Ultrahigh Performance Piezoelectric Energy Harvester Using Lead-Free Piezoceramics with Large Electromechanical Coupling Factor

The output power of piezoelectric energy harvester (PEH) at the resonance frequency is dependent on the electromechanical coupling factor (kp) of the piezoceramic, which is proportional to d33/eT331/2, where d33 and eT33 are the piezoelectric change and dielectric constants, respectively. Therefore, the piezoceramic for the PEH should have a large d33 and a small eT33. [001]-texturing can be used for developing piezoceramics for PEH because it generally increases d33 without increasing eT33. The 0.96(K0.5Na0.5)(N1-zSz)O-3-0.03(Bi0.5Ag0.5)ZrO3-0.01SrZrO(3) [KN(N1-zSz)-BAZ-SZ] piezoceramics were textured along the [001] orientation, and the piezoceramic (z=0.01) showed a large kp of 0.77, which is the largest kp for KNN-related piezoceramics reported in the literature. The cantilever-type PEH manufactured using the KN(N0.99S0.01)-BAZ-SZ piezoceramic exhibited a large output power density of 7.86 mW/cm(3) at resonance frequency because of its large kp. To date, this is the largest power density for PEHs manufactured utilizing lead-free piezoceramics. Hence, the [001]-textured KN(N0.99S0.01)-BAZ-SZ piezoceramic is an excellent candidate for PEH, and [001]-texturing is a very efficient method for developing piezoceramics for PEH.

Automated summary

The output power of piezoelectric energy harvester (PEH) depends on the electromechanical coupling factor (kp) of the piezoceramic, which can be increased by [001]-texturing. The [KN(N1-zSz)-BAZ-SZ] piezoceramics textured along [001] orientation showed a large kp of 0.77, the highest reported for KNN-related piezoceramics. A cantilever-type PEH using the [KN(N0.99S0.01)-BAZ-SZ] piezoceramic achieved a high output power density of 7.86 mW/cm(3), the highest among lead-free piezoceramics based PEHs. Therefore, [001]-textured KN(N0.99S0.01)-BAZ-SZ piezoceramic is an excellent candidate for PEH and [001]-texturing is an efficient method for developing piezoceramics for PEH.