纳米技术
模块化设计
转化式学习
实施
系统工程
计算机科学
风险分析(工程)
管理科学
材料科学
范围(计算机科学)
设计要素和原则
工程伦理学
生物相容性材料
纳米材料
生化工程
合成生物学
灵活性(工程)
模块化(生物学)
数据科学
可重用性
作者
Yu Xia Hou,Ben Zhong Tang,Dong Wang
标识
DOI:10.1002/adma.202514134
摘要
Peptides exhibit exceptional potential in revolutionizing sensors, diagnostics, and therapeutics due to their multifunctionality, target specificity, self-assembly capacity, microenvironment responsiveness, and inherent biocompatibility. Nevertheless, conventional peptide nanomaterials are constrained by limitations in real-time monitoring and comprehensive disease management. Aggregation-induced emission luminogens (AIEgens) address the critical aggregation-caused quenching (ACQ) problem of traditional fluorophores by demonstrating intensified fluorescence emission and amplified photodynamic/photothermal performance in aggregated states. The strategic coupling of AIEgens with peptides (AIE-peptide) creates a synergistic "1+1>2" platform, enabling transformative applications in sensing, bioimaging, and theranostics. This review systematically evaluates innovative design strategies and emerging applications of AIE-peptide materials through molecular engineering perspectives. First, modular design principles are elucidated, followed by critical assessments of multidimensional breakthroughs in sensing, imaging, theranostics, and the synthesis of novel materials. Furthermore, current challenges and future directions for optimizing AIE-peptide architectures and translational implementations are comprehensively discussed. Given the nascent stage and rapid development of this field, continued progress is expected to address existing limitations and broaden practical implementations across diverse disciplines. This review aims to stimulate scientific discourse and inspire innovative frameworks for developing next-generation AIE-peptide materials with heightened biomedical efficacy and clinical impact.
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