Linear and Nonlinear Optical Properties of Photoresponsive [60]Fullerene Hybrid Triads and Tetrads with Dual NIR Two-Photon Absorption Characteristics.

The journal of physical chemistry. C, Nanomaterials and interfaces Pub Date : 2013-08-20 DOI:10.1021/jp405424q

Seaho Jeon, Joy Haley, Jonathan Flikkema, Venkatram Nalla, Min Wang, Matthew Sfeir, Loon-Seng Tan, Thomas Cooper, Wei Ji, Michael R Hamblin, Long Y Chiang

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引用次数: 19

Abstract

Two C60-(antenna)x analogous compounds having branched hybrid triad C60(>DPAF-C18)(>CPAF-C2M) and tetrad C60(>DPAF-C18)(>CPAF-C2M)2 nanostructures were synthesized and characterized. The structural design was intended to facilitate the ultrafast fs intramolecular energy-transfer from photoexcited C60[>1(DPAF)*-C18](>CPAF-C2M)1or2 or C60(>DPAF-C18)[>1(CPAF)*-C2M]1or2 to the C60> cage moiety upon two-photon pumping at either 780 or 980 nm, respectively. The latter nanostructure showed approximately equal extinction coefficients of optical absorption over 400-550 nm that corresponds to near-IR two-photon based excitation wavelengths at 780-1100 nm for broadband nonlinear optical (NLO) applications. Aside from their enhanced two-photon absorption (2PA) activity at 780 nm, we also demonstrated ultrafast photo-responses at 980 nm showing 2PA cross-section (σ2) values of 995-1100 GM for the hybrid tetrad. These σ2 values were correlated to the observed good efficiency in reducing fs light-transmittance down to 35% at the light intensity of 110 GW/cm2. Accordingly, 2PA characteristics of these nanostructures at multiple NIR wavelengths provided support for their suitability in uses as broadband NLO nanomaterials at 600-1100 nm that includes the 2PA ability of two antenna, DPAF (700-850 nm) and CPAF (850-1100 nm), and the fullerene cage at shorter wavelengths (600-700 nm).

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具有双近红外双光子吸收特性的富勒烯杂化三元和四元体的线性和非线性光学性质[60]。

合成了具有支链杂化三联体C60(>DPAF-C18)(> caf - c2m)和四联体C60(>DPAF-C18)(> caf - c2m)2纳米结构的C60-(天线)x类似化合物，并对其进行了表征。该结构设计旨在促进光激发C60[>1(DPAF)*-C18](>CPAF-C2M)1or2或C60(>DPAF-C18)[>1(CPAF)*-C2M]1or2在780或980 nm的双光子泵浦下向C60>笼段的超快分子内能量转移。后一种纳米结构在400 ~ 550 nm范围内具有近似相等的光吸收消光系数，对应于宽带非线性光学(NLO)应用中780 ~ 1100 nm的近红外双光子激发波长。除了在780 nm处双光子吸收(2PA)活性增强外，我们还展示了980 nm处的超快光响应，表明杂化四分体的2PA截面(σ2)值为995 ~ 1100 GM。这些σ2值与观察到的在110 GW/cm2光强下将fs的透光率降低到35%的良好效率有关。因此，这些纳米结构在多个近红外波长下的2PA特性为其在600-1100 nm下作为宽带NLO纳米材料的适用性提供了支持，包括DPAF (700-850 nm)和CPAF (850-1100 nm)两种天线的2PA能力，以及更短波长(600-700 nm)的富勒烯笼。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The journal of physical chemistry. C, Nanomaterials and interfaces

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