Indexed by:期刊论文

First Author:Ding, Baojun

Correspondence Author:Tao, Shengyang(taosy@dlut.edu.cn)

Co-author:Ge, Shuo,Wang, Jie,Tao, Shengyang,Ding, Yunzhe,Zhang, Lijing,Gao, Ning,Li, Guangtao,Shi, Haonan,Li, Weijun

Date of Publication:2018-01-01

Journal:Journal of colloid and interface science

Included Journals:PubMed、SCIE、EI

Volume:522

Page Number:1-9

ISSN No.:1095-7103

Key Words:Pollutants; Multi-functional; Microspheres; Modular fashion; Microfluidic

Abstract:Water pollution control has become significant challenges in recent years because of their extensive species diversity. It is critical to developing general-purpose materials for environmental rehabilitation. In this paper, a novel module-assembly method is developed to prepare multi-functional materials for treating pollutants in water. Building blocks are porous nanoparticles with a different function. Microspheres (MS) with a diameter of 90 mum are prepared and have a coefficient of variation of 6.8%. The modular fashion of self-assembly process in a microfluidic chip is the crucial factor in fabricating the multifunction material. The assembled microspheres with different building modules still have a specific surface area larger than 400 m2 g-1, and exhibit excellent performance in adsorbing various pollutants in water, such as heavy metal ions and organic dyes. The adsorption capacities of them to Hg2+ and orange II reach 150 mg g-1 and 333 mg g-1, respectively. The integrated fluorescence probes in microspheres can detect low concentration (9.8 ppb) of Hg2+. Microspheres integrated with Fe3O4 nanoparticles have a magnetic susceptibility of 6.01 emu g-1 and can be easily removed from wastewater by applying an external magnetic. Due to the stability of inorganic building blocks, each function in the assembled system is well performed, and multi-functional "All-in-One" materials can be easily fabricated. Copyright © 2018 Elsevier Inc. All rights reserved.