Jing-Feng Li

Lead-Free Piezoelectric Materials


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motors, and sonar systems. In the future, the applications will be extended to energy harvesting systems for distributed low‐power systems. The global market for piezoelectric devices is estimated to be valued at US$ 25.1 billion in 2019 and projected to expand at a compounded annual growth rate of 6.2% through the next five years [1]. One of the most widely used piezoelectric ceramic materials is the solid solution of lead zirconate (PbZrO3) and lead titanate (PbTiO3), commonly known as PZT, with general formula PbZr1−xTixO3 [2]. As mentioned in Chapter 1, although BaTiO3 was discovered before lead zirconate titanate (PZT), the latter soon dominated the market for piezoelectric applications because of its comprehensively excellent piezoelectric properties and high Curie temperature as well as the flexibility for compositional modification to adjust to specific applications.

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      This chapter is set up to enable the readers quickly learn about the lead‐free piezoelectrics by introducing their brief history, crystal structure, and physical natures for BaTiO3, (K,Na)NbO3, (Bi0.5Na0.5)TiO3, and BiFeO3 systems. We first introduce BaTiO3 not only because it is the first lead‐free ferroelectric compound, but also for the purpose to show the intrinsic role of Pb by comparing BaTiO3 with PbTiO3, which is a representative lead‐containing ferroelectric. The detailed research progress about each system will be given in Chapters3–7.

      Although BaTiO3 is the first lead‐free piezoelectric compound, its Curie point (approximately 130 °C) is moderate, which limits its piezoelectric applications. Nevertheless, there are also many studies on lead‐free piezoelectrics based on BaTiO3 [13, 14]. High piezoelectricity has been reported in pure BaTiO3 single crystals [15, 16] and fine‐grained ceramics [17, 18]. In 2009, Liu and Ren reported a large piezoelectric response for the BaTiO3‐based ceramic system with a d33 coefficient >600 pC/N [19], which is comparable with soft PZT ceramics. The details will be given in Chapter 5.