National Research Council, CNR-SCITEC, Via G. Fantoli 16/15, Milan 20138, Italy.
National Research Council, CNR-SCITEC, Via C. Golgi 19, Milan 20133, Italy.
ACS Appl Mater Interfaces. 2020 Aug 26;12(34):38522-38529. doi: 10.1021/acsami.0c08241. Epub 2020 Aug 18.
Anisotropic gold nanoparticles (AuNPs), with their unique physical and optical properties, are emerging as smart and key nanomaterials and are being exploited in many crucial fields. To further improve their range of action, anisotropic AuNPs have been coupled with semiconductors, mainly TiO (titania), receiving great interest as powerful platforms both in biomedicine and in catalytic applications. Such hybrid nanoparticles show new properties that arise from the synergic action of the components and rely on NP size, morphology, and arrangement. Therefore, continuous advances in design and fabrication of new hybrid titania@gold NPs (TiO@AuNPs) are urgent and highly desirable. Here, we propose an effective protocol to produce multibranched AuNPs covered by a controlled TiO thin layer, exploiting a one-pot microfluidic process. The proposed method allows the in-flow and reliable synthesis of titania-functionalized-anisotropic gold nanoparticles by avoiding the use of toxic surfactants and controlling the titania shell formation. TiO@AuNPs have been fully characterized in terms of morphology, stability, and biocompatibility, and their activity in photocatalysis has been tested and verified.
各向异性金纳米粒子(AuNPs)具有独特的物理和光学特性,作为智能关键纳米材料而崭露头角,并在许多关键领域得到了广泛应用。为了进一步扩大其应用范围,各向异性 AuNPs 已与半导体(主要是 TiO(二氧化钛))结合,作为强大的平台,在生物医学和催化应用中都受到了极大的关注。这些混合纳米粒子表现出协同作用产生的新特性,并且依赖于 NP 尺寸、形态和排列。因此,迫切需要和期望不断推进新型 TiO@AuNPs(TiO@AuNPs)的设计和制造方面的进展。在这里,我们提出了一种通过一步微流控工艺制备具有可控 TiO 薄层的多分支 AuNPs 的有效方案。该方法通过避免使用有毒表面活性剂和控制 TiO 壳形成,实现了在流动状态下可靠地合成具有 TiO 功能化的各向异性金纳米粒子。从形态、稳定性和生物相容性方面对 TiO@AuNPs 进行了全面的表征,并验证了其在光催化中的活性。
