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567 results on '"Romano-Rodriguez, A."'

1. Full Silicon Pillar-based 1D Optomechanical cavities

Author

Jaramillo-Fernandez, Juliana, Poblet, Martin, Alonso-Tomás, David, Bertelsen, Christian Vinther, López-Aymerich, Elena, Arenas-Ortega, Daniel, Svendsen, Winnie E., Capuj, Néstor E., Romano-Rodríguez, Albert, and Navarro-Urrios, Daniel

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Nanomechanical resonators can serve as ultrasensitive, miniaturized force probes. While vertical structures like nanopillars are ideal for this purpose, transducing their motion is challenging. Pillar-based photonic crystals (PhCs) offer a potential solution by integrating optical transduction within the pillars. However, achieving high-quality PhCs is hindered by inefficient vertical light confinement. Here, we present a full-silicon 1D photonic crystal cavity based on nanopillars as a new platform with great potential for applications in force sensing and biosensing areas. Its unit cell consists of a silicon pillar with larger diameter at its top portion than at the bottom, which allows vertical light confinement and an energy bandgap in the near infrared range for transverse-magnetic (TM) polarization. We experimentally demonstrate optical cavities with Q-factors exceeding 1e3 constructed by inserting a defect within a periodic arrangement of this type of pillars. Given the fact that that each nanopillar naturally behaves as a nanomechanical cantilever, the fabricated geometries are excellent optomechanical (OM) photonic crystal cavities in which the mechanical motion of each nanopillar composing the cavity can be optically transduced. These novel geometries display enhanced mechanical properties, cost-effectiveness, integration possibilities, and scalability, and opens and new path in front of the widely used suspended Si beam OM cavities made on silicon-on-insulator., Comment: Main text: 15 pages, 5 figures Supplementary Information: 8 pages, 6 figures

Published
2024

8. Contributors

Author

Amal, Haitham, primary, Arregui, Francisco J., additional, Bouvet, Marcel, additional, Briand, Danick, additional, Cané, Carles, additional, Corres, Jesus M., additional, Debéda, Hélène, additional, Dufour, Isabelle, additional, Elosua, Cesar, additional, Fonseca, Luis, additional, Gardner, Julian William, additional, Guha, Prasanta Kumar, additional, Haick, Hossam, additional, Hernandez-Ramirez, Francisco, additional, Khan, Saleem, additional, Llobet, Eduard, additional, Matias, Ignacio R., additional, Penza, Michele, additional, Prades, Joan Daniel, additional, Rodriguez-Mendez, Mariluz, additional, Romano-Rodriguez, Albert, additional, de Saja, José Antonio, additional, Sauerwald, Tilman, additional, Schütze, Andreas, additional, and Smulko, Janusz, additional

Published
2020
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11. Highly sensitive SnO2 nanowire network gas sensors

Author

Domenech, Guillem, Sama, Jordi, Fabrega, Cristian, Gracia, Isabel, Cane, Carles, Barth, Sven, Romano-Rodriguez, Albert, Domenech, Guillem, Sama, Jordi, Fabrega, Cristian, Gracia, Isabel, Cane, Carles, Barth, Sven, and Romano-Rodriguez, Albert

Abstract

In this work we present a methodology for the localized growth of nanowires on prespecified areas of micro -hotplates that allows to independently adjust the devices resistance and its response to the gas. This is achieved through the fabrication stripes containing the nanowires, with or without the presence of a gap in the stripe, giving rise that the nanowires bridge the current. The methodology is demonstrated growing SnO2 nanowire-based chemoresistors and the fabricated sensors have been characterized against CO and NO2. The results show the capability of tailoring nanowire stripe sizes from 1 to 100 mu m, including empty areas of the same sizes along the sensing material, and a response increase by a factor of up to 500. We attribute the response enhancement to the absence of nucleation seeds in the gap area, where only arching nanowires can allow the current to flow between electrodes. In this way, the current flow along the bridge of nanowires is restricted principally to the surface conduction, which is controlled by the interaction of the nanowires with gases., Funding Agencies|Spanish Ministerio de Economia y Competitividad through project (AEI/FEDER, EU) [TEC2016-79898-C6]; Ministerio de Economia e Innovacion [PID2019-107697RB]; European Cooperation in Science and Technology [TD1105]; Deutsche Forschungsgemeinschaft (DFG, German Research Foundation) in the Heisenberg Programme [BA 6595/1-1, 413940754]

