Advancements in Functional Nanomaterials Inspired by Viral Particles

Virus‐like particles (VLPs) are nanostructures composed of one or more structural proteins, exhibiting stable and symmetrical structures. Their precise compositions and dimensions provide versatile opportunities for modifications, enhancing their functionality. Consequently, VLP‐based nanomaterials have gained widespread adoption across diverse domains. This review focuses on three key aspects: the mechanisms of viral capsid protein self‐assembly into VLPs, design methods for constructing multifunctional VLPs, and strategies for synthesizing multidimensional nanomaterials using VLPs. It provides a comprehensive overview of the advancements in virus‐inspired functional nanomaterials, encompassing VLP assembly, functionalization, and the synthesis of multidimensional nanomaterials. Additionally, this review explores future directions, opportunities, and challenges in the field of VLP‐based nanomaterials, aiming to shed light on potential advancements and prospects in this exciting area of research. This review provides a comprehensive overview of the advancements in virus‐inspired functional nanomaterials, encompassing the mechanisms of VLP self‐assembly, design methods for constructing multifunctional VLPs, and strategies for synthesizing multidimensional nanomaterials using VLPs. Additionally, it explores future directions, opportunities, and challenges in virus‐based nanomaterials, aiming to illuminate potential advancements and prospects in this exciting area of research.