Exceptionally high work density of a ferroelectric dynamic organic crystal around room temperature
Abstract Dynamic organic crystals are rapidly gaining traction as a new class of smart materials for energy conversion, however, they are only capable of very small strokes (<12%) and most of them operate through energetically cost-prohibitive processes at high temperatures. We report on the exce...
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Language: | English |
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Nature Portfolio
2022-05-01
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Series: | Nature Communications |
Online Access: | https://doi.org/10.1038/s41467-022-30541-y |
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author | Durga Prasad Karothu Rodrigo Ferreira Ghada Dushaq Ejaz Ahmed Luca Catalano Jad Mahmoud Halabi Zainab Alhaddad Ibrahim Tahir Liang Li Sharmarke Mohamed Mahmoud Rasras Panče Naumov |
author_facet | Durga Prasad Karothu Rodrigo Ferreira Ghada Dushaq Ejaz Ahmed Luca Catalano Jad Mahmoud Halabi Zainab Alhaddad Ibrahim Tahir Liang Li Sharmarke Mohamed Mahmoud Rasras Panče Naumov |
author_sort | Durga Prasad Karothu |
collection | DOAJ |
description | Abstract Dynamic organic crystals are rapidly gaining traction as a new class of smart materials for energy conversion, however, they are only capable of very small strokes (<12%) and most of them operate through energetically cost-prohibitive processes at high temperatures. We report on the exceptional performance of an organic actuating material with exceedingly large stroke that can reversibly convert energy into work around room temperature. When transitioning at 295–305 K on heating and at 265–275 K on cooling the ferroelectric crystals of guanidinium nitrate exert a linear stroke of 51%, the highest value observed with a reversible operation of an organic single crystal actuator. Their maximum force density is higher than electric cylinders, ceramic piezoactuators, and electrostatic actuators, and their work capacity is close to that of thermal actuators. This work demonstrates the hitherto untapped potential of ionic organic crystals for applications such as light-weight capacitors, dielectrics, ferroelectric tunnel junctions, and thermistors. |
format | Article |
id | doaj-art-8a9773f9029944598e24811b63b7d541 |
institution | Kabale University |
issn | 2041-1723 |
language | English |
publishDate | 2022-05-01 |
publisher | Nature Portfolio |
record_format | Article |
series | Nature Communications |
spelling | doaj-art-8a9773f9029944598e24811b63b7d5412025-02-02T12:30:52ZengNature PortfolioNature Communications2041-17232022-05-0113111010.1038/s41467-022-30541-yExceptionally high work density of a ferroelectric dynamic organic crystal around room temperatureDurga Prasad Karothu0Rodrigo Ferreira1Ghada Dushaq2Ejaz Ahmed3Luca Catalano4Jad Mahmoud Halabi5Zainab Alhaddad6Ibrahim Tahir7Liang Li8Sharmarke Mohamed9Mahmoud Rasras10Panče Naumov11Smart Materials Lab, New York University Abu DhabiSmart Materials Lab, New York University Abu DhabiDivision of Engineering, New York University Abu DhabiSmart Materials Lab, New York University Abu DhabiSmart Materials Lab, New York University Abu DhabiSmart Materials Lab, New York University Abu DhabiSmart Materials Lab, New York University Abu DhabiSmart Materials Lab, New York University Abu DhabiSmart Materials Lab, New York University Abu DhabiDepartment of Chemistry, Green Chemistry & Materials Modelling Laboratory, Khalifa University of Science and TechnologyDivision of Engineering, New York University Abu DhabiSmart Materials Lab, New York University Abu DhabiAbstract Dynamic organic crystals are rapidly gaining traction as a new class of smart materials for energy conversion, however, they are only capable of very small strokes (<12%) and most of them operate through energetically cost-prohibitive processes at high temperatures. We report on the exceptional performance of an organic actuating material with exceedingly large stroke that can reversibly convert energy into work around room temperature. When transitioning at 295–305 K on heating and at 265–275 K on cooling the ferroelectric crystals of guanidinium nitrate exert a linear stroke of 51%, the highest value observed with a reversible operation of an organic single crystal actuator. Their maximum force density is higher than electric cylinders, ceramic piezoactuators, and electrostatic actuators, and their work capacity is close to that of thermal actuators. This work demonstrates the hitherto untapped potential of ionic organic crystals for applications such as light-weight capacitors, dielectrics, ferroelectric tunnel junctions, and thermistors.https://doi.org/10.1038/s41467-022-30541-y |
spellingShingle | Durga Prasad Karothu Rodrigo Ferreira Ghada Dushaq Ejaz Ahmed Luca Catalano Jad Mahmoud Halabi Zainab Alhaddad Ibrahim Tahir Liang Li Sharmarke Mohamed Mahmoud Rasras Panče Naumov Exceptionally high work density of a ferroelectric dynamic organic crystal around room temperature Nature Communications |
title | Exceptionally high work density of a ferroelectric dynamic organic crystal around room temperature |
title_full | Exceptionally high work density of a ferroelectric dynamic organic crystal around room temperature |
title_fullStr | Exceptionally high work density of a ferroelectric dynamic organic crystal around room temperature |
title_full_unstemmed | Exceptionally high work density of a ferroelectric dynamic organic crystal around room temperature |
title_short | Exceptionally high work density of a ferroelectric dynamic organic crystal around room temperature |
title_sort | exceptionally high work density of a ferroelectric dynamic organic crystal around room temperature |
url | https://doi.org/10.1038/s41467-022-30541-y |
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