Insight into the syntheses, performances and mechanisms of organically modified adsorbents for mercury ion sensing and removal

Organically modified materials constitute adsorbent materials that are made of organic functional groups grafted on organic substrate or inorganic substrate. The organically modified materials are the most widely used adsorbents for Hg(II) removal. This is because of the abundant organic and inorganic substrates that have desirable properties and ease of surface chemical modifications. These modifications are generally carried out on the substrates framework and their functional groups. In-depth understanding of the chemical reactions that are involved in the substrates synthesis and modifications, and how these relate to the Hg(II) adsorption mechanism will guide future research in the design and development of advanced adsorbents. In this review, the most recent advances in the synthesis of organically modified Hg(II) adsorbents, and how their properties relate to the Hg(II) adsorption mechanism have been presented and summarized. Novel emerging adsorbents such as the calixarene-based, covalent organic frameworks, supramolecular polymers and metal organic frameworks, and how luminescence sensing ability is utilized in some of these adsorbents for trace level detection of Hg(II) have been highlighted.

Automated summary

Organically modified materials are widely used adsorbents for Hg(II) removal due to their abundance of organic and inorganic substrates with desirable properties and ease of surface chemical modifications. Future research in the design and development of advanced adsorbents can be guided by a deeper understanding of the chemical reactions and their relation to the Hg(II) adsorption mechanism.