 5 (bottom). All presented data fit to a l...

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Figure 4: Relation between pore wall thickness, pore diameter, and pore fraction in micro-to-nanocellular PMM...

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Figure 5: Storage and loss moduli (a) and loss factor (b) measured on the 5 × 4 arrays with flat-punch indent...

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Figure 6: Change of the number- (M_n) and mass- (M_w) average of the molar mass in PMMA before and after foamin...

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Full Research Paper

Published 21 Apr 2017

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Annealing-induced recovery of indents in thin Au(Fe) bilayer films

Anna Kosinova,
Ruth Schwaiger,
Leonid Klinger and
Eugen Rabkin

Beilstein J. Nanotechnol. 2016, 7, 2088–2099, doi:10.3762/bjnano.7.199

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Figure 1: The microstructure of the as-deposited Au(Fe) film. (a) High-resolution scanning electron microscop...

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Figure 2: AFM micrograph of the surface of the as-deposited Au(Fe) film, four months after deposition.

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Figure 3: AFM topography images of one and the same imprint produced at P = 0.2 mN (a) after indentation, aft...

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Figure 4: AFM topography images of nanoimprints produced at P = 0.2 mN (a) after indentation, after annealing...

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Figure 5: A three-dimensional AFM image of the indent after annealing for (a) 290 min and AFM profiles taken ...

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Figure 6: Three-dimensional AFM image of the hole in the Au(Fe) film far from the indented regions after anne...

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Figure 7: The simulated surface topography of the indent evolving by a surface diffusion mechanism, for diffe...

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Figure 8: Schematic illustration of indent evolution with increasing annealing time: (a) before annealing, (b...

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Figure 9: (a) Cross-sectional SEM image from the region indented at a high load (P = 1 mN), and (b) of the un...

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Full Research Paper

Published 28 Dec 2016

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Hydration of magnesia cubes: a helium ion microscopy study

Ruth Schwaiger,
Johannes Schneider,
Gilles R. Bourret and
Oliver Diwald

Beilstein J. Nanotechnol. 2016, 7, 302–309, doi:10.3762/bjnano.7.28

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Figure 1: Effect of environmental water under high-vacuum conditions. Low-magnification HIM images of MgO cub...

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Figure 2: Morphological changes of MgO cubes under high-vacuum conditions. (a–c) High-magnification HIM image...

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Figure 3: Quantification of morphological changes: Curves showing the edge length increase factor of MgO cube...

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Figure 4: In addition to morphological changes under high-vacuum conditions, the MgO cubes embedded in the as...

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Figure 5: Helium ion microscopy images of vapor-phase-grown MgO cubes before (a,c) and after (b,d) exposure t...

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Published 29 Feb 2016

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