Published
2023
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14. Fabrication, Characterization and Performance of Low Power Gas Sensors Based on (GaxIn1-x)2O3 Nanowires

Author

Elena López-Aymerich, Guillem Domènech-Gil, Mauricio Moreno, Paolo Pellegrino, and Albert Romano-Rodriguez

Subjects
gas sensor, metal oxide, nanowires, Chemical technology, TP1-1185
Abstract

Active research in nanostructured materials aims to explore new paths for improving electronic device characteristics. In the field of gas sensors, those based on metal oxide single nanowires exhibit excellent sensitivity and can operate at extremely low power consumption, making them a highly promising candidate for a novel generation of portable devices. The mix of two different metal oxides on the same nanowire can further broaden the response of this kind of gas sensor, thus widening the range of detectable gases, without compromising the properties related to the active region miniaturization. In this paper, a first study on the synthesis, characterization and gas sensing performance of (GaxIn1-x)2O3 nanowires (NWs) is reported. Carbothermal metal-assisted chemical vapor deposition was carried out with different mixtures of Ga2O3, In2O3 and graphite powders. Structural characterization of the NWs revealed that they have a crystalline structure close to that of In2O3 nanowires, with a small amount of Ga incorporation, which highly depends on the mass ratio between the two precursors. Dedicated gas nanosensors based on single NWs were fabricated and tested for both ethanol and nitrogen dioxide, demonstrating an improved performance compared to similar devices based on pure In2O3 or Ga2O3 NWs.

Published
2021
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15. Pursuing the Diffraction Limit with Nano-LED Scanning Transmission Optical Microscopy

Author

Sergio Moreno, Joan Canals, Victor Moro, Nil Franch, Anna Vilà, Albert Romano-Rodriguez, Joan Daniel Prades, Daria D. Bezshlyakh, Andreas Waag, Katarzyna Kluczyk-Korch, Matthias Auf der Maur, Aldo Di Carlo, Sigurd Krieger, Silvana Geleff, and Angel Diéguez

Subjects
CMOS sensor, nano-LED, optical downscaling, nanopositioners, miniaturization, Chemical technology, TP1-1185
Abstract

Recent research into miniaturized illumination sources has prompted the development of alternative microscopy techniques. Although they are still being explored, emerging nano-light-emitting-diode (nano-LED) technologies show promise in approaching the optical resolution limit in a more feasible manner. This work presents the exploration of their capabilities with two different prototypes. In the first version, a resolution of less than 1 µm was shown thanks to a prototype based on an optically downscaled LED using an LED scanning transmission optical microscopy (STOM) technique. This research demonstrates how this technique can be used to improve STOM images by oversampling the acquisition. The second STOM-based microscope was fabricated with a 200 nm GaN LED. This demonstrates the possibilities for the miniaturization of on-chip-based microscopes.

Published
2021
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23. Comparative Studies of Chemoresistive Gas Sensors Based on Multiple Randomly Connected Wires and Arrays of Single-Wires

Author

Ondřej Chmela, Jakub Sadílek, Guillem Domènech-Gil, Isabel Gràcia, Albert Romano-Rodriguez, Jaromír Hubálek, and Stella Vallejos

Subjects
gas sensing, single-nanowire, multi-nanowire, sensor array, tungsten oxide, General Works
Abstract

Chemoresitive gas sensors based on multiple nanowires (M-NWs) randomly grown and electrically inter-connected on the top of interdigitated electrodes (IDEs) and arrays of single nanowires connected between faced nanoelectrodes (A-S-NWs) are developed in this work. These systems, consisting of gas sensitive tungsten oxide nanowires (NWs), are tested to NO2, and their performance regarding the response magnitude, sensitivity and response rate are evaluated here.

