Advanced Materials Interfaces

Original data for Supplementary Videos of "Enhancing Spontaneous Droplet Motion on Structured Surfaces with Tailored Wedge Design" by Wang et al., Adv. Mater. Interfaces. 2020 (doi: 10.1002/admi.202000520). The data are video recordings during experiments designed to verify the proposed theoretical model on prediction of spontaneous droplet movement on patterned surfaces with straight and curved wedges. The designed wedges can be described by the profile functions y = 0.009775 x^2 + 0.01534 x − 0.03014 (in mm, "curved wedge") and y = tan (3°)x + 0.2661 (in mm, "straight wedge"). – video “curve 5ul” compares the motion of 5 ml droplets placed on the curved wedge at three positions x0 away from the wedge tip; – video “curve x0 4.7mm” compares the motion of droplets of volume 3, 4 and 5 ml placed on the curved wedge at x0= 4.7 mm from the wedge tip; – video “straight 5ul” compares the motion of 5 ml droplets placed on the straight wedge at three positions x0 away from the wedge tip; – video “straight x0 6.0mm” compares the motion of droplets of volume 3, 4 and 5 ml placed on the straight wedge at x0= 6.0 mm from the wedge tip.

The datasets from (Hard Energy) X-ray photoelectron spectroscopy, X-ray diffraction and Scanning Electron Microsopy are related to the publication G. Chemello, X. Knigge, D. Ciornii, B.P. Reed, A.J. Pollard, C.A. Clifford, T. Howe, N. Vyas, V.-D. Hodoroaba, J. Radnik "Influence of the morphology on the functionalization of graphene nanoplatelets analyzed by comparative photoelectron spectroscopy with soft and hard X-rays" Advanced Materials Interfaces (2023), DOI: 10.1002/admi.202300116. Details of the materials and the experimental procedures are described in this publications. The filenames contain the material (g5 or g6), functionalization (Fluorine -f, Oxygen _o and raw material _raw), methods (XPS/HAXPES survey or high resolution, XRD, SEM). For the fitted spectra the peak is given: c1s, o1s, f1s. The data are given as tif-files for SEM (*tif). as asc ii files for XRD (*.xy) and the fitted XPS/HAXPES-spectra (*.dat) and as vamas data files for the XPS/HAXPES raw-data (*.npl).

The morphologies of products were characterized by field-emission scanning electron microscopy (FESEM, Sirion 200). The zeta potential of the hydrogel film and Au NPs were measured by the Malvern Zetasizer Nano ZS90. The extinction spectrum was obtained through the microspectrometre system from Ideaoptics Corp. Microscopic images of the hydrogel film@Au NPs were acquired using an optical microscope equipped with a digital camera (DLC300L, 3.0M). The research of the SERS performance was conducted by using a confocal microprobe Raman spectrometer (Renishaw Invia, 50× objective).

The melamine sponge is used as the carbon skeleton template, and SDS surface modification is used to increase the cation adsorption capacity. After high temperature annealing, the product is obtained, and its electrochemical performance is tested using the Chenhua 760E equipment;• Data collection time: 2017.08-2018.04;• Table data: literature performance comparison data• Some individual data may not be retained;• There are errors in individual data. The reasons for introducing errors include: differences in N and S content of commercial melamine sponge, temperature control of annealing tubular furnace, differences in intrinsic resistance of electrode, and differences in sensitivity of electrochemical workstation itself;

This data set contains the source data of the publication: Cui, Z., Zhang, S., Wang, Y., Tormey, L., Kanies, O.S., Spero, R.C., Fisher, J.K. & Toonder, J.M.J. den (2021). Self-cleaning surfaces realized by biologically sized magnetic artificial cilia. Adv. Mater. Interfaces 2021, 2102016. https://doi.org/10.1002/admi.202102016. In this study, biologically-sized magnetic artificial cilia (b-MAC) which are only 45 micrometers long and that are randomly distributed on the surface, are used to remove microparticles. The data are experimentally obtained with methods described in the publication.

This data set is uploaded as supporting information for the publication entitled: Fusing ToF-SIMS images for spatial-spectral resolution enhancement using a convolutional neural network Files are as follows: gold_mesh_data.mat - MATLAB workspace file containing peak-picked ToF-SIMS data (hyperspectral array) for the gold mesh sample. tumor_tissue_data.mat - MATLAB workspace file containing peak-picked ToF-SIMS data (hyperspectral array) for the tumor tissue sample. Additional details about the datasets can be found in the published article. If you use this data set in your work, please cite our work as follows: Gardner, W., Winkler, D. A., Maliki, R., Cutts, S. M., Ellis, S., Anderson, R. L., Muir, B. W., Pigram, P. J., Fusing ToF-SIMS Images for Spatial-Spectral Resolution Enhancement using a Convolutional Neural Network. Adv. Mater. Interfaces 2022, 2201464. https://doi.org/10.1002/admi.202201464

This data set is uploaded as supporting information for the publication entitled: Fusing ToF-SIMS images for spatial-spectral resolution enhancement using a convolutional neural network Files are as follows: gold_mesh_data.mat - MATLAB workspace file containing peak-picked ToF-SIMS data (hyperspectral array) for the gold mesh sample. tumor_tissue_data.mat - MATLAB workspace file containing peak-picked ToF-SIMS data (hyperspectral array) for the tumor tissue sample. Additional details about the datasets can be found in the published article. If you use this data set in your work, please cite our work as follows: Gardner, W., Winkler, D. A., Maliki, R., Cutts, S. M., Ellis, S., Anderson, R. L., Muir, B. W., Pigram, P. J., Fusing ToF-SIMS Images for Spatial-Spectral Resolution Enhancement using a Convolutional Neural Network. Adv. Mater. Interfaces 2022, 2201464. https://doi.org/10.1002/admi.202201464

The data corresponds to the published paper (on the gating mechanism of slippery liquid-infused porous membranes) which is the second chapter of my PhD thesis. The data contains following:1- All the gas-liquid porometry results of liquid-infused membranes made with different oils.2- Analysis of the aforementioned results and liquid film thickness calculation using annular two phase flow models.3- Results showing the re-infusion time and washburn analysis4- Water contact angle measurements results (static and advancing-receding CA)5- Pore size distribution results of the membrane6- An example of a Matlab file used for obtaining tikz files in order to plot the final graphs in Latex.

The data corresponds to the published paper (on the gating mechanism of slippery liquid-infused porous membranes) which is the second chapter of my PhD thesis. The data contains following:1- All the gas-liquid porometry results of liquid-infused membranes made with different oils.2- Analysis of the aforementioned results and liquid film thickness calculation using annular two phase flow models.3- Results showing the re-infusion time and washburn analysis4- Water contact angle measurements results (static and advancing-receding CA)5- Pore size distribution results of the membrane6- An example of a Matlab file used for obtaining tikz files in order to plot the final graphs in Latex.

Raw data for figures in main text and supporting information.