Lisa Handl scite author profile

Lisa Handl

4Publications

79Citation Statements Received

77Citation Statements Given

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Affiliations

University of Ulm, Helmholtz-Institute Ulm

Publications

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Electron tomography reveals the fibril structure and lipid interactions in amyloid deposits

Kollmer

Meinhardt

Haupt

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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Electron tomography is an increasingly powerful method to study the detailed architecture of macromolecular complexes or cellular structures. Applied to amyloid deposits formed in a cell culture model of systemic amyloid A amyloidosis, we could determine the structural morphology of the fibrils directly in the deposit. The deposited fibrils are arranged in different networks, and depending on the relative fibril orientation, we can distinguish between fibril meshworks, fibril bundles, and amyloid stars. These networks are frequently infiltrated by vesicular lipid inclusions that may originate from the death of the amyloid-forming cells. Our data support the role of nonfibril components for constructing fibril deposits and provide structural views of different types of lipid-fibril interactions.aggregation | conformational disease | electron tomography | protein assembly | prion

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The Effect of Electrode Morphology on Solid Oxide Fuel Cell Performance

Pharoah

Handl²,

Schmidt³

2015

ECS Trans.

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Three different electrode morphologies are generated from three different starting powders, spheres representing non-aggregated powders, agglomerates of spheres and high aspect ratio cylinders modelling splats formed in plasma sprays. Electrodes from each morphology are analysed using finite volumes to predict the effective transport coefficients, the triple phase boundary length and the performance of the electrode. The same structures are also analysed using morphological characterization which can be much more efficient. It was found that high aspect ratio base particles are favourable, and that constrictivity correlates best with the finite volume transport calculations.

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Structural analysis and tracking of micron-sized glass particles during shear deformation: A study based on time-resolved tomographic data

Handl

Torbahn

Spettl

et al. 2017

Advanced Powder Technology

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Mesostructural investigation of micron-sized glass particles during shear deformation – An experimental approach vs. DEM simulation

et al. 2017

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The interdependency of structure and mechanical features of a cohesive powder packing is on current scientific focus and far from being well understood. Although the Discrete Element Method provides a well applicable and widely used tool to model powder behavior, non-trivial contact mechanics of micron-sized particles demand a sophisticated contact model. Here, a direct comparison between experiment and simulation on a particle level offers a proper approach for model validation. However, the simulation of a full scale sheartester experiment with micron-sized particles, and hence, validating this simulation remains a challenge. We address this task by down scaling the experimental setup: A fully functional micro shear-tester was developed and implemented into an X-ray tomography device in order to visualize the sample on a bulk and particle level within small bulk volumes of the order of a few micro liter under well-defined consolidation. Using spherical micron-sized particles (30 μm), shear tests with a particle number accessible for simulations can be performed. Moreover, particle level analysis allows for a direct comparison of experimental and numerical results, e.g., regarding structural evolution. In this talk, we focus on density inhomogeneity and shear induced heterogeneity during compaction and shear deformation.

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Lisa Handl

Electron tomography reveals the fibril structure and lipid interactions in amyloid deposits

The Effect of Electrode Morphology on Solid Oxide Fuel Cell Performance

Structural analysis and tracking of micron-sized glass particles during shear deformation: A study based on time-resolved tomographic data

Mesostructural investigation of micron-sized glass particles during shear deformation – An experimental approach vs. DEM simulation

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