Published
2018
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31. Simulations and nanofabrication of photonic crystals based on silicon pillars for mechanical biosensors

Author

Florenci Serras, Sergi Hernández, Albert Romano-Rodriguez, Elena López-Aymerich, M. Moreno, Winnie Edith Svendsen, Maria Dimaki, and Daniel Navarro-Urrios

Subjects
Materials science, Silicon, business.industry, Band gap, Finite-difference time-domain method, Physics::Optics, chemistry.chemical_element, Wavelength, Nanolithography, chemistry, Optoelectronics, Photonics, business, Nanopillar, Photonic crystal
Abstract

In this work we present the results obtained on the simulation and nanofabrication of photonic crystals based on silicon nanopillars. The simulations show the formation of photonic band gaps within 1.31 and 1.89μm, with a gap-to-midgap ratio approaching 40%. The introduction of waveguides and cavities prove the adaptability of these structures to tune the wavelengths allowed to be transmitted through the system within the photonic band gaps. On the other hand, thanks to the use of advanced nanofabrication techniques, the modelled structures have been successfully fabricated.

Published
2021

32. Detection of cytokines in skeletal muscle tissue using optical SPR sensing platform

Author

Maria A. Ortega-Machuca, Mauricio Moreno-Sereno, Winnie Edith Svendsen, Javier Ramin-Azcin, Victor Parra-Monreal, and Albert Romano-Rodriguez

Subjects
Chemistry, education, Biophysics, Skeletal Muscle Tissue, medicine, Biomarker (medicine), Adhesion, Surface plasmon resonance, medicine.symptom, Reflectivity, Diffraction grating, Muscle contraction
Abstract

In this work we have explored the use of a Surface Plasmon resonance (SPR) phenomenon for the detection of interleukin-6 (IL-6), a pro-inflammatory cytokine. It plays an important role in the muscle tissues, having direct relation with muscle contraction and, thus, it is considered a biomarker for some types of muscular dystrophies. Here we show that SPR can be used as a real-time monitoring of the shift of the reflectance dip of a gold diffraction grating in front to the antibody adhesion to gold.

Published
2021

33. Electron beam lithography for contacting single nanowires on non-flat suspended substrates

Author

Albert Romano-Rodriguez, Isabel Gràcia, Juan Daniel Prades, Xavier Borrisé, Andreas Waag, Carles Cané, Guillem Domènech-Gil, Jordi Samà, Frederik Steib, Sven Barth, and Universitat de Barcelona

Subjects
Materials science, Fabrication, Nanowire, 02 engineering and technology, Substrate (electronics), 010402 general chemistry, 01 natural sciences, Focused ion beam, Nanomaterials, Nanosensor, Materials Chemistry, Electrical and Electronic Engineering, Instrumentation, Resistive touchscreen, Feixos electrònics, Nanoestructures, business.industry, Metals and Alloys, Electron beams, Gas detectors, Detectors de gasos, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Nanostructures, 0104 chemical sciences, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Optoelectronics, 0210 nano-technology, business, Electron-beam lithography
Abstract

A methodology based on the use of Electron Beam Lithography for contacting individual nanowires on top of non-flat micromembranes and microhotplates has been implemented, and the practical details have been exhaustively described. The different fabrication steps have been adapted to the substrate’s topology, requiring specific holders and conditions. The methodology is demonstrated on individual SnO2 nanowires, which, after fabrication, have been characterized as functional resistive gas nanosensors towards NH3 and benchmarked against similar devices fabricated using more conventional Dual Beam Focused Ion Beam techniques, demonstrating the superior properties of the here presented methodology, which can be further extended to other non-conventional suspended substrates and nanomaterials.

