Abstract
Tissue damage often causes considerable suffering to patients due to slow recovery and poor prognosis. The use of electroactive materials to deliver biophysical signals plays a key role in regulating tissue regeneration processes. Among these materials, piezoelectric materials have unique electromechanical conversion capabilities, making them suitable for use as cell scaffolds. They can deform and emit electrical signals in response to external stimuli, thereby regulating cell proliferation and differentiation. In this review, recent advances are presented in piezoelectric materials as physical signaling mediators that regulate cell differentiation. The basic mechanisms, classification of these materials, and their different applications in tissue regeneration are described. Finally, a comprehensive discussion of current challenges and prospects in the field is provided. Together, existing experimental results basically show that piezoelectric materials can improve the process and effect of tissue repair, providing new technical options for the development of tissue engineering in the future.