主題演講者（只有英文版本）

Advanced Ferroelectric Polymers for Wearables

Abstract

Owing to their high pliability, easy fabrication into complicated shapes, and light weight, ferroelectric polymers have been widely used in wearables such as sensors, transducers, and haptics. However, the low electromechanical coupling and low piezoelectric effect, compared with their inorganic counterparts, severely limit their performance and usefulness in these applications. This talk will present recent advances in ferroelectric polymers that exhibit the electromechanical coupling and piezo-coefficient higher than the most widely used piezo-PZT ceramics. Such a high EM performance, in addition to improve the performance of the current wearables, has the promise of realizing high efficiency wearable energy harvesting. Wearable cooling (and thermal management) is another area of great needs. Active cooling with high energy efficiency has several advantages compared with passive wearable cooling.  Ferroelectric polymers that generate large electrocaloric (EC) temperature change at ultralow electric fields may provide an attractive solution for active wearable cooling, which is voltage driven, compressor-free (low noise), compact size and light weight, and possesses high efficiency. This talk will present recent advances in EC polymer cooling devices and breakthroughs of EC polymers and polymer nanocomposites in generating large EC temperature change at very low electric fields.