Your search keyword '"Seoane, Javier"' showing total 6 results

1. Plasma-Enabled Amorphous TiO2Nanotubes as Hydrophobic Support for Molecular Sensing by SERS

Author

Filippin, Nicolas, Castillo-Seoane, Javier, López-Santos, M. Carmen, Rojas, Cristina T., Ostrikov, Kostya, Barranco, Angel, Sánchez-Valencia, Juan R., and Borrás, Ana

Abstract

We devise a unique heteronanostructure array to overcome a persistent issue of simultaneously utilizing the surface-enhanced Raman scattering, inexpensive, Earth-abundant materials, large surface areas, and multifunctionality to demonstrate near single-molecule detection. Room-temperature plasma-enhanced chemical vapor deposition and thermal evaporation provide high-density arrays of vertical TiO2nanotubes decorated with Ag nanoparticles. The role of the TiO2nanotubes is 3-fold: (i) providing a high surface area for the homogeneous distribution of supported Ag nanoparticles, (ii) increasing the water contact angle to achieve superhydrophobic limits, and (iii) enhancing the Raman signal by synergizing the localized electromagnetic field enhancement (Ag plasmons) and charge transfer chemical enhancement mechanisms (amorphous TiO2) and by increasing the light scattering because of the formation of vertically aligned nanoarchitectures. As a result, we reach a Raman enhancement factor of up to 9.4 × 107, satisfying the key practical device requirements. The enhancement mechanism is optimized through the interplay of the optimum microstructure, nanotube/shell thickness, Ag nanoparticles size distribution, and density. Vertically aligned amorphous TiO2nanotubes decorated with Ag nanoparticles with a mean diameter of 10–12 nm provide enough sensitivity for near-instant concentration analysis with an ultralow few-molecule detection limit of 10–12M (Rh6G in water) and the possibility to scale up device fabrication.

Published

2020

2. Faster Initial Viral Decay in Female Children Living With HIV

Author

Domínguez-Rodríguez, Sara, Serna-Pascual, Miquel, Foster, Caroline, Palma, Paolo, Nastouli, Eleni, De Rossi, Anita, Seoane, Javier, Rossi, Paolo, Giaquinto, Carlo, Tagarro, Alfredo, and Rojo, Pablo

Abstract

Limited data exist regarding sex bias and viral decay in children with HIV. We investigated the sex differences in viral decay in 25 perinatally HIV-infected children. Females presented faster phase I viral decay regardless of their age at antiretroviral therapy (ART) initiation, baseline CD4 percentages, or baseline RNA levels. Also, for each month elapsed under ART, females had faster viral decay than males.We investigated the sex differences in viral decay in 25 HIV perinatally infected children. Females presented faster phase-I viral decay regardless their age at ART initiation, baseline CD4 percentage, or baseline RNA levels.

Published

2021

3. Photoelectrochemical Water Splitting with ITO/WO3/BiVO4/CoPi Multishell Nanotubes Enabled by a Vacuum and Plasma Soft-Template Synthesis

Author

Gil-Rostra, Jorge, Castillo-Seoane, Javier, Guo, Qian, Jorge Sobrido, Ana Belén, González-Elipe, Agustín R., and Borrás, Ana

Abstract

A common approach for the photoelectrochemical (PEC) splitting of water relies on the application of WO3porous electrodes sensitized with BiVO4acting as a visible photoanode semiconductor. In this work, we propose a new architecture of photoelectrodes consisting of supported multishell nanotubes (NTs) fabricated by a soft-template approach. These NTs are formed by a concentric layered structure of indium tin oxide (ITO), WO3, and BiVO4, together with a final thin layer of cobalt phosphate (CoPi) co-catalyst. The photoelectrode manufacturing procedure is easily implementable at a large scale and successively combines the thermal evaporation of single crystalline organic nanowires (ONWs), the magnetron sputtering deposition of ITO and WO3, and the solution dripping and electrochemical deposition of, respectively, BiVO4and CoPi, plus the annealing in air under mild conditions. The obtained NT electrodes depict a large electrochemically active surface and outperform the efficiency of equivalent planar-layered electrodes by more than one order of magnitude. A thorough electrochemical analysis of the electrodes illuminated with blue and solar lights demonstrates that the characteristics of the WO3/BiVO4Schottky barrier heterojunction control the NT electrode efficiency, which depended on the BiVO4outer layer thickness and the incorporation of the CoPi electrocatalyst. These results support the high potential of the proposed soft-template methodology for the large-area fabrication of highly efficient multishell ITO/WO3/BiVO4/CoPi NT electrodes for the PEC splitting of water.

Published

2023

4. Interactions Between an Apex Predator and Mesopredators Across a Landscape with Human Interference

Author

Zanón Martínez, Juan I., Seoane, Javier, Kelly, Marcella J., Sarasola, José Hernán, and Travaini, Alejandro

Published

2022

5. Plasma engineering of microstructured piezo – Triboelectric hybrid nanogenerators for wide bandwidth vibration energy harvesting

Author

García-Casas, Xabier, Ghaffarinejad, Ali, Aparicio, Francisco J., Castillo-Seoane, Javier, López-Santos, Carmen, Espinós, Juan P., Cotrino, José, Sánchez-Valencia, Juan Ramón, Barranco, Ángel, and Borrás, Ana

Abstract

We introduce herein the advanced application of low-pressure plasma procedures for the development of piezo and triboelectric mode I hybrid nanogenerators. Thus, plasma assisted deposition and functionalization methods are presented as key enabling technologies for the nanoscale design of ZnO polycrystalline shells, the formation of conducting metallic cores in core@shell nanowires, and for the solventless surface modification of polymeric coatings and matrixes. We show how the perfluorinated chains grafting of polydimethylsiloxane (PDMS) provides a reliable approach to increase the hydrophobicity and surface charges at the same time that keeping the PDMS mechanical properties. In this way, we produce efficient Ag/ZnO convoluted piezoelectric nanogenerators supported on flexible substrates and embedded in PDMS compatible with a contact–separation triboelectric architecture. Factors like crystalline texture, ZnO thickness, nanowires aspect ratio, and surface chemical modification of the PDMS are explored to optimize the power output of the nanogenerators aimed for harvesting from low-frequency vibrations. Just by manual triggering, the hybrid device can charge a capacitor to switch on an array of color LEDs. Outstandingly, this simple three-layer architecture allows for harvesting vibration energy in a wide bandwidth, thus, we show the performance characteristics for frequencies between 1 Hz and 50 Hz and demonstrate the successful activation of the system up to ca. 800 Hz.

Published

2022

6. The Extended Brow Lift: The Toucan Technique

Author

Bosch, Gonzalo, Jacobo, Oscar, Seoane, Javier, Martirena, Adriana, and los Ríos, Gimena

Abstract

: Brow ptosis is the main consequence of aging in the upper third of the face. Many methods have been described to correct it: skin excisions of the brow hairline, skin excisions of the forehead natural creases, skin trimmings of the temporal, coronal, or forehead hairline flaps, and endoscopic methods [1,15,17,18,24,26,27]. The authors created a procedure which is based on a forehead-temporal subcutaneous flap and a muscular relocation. It treats the brow ptosis and its surrounding area—temporal ptosis, upper and lower lateral eyelid ptosis, crow's feet—and at the same time improves the sclera show or ectropion. The method preserves the sideburn and the temporal hairline and can reduce the width between the temporal hairline and the lateral end of the eyebrow. The method produces maximum improvement, with high-quality scars and minimal evidence of surgery. The procedure is called "The Toucan Technique," due to the shape of the skin resection which looks like a toucan bird [11,13,14].

Published

2002