Racemic Amino Acid Piezoelectric Transducer

Sarah Guerin; Joseph O'Donnell; Ehtsham U. Haq; Cian McKeown; Christophe Silien; Fernando M.F. Rhen; Tewfik Soulimane; Syed A.M. Tofail; Damien Thompson

doi:10.1103/PhysRevLett.122.047701

Racemic Amino Acid Piezoelectric Transducer

Sarah Guerin, Joseph O'Donnell, Ehtsham U. Haq, Cian McKeown, Christophe Silien, Fernando M.F. Rhen, Tewfik Soulimane, Syed A.M. Tofail, Damien Thompson

University of Limerick

Research output: Contribution to journal › Article › peer-review

Abstract

Single crystal L-amino acids can exhibit technologically useful piezoelectric and nonlinear optical properties. Here we predict, using density functional theory, the piezoelectric charge and strain and voltage tensors of the racemic amino acid DL alanine, and use the modeling data to guide the first macroscopic and nanoscopic piezoelectric measurements on DL-alanine single crystals and polycrystalline aggregates. We demonstrate voltage generation of up to 0.8 V from DL-alanine crystal films under simple manual compression, twice as high as other amino acid crystals. Our results suggest that net molecular chirality is not a prerequisite for piezoelectric behavior in organic crystals. The transducer presented herein demonstrates that DL-alanine crystals can be used in applications such as temperature and force measurement in biosensors, data storage in flexible electronic devices, and mechanical actuation in energy harvesters.

Original language	English
Article number	047701
Pages (from-to)	047701
Journal	Physical Review Letters
Volume	122
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevLett.122.047701
Publication status	Published - 2019

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10.1103/PhysRevLett.122.047701

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title = "Racemic Amino Acid Piezoelectric Transducer",

abstract = "Single crystal L-amino acids can exhibit technologically useful piezoelectric and nonlinear optical properties. Here we predict, using density functional theory, the piezoelectric charge and strain and voltage tensors of the racemic amino acid DL alanine, and use the modeling data to guide the first macroscopic and nanoscopic piezoelectric measurements on DL-alanine single crystals and polycrystalline aggregates. We demonstrate voltage generation of up to 0.8 V from DL-alanine crystal films under simple manual compression, twice as high as other amino acid crystals. Our results suggest that net molecular chirality is not a prerequisite for piezoelectric behavior in organic crystals. The transducer presented herein demonstrates that DL-alanine crystals can be used in applications such as temperature and force measurement in biosensors, data storage in flexible electronic devices, and mechanical actuation in energy harvesters.",

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AU - Guerin, Sarah

AU - O'Donnell, Joseph

AU - Haq, Ehtsham U.

AU - McKeown, Cian

AU - Silien, Christophe

AU - Rhen, Fernando M.F.

AU - Soulimane, Tewfik

AU - Tofail, Syed A.M.

AU - Thompson, Damien

PY - 2019

Y1 - 2019

N2 - Single crystal L-amino acids can exhibit technologically useful piezoelectric and nonlinear optical properties. Here we predict, using density functional theory, the piezoelectric charge and strain and voltage tensors of the racemic amino acid DL alanine, and use the modeling data to guide the first macroscopic and nanoscopic piezoelectric measurements on DL-alanine single crystals and polycrystalline aggregates. We demonstrate voltage generation of up to 0.8 V from DL-alanine crystal films under simple manual compression, twice as high as other amino acid crystals. Our results suggest that net molecular chirality is not a prerequisite for piezoelectric behavior in organic crystals. The transducer presented herein demonstrates that DL-alanine crystals can be used in applications such as temperature and force measurement in biosensors, data storage in flexible electronic devices, and mechanical actuation in energy harvesters.

AB - Single crystal L-amino acids can exhibit technologically useful piezoelectric and nonlinear optical properties. Here we predict, using density functional theory, the piezoelectric charge and strain and voltage tensors of the racemic amino acid DL alanine, and use the modeling data to guide the first macroscopic and nanoscopic piezoelectric measurements on DL-alanine single crystals and polycrystalline aggregates. We demonstrate voltage generation of up to 0.8 V from DL-alanine crystal films under simple manual compression, twice as high as other amino acid crystals. Our results suggest that net molecular chirality is not a prerequisite for piezoelectric behavior in organic crystals. The transducer presented herein demonstrates that DL-alanine crystals can be used in applications such as temperature and force measurement in biosensors, data storage in flexible electronic devices, and mechanical actuation in energy harvesters.

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Racemic Amino Acid Piezoelectric Transducer

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