Journal
ACS APPLIED MATERIALS & INTERFACES
Volume 12, Issue 52, Pages 58072-58081Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsami.0c16207
Keywords
additive manufacturing; precipitation printing; poly(vinylidene fluoride); piezoelectric; energy harvesting; wearable device
Funding
- US Air Force Office of Scientific Research [FA9550-16-1-0087]
- National Science Foundation [EFRI-1935216]
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Poly(vinylidene fluoride) (PVDF) possesses outstanding piezoelectric properties, which allows it to be utilized as a functional material. Being a semicrystalline polymer, enhancing the piezoelectric properties of PVDF through the promotion of the polar beta phase is a key research focus. In this research, precipitation printing is demonstrated as a scalable and tailorable approach to additively manufacture complex and bulk 3D piezoelectric energy harvesters with high-beta phase PVDF. The beta-phase fraction of PVDF is improved to 60% through precipitation printing, yielding more than 200% improvement relative to solvent-cast PVDF films. Once the precipitation-printed PVDF is hot-pressed to reduce internal porosity, a significant ferroelectric response with a coercive field of 98 MV m(-1) and a maximum remnant polarization of 3.2 mu C cm(-2) is observed. Moreover, the piezoelectric d(33) and d(31) coefficients of printed then hot-pressed PVDF are measured to be -6.42 and 1.95 pC N-1, respectively. For energy-harvesting applications, a stretching d(31)-mode energy harvester is demonstrated to produce a power density of up to 717 mu W cm(-3), while a printed full-scale heel insole with embedded d(33)-mode energy harvesting is capable of successfully storing 32.2 mu J into a capacitor when used for 3 min. Therefore, precipitation printing provides a new method for producing high-beta phase PVDF and bulk piezoelectric energy harvesters with the advantages of achieving geometry complexity, fabrication simplicity, and low cost.
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