Published
2019

34. Gas Sensors Based on Individual (Ga, In)2O3 Nanowires

Author

Elena López-Aymerich, Guillem Domènech-Gil, Mauricio Moreno-Sereno, Joan Daniel Prades, Paolo Pellegrino, Sven Barth, and Albert Romano-Rodriguez

Subjects
gas sensor, nanowires, (Ga, In)2O3, new material, General Works
Abstract

In this work the growth and characterisation of (Ga, In)2O3 NWs inside a CVD furnace using different mixtures of Ga2O3 and In2O3 is reported. The NWs have been characterised by SEM, XRD and TEM, proving their cubic crystalline nature similar to In2O3 and the degree of incorporation of Ga in this lattice. Furthermore, gas nanosensors based on single NWs have been fabricated and measured, demonstrating the sensing properties of the synthesized material.

Published
2017
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35. Laser Interferometry for Broad Area SPR-Grating Couplers in Chemical Applications

Author

Mauricio Moreno-Sereno, Noemi Pérez, Guillem Domenech-Gil, Laura Parellada-Monreal, Miguel Martínez-Calderón, Mikel Gómez-Aranzadi, Nasser Darwish, Gemma G. Mandayo, and Albert Romano-Rodriguez

Subjects
Laser Interference Lithography, grating, Surface Plasmon Resonance, chemical sensor, General Works
Abstract

In this work, the fabrication of a SPR (Surface Plasmon Resonance)-grating coupler using Laser Interference Lithography (LIL) has been investigated, giving rise to large area diffraction gratings on a 100 nm-thick gold film. The period of the diffraction grating is Λ = 500 nm. The SPR sensor has been tested towards several liquids showing a maximum sensitivity of S = 390 nm/RIU.

Published
2017
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38. Fabrication, characterization and performance of low power gas sensors based on (GaxIn1-x)(2)O3 nanowires

Author

Guillem Domènech-Gil, M. Moreno, Paolo Pellegrino, Elena López-Aymerich, and Albert Romano-Rodriguez

Subjects
Fabrication, Materials science, Nanowire, Oxide, Nanotechnology, TP1-1185, 02 engineering and technology, Chemical vapor deposition, 010402 general chemistry, 01 natural sciences, Biochemistry, gas sensor, Analytical Chemistry, chemistry.chemical_compound, Nanosensor, Miniaturization, Graphite, Annan elektroteknik och elektronik, Electrical and Electronic Engineering, Instrumentation, Other Electrical Engineering, Electronic Engineering, Information Engineering, Nanotecnologia, Chemical technology, metal oxide, nanowires, Gas detectors, 021001 nanoscience & nanotechnology, Detectors de gasos, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Characterization (materials science), chemistry, 0210 nano-technology
Abstract

Active research in nanostructured materials aims to explore new paths for improving electronic device characteristics. In the field of gas sensors, those based on metal oxide single nanowires exhibit excellent sensitivity and can operate at extremely low power consumption, making them a highly promising candidate for a novel generation of portable devices. The mix of two different metal oxides on the same nanowire can further broaden the response of this kind of gas sensor, thus widening the range of detectable gases, without compromising the properties related to the active region miniaturization. In this paper, a first study on the synthesis, characterization and gas sensing performance of (GaxIn1-x)(2)O-3 nanowires (NWs) is reported. Carbothermal metal-assisted chemical vapor deposition was carried out with different mixtures of Ga2O3, In2O3 and graphite powders. Structural characterization of the NWs revealed that they have a crystalline structure close to that of In2O3 nanowires, with a small amount of Ga incorporation, which highly depends on the mass ratio between the two precursors. Dedicated gas nanosensors based on single NWs were fabricated and tested for both ethanol and nitrogen dioxide, demonstrating an improved performance compared to similar devices based on pure In2O3 or Ga2O3 NWs. Funding Agencies|Spanish Ministerio de Economia y Competitividad [TEC2013-48147-C6, TEC2016-79898-C6]; Ministerio de Economia e Innovacion [PID2019-107697RB-C41]

