Polydimethylsiloxane–PbZr0.52Ti0.48O3 nanocomposites with high permittivity: Effect of poling and temperature on dielectric properties

Nayak, Suryakanta; Khastgir, Dipak

doi:10.1002/app.47307

Cited by 19 publications

(10 citation statements)

References 35 publications

(47 reference statements)

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“…The presence of these MWCNT‐containing regions may contribute to the increase in local electric field on the PZT particles due to the formation of microcapacitors (in the MWCNT‐PZT‐MWCNT configuration), that is, they can improve the polarization of PZT particles and, in turn, contribute to the piezoelectric properties of the composites. A similar behavior, that is, a two‐phase composite, has also been observed by Nayak for polydimethylsiloxane (PDMS) and PZT 37 …”

Section: Resultssupporting

confidence: 76%

Dielectric, electric, and piezoelectric properties of three‐phase piezoelectric composite based on castor‐oil polyurethane, lead zirconate titanate particles and multiwall carbon nanotubes

Filho

Santos

Sanches

et al. 2023

J of Applied Polymer Sci

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The effects of multiwall carbon nanotubes (MWCNTs) on the electrical, dielectric, and piezoelectric properties of the ferroelectric ceramic/castor-oil polyurethane (PUR) composite films were evaluated. The three-phase piezoelectric composites were produced by keeping PUR concentration constant while varying lead zirconate titanate (PZT) volume fractions between 10 and 50 vol.%, at two MWCNT concentrations: above and below percolation threshold. The dc electrical conductivity analysis revealed that small amounts of MWCNTs dispersed within PUR/PZT composite films can significantly improve electrical and piezoelectric properties due to their ability to act as conductive bridges between PZT particles in the samples. Using Jonscher's power law, it was possible to determine that the electrical conduction in ac regime occurs through spatial charge hopping between states located within the piezoelectric composite. Analyzing the piezoelectric properties through the d 33 coefficient, it was found that PUR-MWCNT/PZT piezoelectric composite displayed higher d 33 values (20 pC/N) in comparison to the PUR/PZT two-phase composite (9.5 pC/N) for all PZT loadings. According to these results, the dispersion of MWCNT nanoparticles influences the poling effectiveness of the PZT particles and increases the d 33 coefficient of three-phase piezoelectric composites.

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Section: Resultssupporting

confidence: 76%

Dielectric, electric, and piezoelectric properties of three‐phase piezoelectric composite based on castor‐oil polyurethane, lead zirconate titanate particles and multiwall carbon nanotubes

Filho

Santos

Sanches

et al. 2023

J of Applied Polymer Sci

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“…A marginal change in the dielectric constant of all composite films was also observed at frequencies of 1 and 100 kHz. The small increase in the dielectric constant at a low frequency was due to the interfacial and space charge polarization . All the composite films showed relatively lower dissipation factor values.…”

Section: Resultsmentioning

confidence: 94%

“…The small increase in the dielectric constant at a low frequency was due to the interfacial and space charge polarization. 63 All the composite films showed relatively lower dissipation factor values. The dielectric constants and dissipation factors with various contents of MASnBr 3 at 1 and 100 kHz are summarized in Figure 2c.…”

Section: ■ Experimental Sectionmentioning

confidence: 93%

Unveiling Predominant Air-Stable Organotin Bromide Perovskite toward Mechanical Energy Harvesting

