Your search keyword '"Ares, Jose R."' showing total 7 results

1. Low‐Cost and Biodegradable Thermoelectric Devices Based on van der Waals Semiconductors on Paper Substrates.

Author

Ersu, Gulsum, Munuera, Carmen, Mompean, Federico J., Vaquero, Daniel, Quereda, Jorge, Rodrigues, João Elias F. S., Alonso, Jose A., Flores, Eduardo, Ares, Jose R., Ferrer, Isabel J., Al‐Enizi, Abdullah M., Nafady, Ayman, Kuriakose, Sruthi, Island, Joshua O., and Castellanos‐Gomez, Andres

Subjects

THERMOELECTRIC apparatus & appliances, N-type semiconductors, THERMOELECTRIC power, SEMICONDUCTORS, CARBON films

Abstract

We present a method to fabricate handcrafted thermoelectric devices on standard office paper substrates. The devices are based on thin films of WS2, Te, and BP (P‐type semiconductors) and TiS3 and TiS2 (N‐type semiconductors), deposited by simply rubbing powder of these materials against paper. The thermoelectric properties of these semiconducting films revealed maximum Seebeck coefficients of (+1.32 ± 0.27) mV K−1 and (−0.82 ± 0.15) mV K−1 for WS2 and TiS3, respectively. Additionally, Peltier elements were fabricated by interconnecting the P‐ and N‐type films with graphite electrodes. A thermopower value up to 6.11 mV K−1 was obtained when the Peltier element were constructed with three junctions. The findings of this work show proof‐of‐concept devices to illustrate the potential application of semiconducting van der Waals materials in future thermoelectric power generation as well as temperature sensing for low‐cost disposable electronic devices. [ABSTRACT FROM AUTHOR]

Published

2024

2. Titanium Trisulfide Nanosheets and Nanoribbons for Field Emission-Based Nanodevices.

Author

Pawbake, Amit S., Khare, Ruchita T., Island, Joshua O., Flores, Eduardo, Ares, Jose R., Sanchez, Carlos, Ferrer, Isabel J., Pawar, Mahendra, Frank, Otakar, More, Mahendra A., van der Zant, Herre S. J., Castellanos-Gomez, Andres, and Late, Dattatray J.

Abstract

The field emission (FE) properties of TiS3 nanosheets and nanoribbons, synthesized by direct sulfuration of bulk titanium, are investigated. The nanosheets show an enhanced FE behavior with a low turn-on field of ∼0.3 V/μm, required for drawing an emission current density of ∼10 μA/cm2. Interestingly, the TiS3 nanosheet emitter delivered a large emission current density of ∼0.9 mA/cm2 at a relatively low applied electric field of ∼0.4 V/μm. We have estimated the values of the field enhancement factor (β), which are found to be ∼5 × 104 for the TiS3 nanosheet emitter and ∼4 × 103 for the nanoribbon emitter. We attribute the superior FE performance to the presence of atomically sharp edges and the reduced thickness of TiS3, as reflected in the high value of β. In fact, the nanosheet sample presents a higher density of ultrathin layers (∼12 nm-thick), and thus, they have a larger edge to volume ratio than the nanoribbon samples (which are ∼19 nm-thick). The superior FE behavior of TiS3 nanosheets over nanoribbons makes them a propitious field emitter and can be utilized for various FE-based applications, demanding large emission currents and lower operational voltages. Moreover, the FE current stability recorded on these samples confirms their promising performance. Thus, the present investigation brings out a great promise of TiS3 nanosheets and nanoribbons as field emitters for vacuum nanoelectronics devices. [ABSTRACT FROM AUTHOR]

Published

2023

3. Visualizing Microorganism-Mineral Interaction in the Iberian Pyrite Belt Subsurface: The Acidovorax Case.

Author

Escudero, Cristina, del Campo, Adolfo, Ares, Jose R., Sánchez, Carlos, Martínez, Jose M., Gómez, Felipe, and Amils, Ricardo

Subjects

RAMAN microscopy, PYRITES, FLUORESCENCE microscopy, EXTREME environments, FLUORESCENCE in situ hybridization

