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Materials Science and Engineering: B

ISSN: 0921-5107

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Datasets associated with articles published in Materials Science and Engineering: B

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1970
2024
1970 2024
18 results
  • Data for: Evolution of the external quantum efficiency of Si-based PV minimodules with encapsulated down-shifters and aged under UV radiation
    Raw data of the manuscript (EQE spectra and UV degradation)
    • Dataset
  • Data for: Development of Composite Nanoparticles Composed of Silica-Coated Nanorods and Single Nanometer-Sized Gold Nanoparticles Toward a Novel X-ray Contrast Agent
    Gold is expected to function as a high contrast agent for X-ray computed tomography imaging as it has high X-ray absorptivity owing to a large atomic number compared to commercial materials such as barium and iodine. The present work proposes a preparation method for core-shell nanoparticles composed of Au formation with a nanorod structure (AuNR), SiO2, and a single nanometer-sized Au (sAu), toward imaging and photothermal therapy. The AuNRs were silica-coated using a sol-gel method (AuNR/SiO2). Thiol groups were introduced onto the AuNR/SiO2 nanoparticle surface (AuNR/SiO2-SH). A thiol-terminated PEG aqueous solution and sAu nanoparticle colloidal solution were added in turn to the AuNR/SiO2-SH dispersed in EtOH. The CT value of the composite nanoparticles solution was 702 HU. The CT values in tissues immediately increased after injection into a mouse. Their blood retention times were 3–6 h, much longer than the few minutes of a commercial X-ray contrast agent.
    • Dataset
  • Data for: Enhanced Dielectric Response and Thermal Conduction in Copper Nanoparticles Embedded Polyaniline Nanofibers
    The file contains all the data related to experiments mentioned in the manuscript.
    • Dataset
  • Data for: SODIUM ION CONDUCTING GEL POLYMER ELECTROLYTE USING POLY(VINYLIDENE FLUORIDE HEXAFLUOROPROPYLENE)
    Gel polymer electrolyte (GPE) films using polyvinylidene fluoride – hexafluoropropylene (PVdF – HFP) matrix were prepared for aim to achieve good sodium-ion conductivity at room temperature. GPE of PVF-HFP were formed by microporous PVDF-HFP membranes filled and swollen in different liquid electrolytes: GPEs were formed by microporous PVDF-HFP membranes filled and swollen in different liquid electrolytes: NaClO4, NaPF6 and NaTFSI salts dissolved in mixtures of carbonate solvents (propylene carbonate (PC), fluoroethylenecarbonate (FEC)) or ionic liquids (1-ethyl-3-methylimidazolium bis(trifluoromethane-sulfonyl)imide and 1-butyl-3-methyl bis(trifluoromethanesulfonyl)imide). The effect of different electrolytes on the structure and morphology, electrolyte absorption and sodium ionic conductivity of activated membrane were investigated. GPEs showed “sponge-like” structure with high porosity of 80 – 85 % and large pore size. The ionic conductivity of GPEs reached 1-2 mS.cm-1 at room temperature. Sodium intercalation into Na0.44MnO2 electrode was performed in coin-cell type by using GPEs as conduction media. Cycling data of sodium cell using PVdF-HFP/NaClO4 1M-PC:2%FEC exhibited an excellent stable specific capacity of 100 mAh.g-1 at room temperature.
    • Dataset
  • Data for: Investigation on Direct-current-driven Inorganic Electroluminescence in Rare-earth and Li co-doped ZnO Pellets
    EL spectra and XRD patterns of the rare-earth and Li doped ZnO pelletes.
    • Dataset
  • Data sheet of nanocomposites with F/N-doped ZnO
    The dataset for this research comprises the measurement results for pristine PVDF and PVDF-ZnO nanocomposites with and without fluorine/nitrogen doping. For TGA, DSC and XRD results each file contains the relevant data per experimental technique. Within each file worksheets correspond to the different materials. The column headers specify the variables and their associated units. For dielectric tests, the data is organised in separate files for permittivity, loss and imaginary modulus. The data are organised in worksheets by material in 2D arrays. The rows correspond to spectra at different measured temperatures and the columns to fixed frequency data. The materials nomenclature is as follows: -PVDF: pure PVDF -PVDF+5% ZnO: PVDF with 5% ZnO by weight -PVDF+10% ZnO: PVDF with 10% ZnO by weight -PVDF+15% ZnO: PVDF with 15% ZnO by weight -PVDF+5% F-ZnO: PVDF with 5% Fluorine doped (10% molar fraction) ZnO by weight -PVDF+10% F-ZnO: PVDF with 10% Fluorine doped (10% molar fraction) ZnO by weight -PVDF+15% F-ZnO: PVDF with 15% Fluorine doped (10% molar fraction) ZnO by weight -PVDF+5% N-ZnO: PVDF with 5% Nitrogen doped (10% molar fraction) ZnO by weight -PVDF+10% N-ZnO: PVDF with 10% Nitrogen doped (10% molar fraction) ZnO by weight -PVDF+15% N-ZnO: PVDF with 15% Nitrogen doped (10% molar fraction) ZnO by weight
    • Dataset
  • Data sheet of nanocomposites with F/N-doped ZnO
    The dataset for this research comprises the measurement results for pristine PVDF and PVDF-ZnO nanocomposites with and without fluorine/nitrogen doping. For TGA, DSC and XRD results each file contains the relevant data per experimental technique. Within each file worksheets correspond to the different materials. The column headers specify the variables and their associated units. For dielectric tests, the data is organised in separate files for permittivity, loss and imaginary modulus. The data are organised in worksheets by material in 2D arrays. The rows correspond to spectra at different measured temperatures and the columns to fixed frequency data. The materials nomenclature is as follows: -PVDF: pure PVDF -PVDF+5% ZnO: PVDF with 5% ZnO by weight -PVDF+10% ZnO: PVDF with 10% ZnO by weight -PVDF+15% ZnO: PVDF with 15% ZnO by weight -PVDF+5% F-ZnO: PVDF with 5% Fluorine doped (10% molar fraction) ZnO by weight -PVDF+10% F-ZnO: PVDF with 10% Fluorine doped (10% molar fraction) ZnO by weight -PVDF+15% F-ZnO: PVDF with 15% Fluorine doped (10% molar fraction) ZnO by weight -PVDF+5% N-ZnO: PVDF with 5% Nitrogen doped (10% molar fraction) ZnO by weight -PVDF+10% N-ZnO: PVDF with 10% Nitrogen doped (10% molar fraction) ZnO by weight -PVDF+15% N-ZnO: PVDF with 15% Nitrogen doped (10% molar fraction) ZnO by weight
    • Dataset
  • CCDC 610108: Experimental Crystal Structure Determination
    Related Article: R.H.Vora, Suat Hong Goh|2006|Mater.Sci.Eng.,B|132|24|doi:10.1016/j.mseb.2006.02.049
    • Dataset
  • CCDC 610109: Experimental Crystal Structure Determination
    Related Article: R.H.Vora, Suat Hong Goh|2006|Mater.Sci.Eng.,B|132|24|doi:10.1016/j.mseb.2006.02.049
    • Dataset
  • CCDC 2160664: Experimental Crystal Structure Determination
    Related Article: Füreya Elif Öztürkkan, Elaheh Teymouri, Mustafa Yüksek, Elif Akhüseyin Yıldız, Mustafa Sertçelik, Abdolali Alemi, Hacali Necefoğlu, Tuncer Hökelek|2023|Mater.Sci.Eng.,B|290|116331|doi:10.1016/j.mseb.2023.116331
    • Dataset
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