个人信息Personal Information
教授
博士生导师
硕士生导师
主要任职:光电工程与仪器科学学院院长、党委副书记
其他任职:辽宁省先进光电子技术重点实验室副主任,大连市新型功能材料与光电子器件重点实验室主任,中国超材料学会理事,中国机械工程学会极端制造分委员会委员,国际先进材料学会会士,Microsystems&Nanoengineering、chemosensors等期刊副编辑
性别:男
毕业院校:布里斯托尔大学
学位:博士
所在单位:光电工程与仪器科学学院
学科:光学工程. 电磁场与微波技术. 光学. 测试计量技术及仪器. 精密仪器及机械
办公地点:研教楼706
联系方式:0411-84706156
电子邮箱:caotun1806@dlut.edu.cn
Fano Resonance in Asymmetric Plasmonic Nanostructure: Separation of Sub-10 nm Enantiomers
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论文类型:期刊论文
发表时间:2019-02-01
发表刊物:ADVANCED OPTICAL MATERIALS
收录刊物:SCIE、Scopus
卷号:7
期号:3
ISSN号:2195-1071
关键字:chirality; Fano resonance; optical forces; plasmonic nanostructure; separating
摘要:Separating enantiomers is vital in chemical syntheses, life sciences, and physics. However, the usual chemical processes are inefficient. Recently, plasmonic nanostructures have drawn considerable attention for manipulating nanoparticles; however, only a few approaches are proposed to discriminate between entities that differ in terms of their handedness. This is because the chiral polarizability is much smaller than the electric polarizability, and therefore the non-chiral gradient force dominates over the chiral gradient force. This limit means that the enantioselective sorting of chiral nanoparticles is a formidable challenge. A plasmonic nanostructure consisting of a disc-double split ring resonator exhibiting a dipole-octupole (DO) Fano resonance (FR) is designed and fabricated. It is theoretically demonstrated that such a DO-FR can markedly enhance the chiral gradient force on the paired enantiomers. The coaxial channel of the resonator possessing high chirality density gradients around the DO-FR is derived. This provides an enhanced chiral gradient force that dominates over the non-chiral gradient forces on sub-10 nm chiral nanoparticles. Enantiomeric pairs can thus experience distinct potential wells in terms of signs. This proposed structure may advance the techniques of enantiopurification and enantioseparation, bringing a new perspective to state-of-the-art all-optical enantiopure synthesis.