• 文献标题:   Engineering 3D graphene-like carbon-assembled layered double oxide for efficient microplastic removal in a wide pH range
  • 文献类型:   Article
  • 作  者:   PENG G, XIANG MX, WANG WZ, SU ZL, LIU HL, MAO YT, CHEN Y, ZHANG P
  • 作者关键词:   microplastic, removal, graphenelike carbon composite, layered double oxide, resourcereutilization
  • 出版物名称:   JOURNAL OF HAZARDOUS MATERIALS
  • ISSN:   0304-3894 EI 1873-3336
  • 通讯作者地址:  
  • 被引频次:   14
  • DOI:   10.1016/j.jhazmat.2022.128672 EA APR 2022
  • 出版年:   2022

▎ 摘  要

Microplastics (MPs) elimination is becoming an intractable environmental issue due to their nonbiodegradable nature and wide spreading, especially in the case of wastewater containing acid or alkaline effluent. To target the dilemma, this work rationally engineered a robust three-dimensional graphene-like carbon assembled layered double oxide material (defined as G@LDO) from hierarchical organic LDH (i.e., 3D OLDH) via a "pre-cursor-calcination " strategy. In virtue of the mutually protection effect of graphene-like carbon (G) and LDO, the engineered G@LDO featured the preeminent acid and base resistance for polystyrene (PS, as representative of MPs) removal. Especially and importantly, the removal efficiency of PS was >= 80% at pH= 3-11, even nearly 60% PS was removed at pH= 1 and 13. The maximum adsorption ability of G@LDO for PS was estimated to be 209.39 mg/g by a Langmuir isotherm model, much superior to that of pure G, LDO, and 2D G@LDO. Furthermore, the removal pathway was analyzed by kinetic together with thermodynamic study, revealing that the PS removal on G@LDO was an exothermic reaction controlled by chemisorption. By systematical characterization and DFT calculation, the removal mechanism of PS was revealed to be hydrogen bond and complexation associated with LDH recovered from LDO and 7C-7C conjunction from G. Notably, the existence of sulfure (S) in the carbon network was also identified as significant component in PS removal via p-7C interaction. Overall, this work not only provides a effective candidate for microplastics removal in a wide applicable scope (especially acid/alkaline effluent), shedding light on environmental remediation, but also opens a new anvenue for the disposal of LDHs adsorbed organic in a high value-added manner.