Ippili

Jella

Kim

et al. 2020

ACS Appl. Mater. Interfaces

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Organotin halide perovskites are developed as an appropriate substitute to replace highly toxic lead-based hybrid perovskites, which are a major concern for the environment as well as for human health. However, instability of the lead-free Sn-based perovskites under ambient conditions has hindered their wider utility in device applications. In this study, we report a predominantly stable lead-free methylammonium tin bromide (MASnBr 3 ) perovskite that has air stability over 120 days without passivation under ambient conditions. Further, the feasibility of this predominant air-stable MASnBr 3 perovskite for use in the harvesting of mechanical energy is described with the fabrication of an ecofriendly, flexible, and cost-effective piezoelectric generator (PEG) using MASnBr 3 −polydimethylsiloxane composite films. The fabricated PEG exhibits high performance along with good mechanical durability and long-term stability. This flexible device reveals a high piezoelectric output voltage of ∼18.8 V, current density of ∼13.76 μA/cm 2 , and power density of ∼74.52 μW/cm 2 under a periodic applied pressure of 0.5 MPa. Further, the ability of PEG to scavenge energy from various easily accessible biomechanical movements is demonstrated. The energy generated from PEG by finger tapping is stored in a capacitor and is used to power both a stopwatch and a commercial lightemitting diode. These findings offer a new insight to achieve long-term air-stable Sn-based hybrid perovskites, demonstrating the feasibility of using organotin halide perovskites to realize highly efficient, ecofriendly, mechanical energy harvesters with a wide range of utility that includes wearable and portable electronics as well as biomedical devices.

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“…reported that barium titanate particles could be used to improve the dielectric behavior of PDMS-based composites . Furthermore, diverse works of nanocomposites with other ceramic fillers consisting of TiO 2 , boron nitride (BN), and PbZr 0.52 Ti 0.48 O 3 have been done to enhance their dielectric constants. − Unfortunately, a high volume fraction of ceramic fillers (usually more than 40 vol %) is of great necessity to acquire high permittivity, leading to sacrificing the flexibility and processability of DE composites. When the size of the filler particles decreases, the number of particles per unit volume and the interfacial area will increase, and the interparticle distance will be shorter at a certain loading in the composite.…”

Section: Introductionmentioning

confidence: 99%

Enhanced Dielectric Properties of a Poly(dimethyl siloxane) Bimodal Network Percolative Composite with MXene

Lei

Wang

Gao

et al. 2020

ACS Appl. Mater. Interfaces

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Excellent comprehensive dielectric properties (including dielectric constant and loss) are essential for electromechanical transducers. This work introduced a bimodal network composite with poly(dimethyl siloxane) (PDMS) and delaminated Ti3C2T x sheets (d-Ti3C2T x ) modified with hyperbranched polysiloxane (HPSi) (referred to as HPSi-d-Ti3C2T x ). Before the final cross-linking, HPSi-d-Ti3C2T x , trapped with short-chain PDMS (CS-PDMS) and long-chain PDMS (CL-PDMS), was pre-reacted, which formed a distinct bimodal network structure. d-Ti3C2T x /PDMS and HPSi-d-Ti3C2T x /PDMS composites with different filler loadings were prepared, and their percolation thresholds (f c) were 1.32 and 1.43 vol %, respectively The dielectric constant of 1.40 vol % HPSi-d-Ti3C2T x /PDMS is 23.7 at 102 Hz, which is 1.5 times that of 1.28 vol % d-Ti3C2T x /PDMS and 8.5 times that of pure PDMS. Meanwhile, the dielectric loss of HPSi-d-Ti3C2T x /PDMS composite is still relatively small (0.11 at 103 Hz). The origin of dielectric property optimization of the composite is attributed to the boundary capacitor model, the accumulated charges at the interfaces between the conductive filler and the insulating polymer matrix of the composite, and the distinct bimodal network structure.

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Polydimethylsiloxane–PbZr_0.52Ti_0.48O₃ nanocomposites with high permittivity: Effect of poling and temperature on dielectric properties

Cited by 19 publications

References 35 publications

Dielectric, electric, and piezoelectric properties of three‐phase piezoelectric composite based on castor‐oil polyurethane, lead zirconate titanate particles and multiwall carbon nanotubes

Dielectric, electric, and piezoelectric properties of three‐phase piezoelectric composite based on castor‐oil polyurethane, lead zirconate titanate particles and multiwall carbon nanotubes

Unveiling Predominant Air-Stable Organotin Bromide Perovskite toward Mechanical Energy Harvesting

Enhanced Dielectric Properties of a Poly(dimethyl siloxane) Bimodal Network Percolative Composite with MXene

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