Plasmonics offers a promising framework for next-generation photonic applications,including optical tweezers,ultrafast lasing,and quantum communication.Integrating plasmonics into photonics enables efficient interface...Plasmonics offers a promising framework for next-generation photonic applications,including optical tweezers,ultrafast lasing,and quantum communication.Integrating plasmonics into photonics enables efficient interface coupling between heterogeneous systems,resulting in enhanced performance and diverse functionality.This review presents various unique encapsulation methods for developing plasmonics-embedded hybrid nanocomposite systems.Recent progress in the manipulation mechanisms of encapsulated plasmons is systematically summarized,offering an active modulation platform for optimizing optical performance.Considering the opportunities and challenges,the advancement of tunable encapsulated plasmons exhibits promising prospects,as demonstrated by a section discussing recent significant progress in photonic applications.展开更多
基金supported by the National Natural Science Foundation of China(12235009)Taishan Scholars Program of Shandong Province(tspd20210303).
文摘Plasmonics offers a promising framework for next-generation photonic applications,including optical tweezers,ultrafast lasing,and quantum communication.Integrating plasmonics into photonics enables efficient interface coupling between heterogeneous systems,resulting in enhanced performance and diverse functionality.This review presents various unique encapsulation methods for developing plasmonics-embedded hybrid nanocomposite systems.Recent progress in the manipulation mechanisms of encapsulated plasmons is systematically summarized,offering an active modulation platform for optimizing optical performance.Considering the opportunities and challenges,the advancement of tunable encapsulated plasmons exhibits promising prospects,as demonstrated by a section discussing recent significant progress in photonic applications.
