【Small】Tenon-and-Mortise Structure Inspired MOF/PVDF Composites with Enhanced Piezocatalytic Performance via Dipole-Engineering Strategy(IF=13.0))
作者:Yifan Liu, Bo Liu, Shuteng Wang, Wei Ye, Shifang Luan, Lei Wang*, and Hengchong Shi*.
關鍵字:poly(vinylidene difluoride), MOF/PVDF piezoelectric nanocomposite
論文來源:期刊
具體來源:Small
發表時間:2025年
Abstract:
Fabricating poly(vinylidene fluoride) (PVDF) and its composite ferroelectrics is essential for the development of next-generation lightweight, portable, wearable, and implantable intelligent devices. However, integrating and maximizing spontaneous polarization and interfacial electromechanical conversion efficiency remain major challenges in the contemporary PVDF-based composites field. Herein, inspired by the tenon-and-mortise structure associated with ancient Chinese architecture, we constructed an amino-anchored MOF/PVDF piezoelectric composite using a dipole-engineering strategy to deliver enhanced piezocatalytic performance. Homogeneous and long-range ordered hydrogen-bond networks had formed with the PVDF matrix after introducing periodically arranged amino anchors into the NH2-HU MOF. The NH2-HU10wt%/PVDF composite exhibited a 40% greater β-phase content and a remnant polarization value more than 550% higher than that of the bare PVDF fibers. These amino anchors synergistically enhanced both the local electric field and collaborative dipole alignment that resulted in a piezocatalytic bactericidal performance of 97.4% when irradiated under clinical ultrasound conditions. Moreover, the enhanced polarizability within the MOF/PVDF composite simultaneously improved its responsiveness to X-rays via its periodic amino anchoring networks, thereby doubling CT imaging efficacy for implants at lower voltages. Integrating piezoelectric MOFs and polymer matrices through molecular design presents a viable approach for optimizing ferroelectric properties and expanding piezoelectric-composite applications.