Your search keyword '"Eljarrat, Alberto"' showing total 4 results

1. Poly(ionic liquid) Nanovesicle-Templated Carbon Nanocapsules Functionalized with Uniform Iron Nitride Nanoparticles as Catalytic Sulfur Host for Li–S Batteries

Author

Xie, Dongjiu, Xu, Yaolin, Wang, Yonglei, Pan, Xuefeng, Härk, Eneli, Kochovski, Zdravko, Eljarrat, Alberto, Müller, Johannes, Koch, Christoph T., Yuan, Jiayin, Lu, Yan, Xie, Dongjiu, Xu, Yaolin, Wang, Yonglei, Pan, Xuefeng, Härk, Eneli, Kochovski, Zdravko, Eljarrat, Alberto, Müller, Johannes, Koch, Christoph T., Yuan, Jiayin, and Lu, Yan

Abstract

Poly(ionic liquid)s (PIL) are common precursors for heteroatom-doped carbon materials. Despite a relatively higher carbonization yield, the PIL-to-carbon conversion process faces challenges in preserving morphological and structural motifs on the nanoscale. Assisted by a thin polydopamine coating route and ion exchange, imidazolium-based PIL nanovesicles were successfully applied in morphology-maintaining carbonization to prepare carbon composite nanocapsules. Extending this strategy further to their composites, we demonstrate the synthesis of carbon composite nanocapsules functionalized with iron nitride nanoparticles of an ultrafine, uniform size of 3–5 nm (termed “FexN@C”). Due to its unique nanostructure, the sulfur-loaded FexN@C electrode was tested to efficiently mitigate the notorious shuttle effect of lithium polysulfides (LiPSs) in Li–S batteries. The cavity of the carbon nanocapsules was spotted to better the loading content of sulfur. The well-dispersed iron nitride nanoparticles effectively catalyze the conversion of LiPSs to Li2S, owing to their high electronic conductivity and strong binding power to LiPSs. Benefiting from this well-crafted composite nanostructure, the constructed FexN@C/S cathode demonstrated a fairly high discharge capacity of 1085 mAh g–1 at 0.5 C initially, and a remaining value of 930 mAh g–1 after 200 cycles. In addition, it exhibits an excellent rate capability with a high initial discharge capacity of 889.8 mAh g–1 at 2 C. This facile PIL-to-nanocarbon synthetic approach is applicable for the exquisite design of complex hybrid carbon nanostructures with potential use in electrochemical energy storage and conversion.

Published

2022

2. A consistent picture of excitations in cubic BaSnO3 revealed by combining theory and experiment

Author

Aggoune, Wahib, Eljarrat, Alberto, Nabok, Dmitrii, Irmscher, Klaus, Zupancic, Martina, Galazka, Zbigniew, Albrecht, Martin, Koch, Christoph, Draxl, Claudia, Aggoune, Wahib, Eljarrat, Alberto, Nabok, Dmitrii, Irmscher, Klaus, Zupancic, Martina, Galazka, Zbigniew, Albrecht, Martin, Koch, Christoph, and Draxl, Claudia

Abstract

This article was supported by the German Research Foundation (DFG) and the Open Access Publication Fund of Humboldt-Universität zu Berlin., Among the transparent conducting oxides, the perovskite barium stannate is most promising for various electronic applications due to its outstanding carrier mobility achieved at room temperature. However, most of its important characteristics, such as band gaps, effective masses, and absorption edge, remain controversial. Here, we provide a fully consistent picture by combining state-of-the-art ab initio methodology with forefront electron energy-loss spectroscopy and optical absorption measurements. Valence electron energy-loss spectra, featuring signals originating from band gap transitions, are acquired on defect-free sample regions of a BaSnO3 single crystal. These high-energy-resolution measurements are able to capture also very weak excitations below the optical gap, attributed to indirect transitions. By temperature-dependent optical absorption measurements, we assess band-gap renormalization effects induced by electron-phonon coupling. Overall, we find for the effective electronic mass, the direct and the indirect gap, the optical gap, as well as the absorption onsets and spectra, excellent agreement between both experimental techniques and the theoretical many-body results, supporting also the picture of a phonon-mediated mechanism where indirect transitions are activated by phonon-induced symmetry lowering. This work demonstrates a fruitful connection between different high-level theoretical and experimental methods for exploring the characteristics of advanced materials., Peer Reviewed

