热电性
材料科学
生物界面
异质结
光电子学
纳米技术
钛酸钡
聚合物
光热治疗
电场
铁电性
极化(电化学)
热电晶体
铁电聚合物
能量收集
表面电荷
生物传感器
作者
Youzhun Fan,Fabang Yang,Zhaoyi Yin,Maofei Ran,Haoyan Chen,Shaojian Zhong,Jien Han,Ziyin Xiong,Ziqi Pan,Jinxia Zhai,Zhengao Wang,Chengyun Ning,Peng Yu
标识
DOI:10.1002/adfm.202600077
摘要
ABSTRACT Although pyroelectric materials are widely used in energy conversion, their biomedical potential‐particularly that of pyroelectric heterojunctions in implant materials‐remains unexplored. Here, a strongly interfacial coupled pyroelectric heterojunction was developed to prevent implant‐associated infections while enhancing osseointegration. The pyroelectric heterojunction is constructed by in situ growth of the conjugated polymer polypyrrole (PPy) onto barium titanate nanorods, in which PPy serves as a localized photothermal transducer and an interfacial charge mediator. Under near‐infrared irradiation, this heterojunction converts confined thermal fluctuations into transient pyroelectric polarization fields directly at the biointerface. The results indicate that the heterojunction‐mediated pyroelectric signals disrupt the electron transport in the bacterial respiratory chain, leading to efficient eradication of E. coli , MRSA, and P. gingivalis with antibacterial rates exceeding 99%. In addition, the built‐in electric field of the pyroelectric heterojunction enhances ATP synthesis and accelerates cellular energy metabolism in BMSCs, markedly promoting osteogenic differentiation. This work establishes a pyroelectric heterojunction‐based biointerface engineering strategy for implantable systems, presenting a versatile and programmable platform for on‐demand biointerface therapy.
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