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Literature DB >> 16271826

Capture of mercury ions by natural and industrial materials.

F Di Natale¹, A Lancia, A Molino, M Di Natale, D Karatza, D Musmarra.

Abstract

In this paper the technical feasibility of various adsorbents for mercury removal from contaminated waters has been studied. Adsorption isotherms of mercury ions in aqueous solution have been experimentally measured on a granular activated carbon (Aquacarb 207EA), a char, a pozzolana and a yellow tuff. The experimental evidences show that the mercury capture capacity of yellow tuff and char is of few tenths of milligrams per gram of sorbent while for the pozzolana and the activated carbon this value is of the order of 1mg/g of sorbent. Moreover, for a mercury concentration as high as 3000 microg/l the pozzolana shows the highest adsorption capacity. This result seems to be quite interesting, especially in consideration of the extremely low cost of this natural sorbent.

Entities: Chemical

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Year: 2005 PMID： 16271826 DOI： 10.1016/j.jhazmat.2005.09.046

Source DB: PubMed Journal: J Hazard Mater ISSN： 0304-3894 Impact factor: 10.588

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Cited

8 in total

1. Use of red mud (bauxite residue) for the retention of aqueous inorganic mercury(II).

Authors: David A Rubinos; María Teresa Barral
Journal: Environ Sci Pollut Res Int Date: 2015-07-05 Impact factor: 4.223

2. Development of a fused imidazo[1,2-a]pyridine based fluorescent probe for Fe³⁺ and Hg²⁺ in aqueous media and HeLa cells.

Authors: Suman Srivastava; Neha Thakur; Ashutosh Singh; Poonam Shukla; Vipin Kumar Maikhuri; Neha Garg; Ashok Prasad; Rampal Pandey
Journal: RSC Adv Date: 2019-09-20 Impact factor: 4.036

3. A Facile Preparation of a New Water-Soluble Acridine Derivative and Application as a Turn-off Fluorescence Chemosensor for Selective Detection of Hg².

Authors: Marcelo Carpes Nunes; Fabiane Dos Santos Carlos; Otávio Fuganti; Letícia Aparecida da Silva; Hennrique Taborda Ribas; Sheila Maria Brochado Winnischofer; Fábio Souza Nunes
Journal: J Fluoresc Date: 2020-01-23 Impact factor: 2.217

4. Exploring the Scope of Photo-Induced Electron Transfer-Chelation-Enhanced Fluorescence-Fluorescence Resonance Energy Transfer Processes for Recognition and Discrimination of Zn²⁺, Cd²⁺, Hg²⁺, and Al³⁺ in a Ratiometric Manner: Application to Sea Fish Analysis.

Authors: Milan Ghosh; Sabyasachi Ta; Mahuya Banerjee; Md Mahiuddin; Debasis Das
Journal: ACS Omega Date: 2018-04-16

Review 5. A Comprehensive Review on Thiophene Based Chemosensors.

Authors: Rikitha S Fernandes; Nitinkumar S Shetty; Priyanka Mahesha; Santhosh L Gaonkar
Journal: J Fluoresc Date: 2021-10-08 Impact factor: 2.217

Review 6. The Utilization of Algae and Seaweed Biomass for Bioremediation of Heavy Metal-Contaminated Wastewater.

Authors: Hussein Znad; Md Rabiul Awual; Sri Martini
Journal: Molecules Date: 2022-02-14 Impact factor: 4.411

7. Colorimetric screening of elevated urinary mercury levels by a novel Hg²⁺-selective probe of resorufin phosphinothioate.

Authors: Myung Gil Choi; Byung Hoon Yun; Hyeong Min Kim; Sangdoo Ahn; Suk-Kyu Chang
Journal: RSC Adv Date: 2022-08-24 Impact factor: 4.036

8. Dual Sensing Performance of 1,2-Squaraine for the Colorimetric Detection of Fe³⁺ and Hg²⁺ Ions.

Authors: Xiaoqian Liu; Na Li; Min-Min Xu; Chunhui Jiang; Jianhao Wang; Guoqiang Song; Yong Wang
Journal: Materials (Basel) Date: 2018-10-16 Impact factor: 3.623

8 in total

Capture of mercury ions by natural and industrial materials.

1. Use of red mud (bauxite residue) for the retention of aqueous inorganic mercury(II).

2. Development of a fused imidazo[1,2-a]pyridine based fluorescent probe for Fe3+ and Hg2+ in aqueous media and HeLa cells.

3. A Facile Preparation of a New Water-Soluble Acridine Derivative and Application as a Turn-off Fluorescence Chemosensor for Selective Detection of Hg2.

4. Exploring the Scope of Photo-Induced Electron Transfer-Chelation-Enhanced Fluorescence-Fluorescence Resonance Energy Transfer Processes for Recognition and Discrimination of Zn2+, Cd2+, Hg2+, and Al3+ in a Ratiometric Manner: Application to Sea Fish Analysis.