Abstract

Despite being considered an extreme environment, several studies have shown that life in the deep subsurface is abundant and diverse. Microorganisms inhabiting these systems live within the rock pores and, therefore, the geochemical and geohydrological characteristics of this matrix may influence the distribution of underground biodiversity. In this study, correlative fluorescence and Raman microscopy (Raman-FISH) was used to analyze the mineralogy associated with the presence of members of the genus Acidovorax , an iron oxidizing microorganisms, in native rock samples of the Iberian Pyrite Belt subsurface. Our results suggest a strong correlation between the presence of Acidovorax genus and pyrite, suggesting that the mineral might greatly influence its subsurface distribution. [ABSTRACT FROM AUTHOR]

Published

2020

4. Multi-terminal electronic transport in boron nitride encapsulated TiS3 nanosheets.

Author

Papadopoulos, Nikos, Flores, Eduardo, Watanabe, Kenji, Taniguchi, Takashi, Ares, Jose R, Sanchez, Carlos, Ferrer, Isabel J, Castellanos-Gomez, Andres, Steele, Gary A, and Zant, Herre S J van der

Published

2020

5. Polarization‐Sensitive and Broadband Photodetection Based on a Mixed‐Dimensionality TiS3/Si p–n Junction.

Author

Niu, Yue, Frisenda, Riccardo, Flores, Eduardo, Ares, Jose R., Jiao, Weicheng, Perez de Lara, David, Sánchez, Carlos, Wang, Rongguo, Ferrer, Isabel J., and Castellanos‐Gomez, Andres

Abstract

Abstract: The capability to detect the polarization state of light is crucial in many day‐life applications and scientific disciplines. Novel anisotropic 2D materials such as TiS3 combine polarization sensitivity, given by the in‐plane optical anisotropy, with excellent electrical properties. Here, the fabrication of a monolithic polarization‐sensitive broadband photodetector based on a mixed‐dimensionality TiS3/Si p–n junction is demonstrated. The fabricated devices show broadband responsivity up to 1050 nm, a strong sensitivity to linearly polarized illumination with difference between the two orthogonal polarization states up to 350%, and a good detectivity and fast response time. The discussed devices can be used as building blocks to fabricate more complex polarization‐sensitive systems such as polarimeters. [ABSTRACT FROM AUTHOR]

Published

2018

6. Large birefringence and linear dichroism in TiS3 nanosheets.

Author

Papadopoulos, Nikos, Frisenda, Riccardo, Biele, Robert, Flores, Eduardo, Ares, Jose R., Sánchez, Carlos, van der Zant, Herre S. J., Ferrer, Isabel J., D'Agosta, Roberto, and Castellanos-Gomez, Andres

Published

2018

7. Tunable Photodetectors via In Situ Thermal Conversion of TiS3 to TiO2.

Author

Ghasemi, Foad, Frisenda, Riccardo, Flores, Eduardo, Papadopoulos, Nikos, Biele, Robert, Perez de Lara, David, van der Zant, Herre S. J., Watanabe, Kenji, Taniguchi, Takashi, D'Agosta, Roberto, Ares, Jose R., Sánchez, Carlos, Ferrer, Isabel J., and Castellanos-Gomez, Andres

Subjects

OPTOELECTRONICS, TITANIUM oxidation, WIDE gap semiconductors, OPTOELECTRONIC devices, PHOTODETECTORS, AB-initio calculations, ELECTRONIC equipment

Abstract

In two-dimensional materials research, oxidation is usually considered as a common source for the degradation of electronic and optoelectronic devices or even device failure. However, in some cases a controlled oxidation can open the possibility to widely tune the band structure of 2D materials. In particular, we demonstrate the controlled oxidation of titanium trisulfide (TiS3), a layered semicon-ductor that has attracted much attention recently thanks to its quasi-1D electronic and optoelectron-ic properties and its direct bandgap of 1.1 eV. Heating TiS3 in air above 300 °C gradually converts it into TiO2, a semiconductor with a wide bandgap of 3.2 eV with applications in photo-electrochemistry and catalysis. In this work, we investigate the controlled thermal oxidation of indi-vidual TiS3 nanoribbons and its influence on the optoelectronic properties of TiS3-based photodetec-tors. We observe a step-wise change in the cut-off wavelength from its pristine value ~1000 nm to 450 nm after subjecting the TiS3 devices to subsequent thermal treatment cycles. Ab-initio and many-body calculations confirm an increase in the bandgap of titanium oxysulfide (TiO2-xSx) when in-creasing the amount of oxygen and reducing the amount of sulfur. [ABSTRACT FROM AUTHOR]

Published

2020