Journal
DALTON TRANSACTIONS
Volume 47, Issue 23, Pages 7839-7847Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/c8dt01480a
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Funding
- National Natural Science Fund of China [21305086, 21371108]
- Natural Science Foundation of Shanghai City [18ZR1416400]
- Research Innovation Program of Shanghai Municipal Education Commission [14YZ138]
- Special Scientific Foundation for Outstanding Young Teachers Scientific Foundation for Outstanding Young Teachers in Shanghai Higher Education Institutions [ZZGJD13016]
- Start-up Funding of Shanghai University of Engineering Science [2013td08]
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Metallic nickel-or cobalt-based composites with hollow nanostructures such as nanocages can serve as both advanced catalysts and protein adsorbents owing to their high surface area and increased active sites; hence, they have aroused great interest. Herein, we report a facile route to synthesize hollow carbon spheres (HCS) embedded with bimetallic NiCo nanoparticles (NPs) with hollow structures by using NiCo hydroxide layered nanosheet functionalized carboxyl polystyrene spheres (CPS) as a template and polydopamine (PDA) as both the carbon precursor and reductant. This unique hierarchical architecture, including meso-and macro-pores, provides a large specific surface area (244 m(2) g(-1)) and efficient channels for the diffusion of small molecules and biomacromolecules (protein). These features greatly facilitate the excellent performances of C@CoNi for the reduction of 4-nitrophenol and His-rich protein adsorption. Moreover, the size of the surficial CoNi NPs can be facilely modulated by changing the calcination temperature, which can effectively control the catalytic and adsorption performances of the as-prepared nanocomposites. The as-prepared C@CoNi is employed as a catalyst to investigate its catalytic performance in the reduction of 4-nitrophenol (4-NP). Furthermore, the nickel nanoparticles decorated on the hollow microspheres display a strong affinity to His-rich proteins (BHb and BSA) via specific metal affinity forces between the polyhistidine groups and nickel nanoparticles.
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