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  • Spatial Isolation of Carbon and Silica in a Single Janus Mesoporous Nanoparticle with Tunable Amphiphilicity

    • 摘要:

      Like surfactants with tunable hydrocarbon chain length, Janus nanoparticles also possess the ability to stabilize emulsions. The volume ratio between the hydrophilic and hydrophobic domains in a single Janus nanoparticle is very important for the stabilization of emulsions, which is still a great challenge. Herein, dual-mesoporous FeO@mC&mSiO Janus nanoparticles with spatial isolation of hydrophobic carbon and hydrophilic silica at the single-particle level have successfully been synthesized for the first time by using a novel surface-charge-mediated selective encapsulation approach. The obtained dual-mesoporous FeO@mC&mSiO Janus nanoparticles are made up of a pure one-dimensional mesoporous SiO nanorod with tunable length (50-400 nm), 100 nm wide and 2.7 nm mesopores and a closely connected mesoporous FeO@mC magnetic nanosphere (150 nm diameter, 10 nm mesopores). As a magnetic "solid amphiphilic surfactant", the hydrophilic/hydrophobic ratio can be precisely adjusted by varying the volume ratio between silica and carbon domains, endowing the Janus nanoparticles surfactant-like emulsion stabilization ability and recyclability under a magnetic field. Owing to the total spatial separation of carbon and silica, the Janus nanoparticles with an optimized hydrophilic/hydrophobic ratio show spectacular emulsion stabilizing ability, which is crucial for improving the biphasic catalysis efficiency. By selectively anchoring catalytic active sites into different domains, the fabricated Janus nanoparticles show outstanding performances in biphasic reduction of 4-nitroanisole with 100% conversion efficiency and 700 h high turnover frequency for biphasic cascade synthesis of cinnamic acid.

    • 作者:

      Zhao Tiancong    Zhu Xiaohang    Hung Chin-Te    Wang Peiyuan    Elzatahry Ahmed    Al-Khalaf Areej Abdulkareem    Hozzein Wael N.    张凡    Xiaomin Li    赵东元    

    • 刊名:

      Journal of the American Chemical Society

    • 在线出版时间:

      2018