Arpys Arevalo scite author profile

Paper has been an essential material in our daily life since ancient times. Its affordability, accessibility, adaptability, workability and its easiness of usage makes it an attractive structural material to develop many kind of technologies such as flexible electronics, energy storage and harvesting devices. Additionally, the scientific community has increased its interest on waste heat as an environmentally friendly energy source to support the increasing energy demand. Therefore, in this paper we described two affordable and flexible thermoelectric nanogenerators (TEGs) developed on paper substrates by the usage of simple micromachining and microfabrication techniques. Moreover, they exhibit mechanical stability and adaptability (through folding and cutting techniques) for a diverse set of scenarios where vertical or horizontal schemes can be conveniently used depending on the final application. The first TEG device, implemented on standard paper, generated a power of

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Design and characterization of ultra-stretchable monolithic silicon fabric

Rojas

Arevalo

Foulds

et al. 2014

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Stretchable helical architecture inorganic-organic hetero thermoelectric generator

et al. 2016

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To achieve higher power output from a thermoelectric generator (TEG), one needs to maintain a larger temperature difference between hot and cold end. In that regard, a stretchable TEG can be interesting to adaptively control the temperature difference. Here we show, the development of simple yet versatile and highly stretchable thermoelectric generators (TEGs), by combining well-known inorganic thermoelectric materials Bismuth Telluride and Antimony Telluride (Bi 2 Te 3 and Sb 2 Te 3) with organic substrates (Off-Stoichiometry Thiol-Enes polymer platform-OSTE, polyimide or paper) and novel helical architecture (double-arm spirals) to achieve over 100% stretchability. First, an OSTE-based TEG design demonstrates higher open circuit voltage generation at 100% strain than at rest,

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Torsion based universal MEMS logic device

Ilyas

Arevalo

Bayes

et al. 2015

Sensors and Actuators A: Physical

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An Experimental and Theoretical Investigation of a Micromirror Under Mixed-Frequency Excitation

Ilyas

Ramini

Arevalo

et al. 2015

J. Microelectromech. Syst.

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Arpys Arevalo

Paper-based origami flexible and foldable thermoelectric nanogenerator

Design and characterization of ultra-stretchable monolithic silicon fabric

Stretchable helical architecture inorganic-organic hetero thermoelectric generator

Torsion based universal MEMS logic device

An Experimental and Theoretical Investigation of a Micromirror Under Mixed-Frequency Excitation

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