Published
2021

39. Nitrogen Dioxide Selective Sensor for Humid Environments Based on Octahedral Indium Oxide

Author

Guillem Domènech-Gil, Carles Cané, Albert Romano-Rodriguez, and Isabel Gràcia

Subjects
Nanoteknik, Fabrication, Materials science, nitrogen dioxide, Oxide, chemistry.chemical_element, Signalbehandling, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, gas sensor, chemistry.chemical_compound, Nitrogen dioxide, indium oxide, business.industry, Outdoor air quality, humidity, Humidity, General Medicine, Dielectrophoresis, 021001 nanoscience & nanotechnology, 0104 chemical sciences, chemistry, Electrode, microstructures, Signal Processing, Optoelectronics, Nano Technology, 0210 nano-technology, business, Indium
Abstract

We report the growth of micrometer-sized In2O3 octahedral structures, which are next aligned in chains using dielectrophoresis on top of microhotplates with prepatterned electrodes and integrated heater to work as chemoresistive gas sensors. The devices are relatively fast (180 s), highly sensitive (response up to ∼256%), and selective toward NO2 in humid environments, showing little response to O2 and ethanol, and being completely insensitive to CO and CH4. The here-presented fabrication method can be easily extended as a cost-effective post-process in CMOS-compatible microhotplate fabrication and, thus, represents a promising candidate for indoor and outdoor air quality monitoring devices. Funding: This work has been partially supported by the Spanish Ministeriode Economía y Competitividad, through projects TEC2013-48147-C6 and TEC2016-79898-C6 (AEI/FEDER, EU) and by the Spanish Agencia Estatal de Investigación (AEI), through projects PID2019-107697RB-C41/AEI/10.13039/501100011033 and PID2019-107697RB-C42/AEI/10.13039/501100011033.

Published
2021
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42. A Novel Approach for a Chip-Sized Scanning Optical Microscope

Author

Daria D. Bezshlyakh, Nil Franch, Albert Romano-Rodriguez, Juan Daniel Prades, Angel Dieguez, Sergio Moreno, J. Canals, Stefan Schrittwieser, Andreas Waag, Steffen Bornemann, Aldo Di Carlo, Florian Vogelbacher, Matthias Auf der Maur, Katarzyna Kluczyk-Korch, and Victor Moro

Subjects
Microscope, Materials science, Microscopis, nanoLEDs, Settore ING-INF/01, 02 engineering and technology, 01 natural sciences, Article, Microscopes, law.invention, Optical microscope, law, Microscopy, Miniaturization, TJ1-1570, Mechanical engineering and machinery, Electrical and Electronic Engineering, lensless, business.industry, Mechanical Engineering, 010401 analytical chemistry, Resolution (electron density), scanning optical microscopy, 021001 nanoscience & nanotechnology, Chip, Sample (graphics), chip-size microscope, 0104 chemical sciences, Microscòpia, Control and Systems Engineering, shadow imaging, Optoelectronics, 0210 nano-technology, business, Light-emitting diode
Abstract

The recent advances in chip-size microscopy based on optical scanning with spatially resolved nano-illumination light sources are presented. This new straightforward technique takes advantage of the currently achieved miniaturization of LEDs in fully addressable arrays. These nano-LEDs are used to scan the sample with a resolution comparable to the LED sizes, giving rise to chip-sized scanning optical microscopes without mechanical parts or optical accessories. The operation principle and the potential of this new kind of microscope are analyzed through three different implementations of decreasing LED dimensions from 20 µm down to 200 nm.

Published
2021

43. Fabrication, Characterization and Performance of Low Power Gas Sensors Based on (GaxIn1-x)(2)O-3 Nanowires

Author

Lopez-Aymerich, Elena, Domenech, Guillem, Moreno, Mauricio, Pellegrino, Paolo, Romano-Rodriguez, Albert, Lopez-Aymerich, Elena, Domenech, Guillem, Moreno, Mauricio, Pellegrino, Paolo, and Romano-Rodriguez, Albert

