Please use this identifier to cite or link to this item: http://dr.iiserpune.ac.in:8080/xmlui/handle/123456789/3832
Title: All-Organic Composites of Ferro- and Piezoelectric Phosphonium Salts for Mechanical Energy Harvesting Application
Authors: VIJAYAKANTH, THANGAVEL
Ram, Farsa
Praveenkumar, Balu
Shanmuganathan, Kadhiravan
BOOMISHANKAR, RAMAMOORTHY
Dept. of Chemistry
Keywords: Nanocomposites
Polarization
Performance
History
TOC-AUG-2019
2019
Issue Date: Jul-2019
Publisher: American Chemical Society
Citation: Chemistry of Materials, 31(15), 5964-5972.
Abstract: Molecular ferroelectrics owing to their lightweight, flexibility, and phase stability are drawing attention in the fields of flexible electronics, optical devices, and energy materials. In this paper, we report a series of binary organoamino phosphonium salts containing triphenyl isopropylaminophosphonium (TPAP), diphenyl diisopropylaminophosphonium (DPDP), phenyl triisopropylaminophosphonium (PTAP), and tetraisopropylaminophosphonium (TIAP) cations supported by lower symmetric tetrahedral BF4–, ClO4–, and IO4– anions. The P–E hysteresis loop measurements on these polar organic salts gave high remnant polarization (Pr) values of 35.36, 21.83, and 21.12 μC cm–2 for the DPDP·BF4, DPDP·ClO4, and DPDP·IO4 salts, respectively, having 1D hydrogen-bonded chain structures built from strong N–H···X (X = F or O) interactions. For the first time, highly flexible composite devices have been prepared for the piezoelectric salts TPAP·BF4, DPDP·BF4, and TIAP·BF4 using thermoplastic polyurethane (TPU) as the matrix. The observed maximum peak-to-peak output voltages (VPP) for the 10 wt % composite devices of TPAP·BF4/TPU, DPDP·BF4/TPU, and TIAP·BF4/TPU are found to be 7.37, 8.95, and 4.75 V, respectively. These composite devices exhibit excellent durability, cycling stability, and viscoelastic properties. They also show the capacitor charging capabilities reaching their maximum charging points within 60 s.
URI: http://dr.iiserpune.ac.in:8080/xmlui/handle/123456789/3832
https://doi.org/10.1021/acs.chemmater.9b02409
ISSN: 0897-4756
1520-5002
Appears in Collections:JOURNAL ARTICLES

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