Susana Palmero scite author profile

ABSTRACT:A really easy method to transfer commercial single-walled carbon nanotubes (SWCNTs) to different substrates is proposed. In this paper, a homogeneous transference of SWCNTs films to non-conductor and transparent supports such as polyethylene terephthalate, glass and quartz, and to conductor supports such as indium tin oxide, aluminium, highly ordered pyrolytic graphite and glassy carbon was achieved using a very fast, reproducible and clean methodology. In order to test these transferences, SWCNTs films transferred on quartz were used as working optically UV-Vis transparent electrodes due to their optimal electrical and optical properties. A new easy-to-use, homemade optical fiber based cell for bidimensional spectroelectrochemistry was developed, offering the possibility to measure in normal and parallel configuration. The cell was tested with ferrocenemethanol, a compound widely used in electrochemistry but scarcely studied by spectroelectrochemistry, covering the UV-Vis spectral region.

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Analysis and speciation of arsenic by stripping potentiometry: a review

Muñoz¹,

Palmero²

2005

Talanta

130

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Press-transfer optically transparent electrodes fabricated from commercial single-walled carbon nanotubes

Garoz‐Ruiz

Palmero

Ibáñez

et al. 2012

Electrochemistry Communications

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Optical fiber spectroelectrochemical device for detection of catechol at press-transferred single-walled carbon nanotubes electrodes

et al. 2013

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A new long-optical-pathway spectroelectrochemical cell for absorptometric measurements in the UV-Vis region was developed. This cell consists of two optical fibers brought face to face and fixed on the working electrode support. As a proof of concept, the spectroelectrochemical cell was applied to the determination of catechol using a press-transferred single-walled carbon nanotube film as the working electrode. Voltabsorptometry was demonstrated to be very helpful in understanding the mechanism of catechol oxidation. The experiments showed that the main oxidation product is o-benzoquinone, but other soluble side products are also observed. Multivariate calibration explains the selection of 390 nm as the best wavelength for the univariate absorptometric determination of catechol, avoiding the interference of oxidation side products. Catechol was quantified using both the electrochemical and the spectroscopic signal, demonstrating that this hybrid technique is an autovalidated analytical method. Dual detection of catechol was also carried out using amperometric spectroelectrochemistry. Finally, spectroelectrochemistry was used to quantify catechol in the presence of hydroquinone.

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Determination of heavy metals in honey by potentiometric stripping analysis and using a continuous flow methodology

Muñoz

Palmero

2006

Food Chemistry

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Susana Palmero

Development of a Novel Bidimensional Spectroelectrochemistry Cell Using Transfer Single-Walled Carbon Nanotubes Films as Optically Transparent Electrodes

Analysis and speciation of arsenic by stripping potentiometry: a review

Press-transfer optically transparent electrodes fabricated from commercial single-walled carbon nanotubes

Optical fiber spectroelectrochemical device for detection of catechol at press-transferred single-walled carbon nanotubes electrodes

Determination of heavy metals in honey by potentiometric stripping analysis and using a continuous flow methodology

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