Published

2022

3. 3D Visualization of the Iron Oxidation State in FeO/Fe3O4 Core-Shell Nanocubes from Electron Energy Loss Tomography

Author

Torruella, Pau, Arenal, Raul, de la Pena, Francisco, Saghi, Zineb, Yedra, Lluis, Eljarrat, Alberto, Lopez-Conesa, Lluis, Estrader, Marta, Lopez-Ortega, Alberto, Salazar-Alvarez, Germán, Nogues, Josep, Ducati, Caterina, Midgley, Paul A., Peiro, Francesca, Estrade, Sonia, Torruella, Pau, Arenal, Raul, de la Pena, Francisco, Saghi, Zineb, Yedra, Lluis, Eljarrat, Alberto, Lopez-Conesa, Lluis, Estrader, Marta, Lopez-Ortega, Alberto, Salazar-Alvarez, Germán, Nogues, Josep, Ducati, Caterina, Midgley, Paul A., Peiro, Francesca, and Estrade, Sonia

Abstract

The physicochemical properties used in numerous advanced nanostructured devices are directly controlled by the oxidation states of their constituents. In this work we combine electron energy-loss spectroscopy, blind source separation, and computed tomography to reconstruct in three dimensions the distribution of Fe2+ and Fe3+ ions in a FeO/Fe3O4 core/shell cube-shaped nanoparticle with nanometric resolution. The results highlight the sharpness of the interface between both oxides and provide an average shell thickness, core volume, and average cube edge length measurements in agreement with the magnetic characterization of the sample.

Published

2016

4. 3D visualization of the iron oxidation state in FeO/Fe3O4 core-shell nanocubes from electron energy loss tomography

Author

Ministerio de Ciencia e Innovación (España), Ministerio de Economía y Competitividad (España), European Commission, European Research Council, Generalitat de Catalunya, Knut and Alice Wallenberg Foundation, Royal Society (UK), Torruella, Pau, Arenal, Raúl, Peña, Francisco de la, Saghi, Zineb, Yedra, Lluís, Eljarrat, Alberto, López-Conesa, Lluís, Estrader, Marta, López-Ortega, Alberto, Salazar-Álvarez, G., Nogués, Josep, Ducati, Caterina, Midgley, Paul A., Peiró, Francesca, Estradé, Sònia, Ministerio de Ciencia e Innovación (España), Ministerio de Economía y Competitividad (España), European Commission, European Research Council, Generalitat de Catalunya, Knut and Alice Wallenberg Foundation, Royal Society (UK), Torruella, Pau, Arenal, Raúl, Peña, Francisco de la, Saghi, Zineb, Yedra, Lluís, Eljarrat, Alberto, López-Conesa, Lluís, Estrader, Marta, López-Ortega, Alberto, Salazar-Álvarez, G., Nogués, Josep, Ducati, Caterina, Midgley, Paul A., Peiró, Francesca, and Estradé, Sònia

Abstract

The physicochemical properties used in numerous advanced nanostructured devices are directly controlled by the oxidation states of their constituents. In this work we combine electron energy-loss spectroscopy, blind source separation, and computed tomography to reconstruct in three dimensions the distribution of Fe and Fe ions in a FeO/FeO core/shell cube-shaped nanoparticle with nanometric resolution. The results highlight the sharpness of the interface between both oxides and provide an average shell thickness, core volume, and average cube edge length measurements in agreement with the magnetic characterization of the sample.

Published

2016