Your search keyword '"Calleja M"' showing total 7 results

1. Effect of particle adsorption on the eigenfrequencies of nano-mechanical resonators.

Author

Ruz, J. J., Malvar, O., Gil-Santos, E., Calleja, M., and Tamayo, J.

Subjects

EIGENFREQUENCIES, RESONATORS, TORSIONAL vibration, PARTICULATE matter, MODE shapes, MASS spectrometers

Abstract

In the last two decades, nano-mechanical resonators have risen as highly promising devices for mass sensing due to their ultrahigh sensitivity. They can be used to measure the mass and stiffness of single particles like small pollution particles, viruses, bacteria, or even proteins. These capabilities of the nano-mechanical resonators have allowed the birth of a new type of mass spectrometry with no need of fragmentation or ionization of the sample and therefore ideal to measure big masses, where conventional mass spectrometers have important problems. The shape and modes of vibration of a nano-mechanical resonator can be very different and the advantages and drawbacks of one respect to another is still a hot topic. A unified theoretical framework to describe the effect of particle adsorption on a mechanical resonator is fundamental but still lacks in the literature. In this work, we present such a framework and examine the particular case of a rod-like particle adsorbed on a cantilever beam for flexural and torsional vibrations as well as on a disk resonator for radial breathing vibrations and compare the results with finite element simulations. [ABSTRACT FROM AUTHOR]

Published

2020

2. In situ laser light scattering studies on the influence of kinetics on surface morphology during growth of In0.2Ga0.8As/GaAs

Author

Gonzalez, M.U., Gonzalez, Y., Gonzalez, L., Calleja, M., and Sanchez-Gil, J.A.

Subjects

Light scattering -- Usage, Morphology -- Research, Physics

Abstract

The effects of growth kinetics on crosshatched morphology were studied using real-time in situ laser light scattering.

Published

2001

3. Simultaneous imaging of the topography and dynamic properties of nanomechanical systems by optical beam deflection microscopy.

Author

Kosaka, P. M., Tamayo, J., Gil-Santos, E., Mertens, J., Pini, V., Martínez, N. F., Ahumada, O., and Calleja, M.

Subjects

NANOELECTROMECHANICAL systems, LASER beams, MICROSCOPY, DETECTORS, RESIDUAL stresses

Abstract

We present an optical microscopy technique based on the scanning of a laser beam across the surface of a sample and the measurement of the deflection of the reflected laser beam in two dimensions. The technique is intended for characterization of nanomechanical systems. It provides the height of a nanomechanical system with sub-nanometer vertical resolution. In addition, it simultaneously provides a complete map of the resonant properties. We demonstrate the capability of the technique by analyzing the residual stress and vibration mode shape of a system consisting of two elastically coupled nanocantilevers. The technique is simple, allows imaging in air, vacuum and liquids, and it is unique in providing synchronized information of the static and dynamic out-of-plane displacement of nanomechanical systems. [ABSTRACT FROM AUTHOR]

Published

2011

4. Role of the gold film nanostructure on the nanomechanical response of microcantilever sensors.

Author

Mertens, J., Calleja, M., Ramos, D., Tarýn, A., and Tamayo, J.

Subjects

*GOLD films, *NANOSTRUCTURED materials, *NANOSTRUCTURES, *CANTILEVERS, *DETECTORS, *ADSORPTION (Chemistry)

Abstract

In this study, we have determined the relationship between the nanostructure of the gold film deposited on microcantilevers and the sensitivity and reproducibility of their static response to molecular adsorption. In order to tune the properties of the gold film, gold was deposited at different rates and thicknesses. The cantilever response to molecular adsorption was characterized by exposure of the cantilevers to mercaptohexanol in water. The morphology of the gold surface was characterized by atomic force microscopy, and the residual stress induced in the cantilevers was characterized by a profilometry technique based on the optical beam deflection method. We have found that the discontinuous morphology of the gold film for small thicknesses and low deposition rates gives rise to large values of residual tensile stress due to the formation of grain boundaries at the expense of strain energy. These cantilevers exhibit the highest sensitivity and reproducibility to molecular adsorption. However, larger thicknesses and higher deposition rates produce the coalescence of gold nanoislands via atom diffusion. This is characterized by a large relative decrease (increase) of the tensile (compressive) stress. These cantilevers exhibit small sensitivity and low reproducibility to molecular adsorption. We conclude that the control of the gold coating process is critical for the reliability of the measurements with nanomechanical sensors. [ABSTRACT FROM AUTHOR]

Published

2007

5. Photothermal excitation of microcantilevers in liquids.

Author

Ramos, D., Tamayo, J., Mertens, J., and Calleja, M.

Subjects

LIQUIDS, PHOTOTHERMAL spectroscopy, LASER beams, CURVATURE, POLYWATER

Abstract

We report the selective excitation of the flexural modes of microcantilevers in aqueous solutions, by applying the photothermal excitation technique. The experiments show that a particular vibration mode can be efficiently excited by focusing the intensity-modulated laser beam on regions of high curvature of the vibration shape. In addition, the resulting resonant peaks in liquid appear distorted by an amplitude component that decreases with the frequency. This distortion produces a shift of the resonance to lower frequencies. A theoretical model based on the transformation of optical energy into mechanical energy via an intermediate thermal stage is proposed to interpret the experimental results. The theory shows that the driven oscillation of the cantilever depends on the curvature of the eigenmode at the excitation position and the heating induced by the excitation laser, which decreases with the frequency. The results reported here set the basis for efficient excitation of high vibration modes in liquids and for optimized design of optically driven microresonators. [ABSTRACT FROM AUTHOR]

Published

2006

6. Role of the gold film nanostructure on the nanomechanical response of microcantilever sensors

Author

Meterns, J., Calleja, M., Ramos, D., Taryn, A., and Tamayo, J.

Subjects

Dielectric films -- Mechanical properties, Thin films -- Mechanical properties, Adsorption -- Analysis, Atomic force microscopy -- Analysis, Gold compounds -- Mechanical properties, Physics

Abstract

The study employs several methodologies to understand and determine the impact of the nanostructure of the gold film deposited on microcantilevers on the nanochemical response of the various commonly used microcantilever sensors. The analysis reveals that the control of the gold coating process is very crucial for a perfect working of the nanomechanical sensors, as the cantilevers exhibit extremely low sensitivity and low reproducibility to molecular adsorption.

Published

2007

7. Origin of the response of nanochemical resonants to bacteria adsorption

Author

Ramos, D., Tamayo, J., Mertens, J., Calleja, M., and Zaballos, A.

Subjects

Escherichia coli -- Physiological aspects, Escherichia coli -- Research, Adsorption -- Analysis, Physics

Abstract

The effect of the adsorption of the bacterial Escherichia coli (E. coli) on the resonance frequency of the fundamental flexural mode of a singly clamped microcantilever is studied. The results have shown that the magnitude and sign of resonance frequency shift, both depend critically on the distribution of the adsorbed bacterial cells on the cantilever.

Published

2006