Achieving high adsorption capacity and ultrafast removal of methylene blue and Pb2+ by graphene-like TiO2@C

Abstract

Abstract Water pollution from heavy metal ions and organic have threatened human health and the removal of those pollutions from wastewater has become a critical issue around the world. Herein, we synthesized the ultrathin, high surface area graphene-like TiO2@C adsorbent via a simple solvothermal process. Benefiting from the unique structure, abundant active functional groups and high surface area (417\u2009m2\u2009g−1), the TiO2@C-2 exhibited high adsorption capacities of Pb2+ (331.7\u2009mg/g) and methylene blue (444.8\u2009mg/g). In addition, the adsorption equilibriums of graphene-like can be achieved within 2\u2009min. The FTIR and XPS analysis proving that the high adsorption capacities attribute to hydroxyl groups, hydrogen bonding/or electrostatic. This investigation not only provides a new insight to design TiO2@C hybrid adsorbent but also demonstrates its promising application in removal heavy metals and organic pollutions from aqueous solution.