Abstract

Active research in nanostructured materials aims to explore new paths for improving electronic device characteristics. In the field of gas sensors, those based on metal oxide single nanowires exhibit excellent sensitivity and can operate at extremely low power consumption, making them a highly promising candidate for a novel generation of portable devices. The mix of two different metal oxides on the same nanowire can further broaden the response of this kind of gas sensor, thus widening the range of detectable gases, without compromising the properties related to the active region miniaturization. In this paper, a first study on the synthesis, characterization and gas sensing performance of (GaxIn1-x)(2)O-3 nanowires (NWs) is reported. Carbothermal metal-assisted chemical vapor deposition was carried out with different mixtures of Ga2O3, In2O3 and graphite powders. Structural characterization of the NWs revealed that they have a crystalline structure close to that of In2O3 nanowires, with a small amount of Ga incorporation, which highly depends on the mass ratio between the two precursors. Dedicated gas nanosensors based on single NWs were fabricated and tested for both ethanol and nitrogen dioxide, demonstrating an improved performance compared to similar devices based on pure In2O3 or Ga2O3 NWs., Funding Agencies|Spanish Ministerio de Economia y Competitividad [TEC2013-48147-C6, TEC2016-79898-C6]; Ministerio de Economia e Innovacion [PID2019-107697RB-C41]

Published
2021
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47. Pursuing the Diffraction Limit with Nano-LED Scanning Transmission Optical Microscopy

Author

Moreno, Sergio, primary, Canals, Joan, additional, Moro, Victor, additional, Franch, Nil, additional, Vilà, Anna, additional, Romano-Rodriguez, Albert, additional, Prades, Joan Daniel, additional, Bezshlyakh, Daria D., additional, Waag, Andreas, additional, Kluczyk-Korch, Katarzyna, additional, Auf der Maur, Matthias, additional, Di Carlo, Aldo, additional, Krieger, Sigurd, additional, Geleff, Silvana, additional, and Diéguez, Angel, additional

Published
2021
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49. Nano illumination microscopy: a technique based on scanning with an array of individually addressable nanoLEDs

Author

Jan Gülink, Aldo Di Carlo, Andreas Waag, J. Canals, Matthias Auf der Maur, Juan Daniel Prades, Nil Franch, Anna Vilà, Victor Moro, Daria D. Bezshlyakh, Angel Dieguez, Katarzyna Kluczyk-Korch, and Albert Romano-Rodriguez

Subjects
Microscope, Materials science, Microscopis, nanoLEDs, CMOS SPAD, 02 engineering and technology, 01 natural sciences, Microscopes, law.invention, 010309 optics, Optics, law, 0103 physical sciences, Microscopy, Lithography, Image resolution, Pixel, business.industry, Detector, Resolution (electron density), 021001 nanoscience & nanotechnology, Sample (graphics), Atomic and Molecular Physics, and Optics, Microscòpia, microscopy, 0210 nano-technology, business, LED array
Abstract

In lensless microscopy, spatial resolution is usually provided by the pixel density of current digital cameras, which are reaching a hard-to-surpass pixel size / resolution limit over 1 µm. As an alternative, the dependence of the resolving power can be moved from the detector to the light sources, offering a new kind of lensless microscopy setups. The use of continuously scaled-down Light-Emitting Diode (LED) arrays to scan the sample allows resolutions on order of the LED size, giving rise to compact and low-cost microscopes without mechanical scanners or optical accessories. In this paper, we present the operation principle of this new approach to lensless microscopy, with simulations that demonstrate the possibility to use it for super-resolution, as well as a first prototype. This proof-of-concept setup integrates an 8 × 8 array of LEDs, each 5 × 5 μm2pixel size and 10 μmpitch, and an optical detector. We characterize the system using Electron-Beam Lithography (EBL) pattern. Our prototype validates the imaging principle and opens the way to improve resolution by further miniaturizing the light sources. © 2020 Optical Society of America under the terms of theOSA Open Access Publishing Agreement

Published
2020

50. Inorganic nanomaterials

Author

Francisco Hernandez-Ramirez, Albert Romano-Rodriguez, and Joan Daniel Prades

Published
2020

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