Tammo Rukat scite author profile

Tammo Rukat

4Publications

63Citation Statements Received

127Citation Statements Given

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Amazon (Germany), Humboldt-Universität zu Berlin

Publications

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Chain-length dependent growth dynamics of n-alkanes on silica investigated by energy-dispersive x-ray reflectivity in situ and in real-time

Weber

Bommel

Rukat

et al. 2012

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We compare the growth dynamics of the three n-alkanes C(36)H(74), C(40)H(82), and C(44)H(90) on SiO(2) using real-time and in situ energy-dispersive x-ray reflectivity. All molecules investigated align in an upright-standing orientation on the substrate and exhibit a transition from layer-by-layer growth to island growth after about 4 monolayers under the conditions employed. Simultaneous fits of the reflected intensity at five distinct points in reciprocal space show that films formed by longer n-alkanes roughen faster during growth. This behavior can be explained by a chain-length dependent height of the Ehrlich-Schwoebel barrier. Further x-ray diffraction measurements after growth indicate that films consisting of longer n-alkanes also incorporate more lying-down molecules in the top region. While the results reveal behavior typical for chain-like molecules, the findings can also be useful for the optimization of organic field effect transistors where smooth interlayers of n-alkanes without coexistence of two or more molecular orientations are required.

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Unit Testing Data with Deequ

Schelter

Bießmann

Lange

et al. 2019

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Learning to Validate the Predictions of Black Box Classifiers on Unseen Data

Schelter

Rukat

Bießmann

2020

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Dynamic contrast-enhanced MRI in mice: An investigation of model parameter uncertainties

Rukat

Walker‐Samuel²,

Reinsberg

2014

Magn. Reson. Med.

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Tammo Rukat

Chain-length dependent growth dynamics of n-alkanes on silica investigated by energy-dispersive x-ray reflectivity in situ and in real-time

Unit Testing Data with Deequ

Learning to Validate the Predictions of Black Box Classifiers on Unseen Data

Dynamic contrast-enhanced MRI in mice: An investigation of model parameter uncertainties

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