Hongqing Ma scite author profile

Many global mining activities release large amounts of acidic mine drainage with high levels of manganese (Mn) having potentially detrimental effects on the environment. This review provides a comprehensive assessment of the main implications and challenges of Mn(II) removal from mine drainage. We first present the sources of contamination from mineral processing, as well as the adverse effects of Mn on mining ecosystems. Then the comparison of several techniques to remove Mn(II) from wastewater, as well as an assessment of the challenges associated with precipitation, adsorption, and oxidation/filtration are provided. We also critically analyze remediation options with special emphasis on Mn-oxidizing bacteria (MnOB) and microalgae. Recent literature demonstrates that MnOB can efficiently oxidize dissolved Mn(II) to Mn(III, IV) through enzymatic catalysis. Microalgae can also accelerate Mn(II) oxidation through indirect oxidation by increasing solution pH and dissolved oxygen production during its growth. Microbial oxidation and the removal of Mn(II) have been effective in treating artificial wastewater and groundwater under neutral conditions with adequate oxygen. Compared to physicochemical techniques, the bioremediation of manganese mine drainage without the addition of chemical reagents is relatively inexpensive. However, wastewater from manganese mines is acidic and has low-levels of dissolved oxygen, which inhibit the oxidizing ability of MnOB. We propose an alternative treatment for manganese mine drainage that focuses on the synergistic interactions of Mn in wastewater with co-immobilized MnOB/microalgae.

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Ceria Modified MnOx/TiO2-Pillared Clays Catalysts for the Selective Catalytic Reduction of NO with NH3 at Low Temperature

Shen

Yao

et al. 2011

Chinese Journal of Catalysis

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A dynamic three-path authenticating model for anti-counterfeiting in a single host of CaAl2Si2O8

Tian

Zhang

Yang

et al. 2021

Chemical Engineering Journal

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Mechanism study on manganese(II) removal from acid mine wastewater using red mud and its application to a lab-scale column

et al. 2020

Journal of Cleaner Production

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Plant tissue imaging with bipyramidal upconversion nanocrystals by introducing Tm³⁺ ions as energy trapping centers

Qiao

et al. 2021

Nanoscale

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Identifying and utilizing optical properties in the CaSrNb₂O₇:Pr³⁺phosphor at low temperature

et al. 2022

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A Temporal and Space Anti-counterfeiting Based on the Four-Modal Luminescent Ba₂Zr₂Si₃O₁₂ Phosphors

et al. 2022

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Fluorescent anti-counterfeiting materials have been widely studied due to their high resolution and convenient identification by direct visualization of the color output. To date, the anti-counterfeiting technology of single ultraviolet excitation mode still has security problems because the single mode could be imitated easily. Here, we have successfully developed four modes of anti-counterfeiting from Eu 2+ and Er 3+ co-doped Ba 2 Zr 2 Si 3 O 12 phosphors with photo, long persistent, photo-stimulated, and upconversion luminescence behavior. The as-fabricated phosphors can emit an intense blue-green luminescence originating from the characteristic transition of Eu 2+ ions and exhibit a blue-green long persistent luminescence phenomenon. Moreover, the enhancement of photo-stimulated luminescence that contributed to the effectively increased trap concentration is observed, along with the produced up-conversion phenomenon thanks to the introduction of Er 3+ ions. Notably, the fluorescence rapidly changes from blue-green to stable green luminescence with the delay of excitation time under the excitation of a 980 nm laser diode. Herein, this work realizes the fast down-to up-conversion luminescence output over time, which provides the basis for its possible application in advanced multi-mode anti-counterfeiting.

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Hongqing Ma

A comparative study of Mn/CeO2, Mn/ZrO2 and Mn/Ce-ZrO2 for low temperature selective catalytic reduction of NO with NH3 in the presence of SO2 and H2O

Removal of Manganese(II) from Acid Mine Wastewater: A Review of the Challenges and Opportunities with Special Emphasis on Mn-Oxidizing Bacteria and Microalgae

Ceria Modified MnOx/TiO2-Pillared Clays Catalysts for the Selective Catalytic Reduction of NO with NH3 at Low Temperature

A dynamic three-path authenticating model for anti-counterfeiting in a single host of CaAl2Si2O8

Mechanism study on manganese(II) removal from acid mine wastewater using red mud and its application to a lab-scale column

Plant tissue imaging with bipyramidal upconversion nanocrystals by introducing Tm³⁺ ions as energy trapping centers

Identifying and utilizing optical properties in the CaSrNb₂O₇:Pr³⁺phosphor at low temperature

A Temporal and Space Anti-counterfeiting Based on the Four-Modal Luminescent Ba₂Zr₂Si₃O₁₂ Phosphors

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Hongqing Ma

A comparative study of Mn/CeO2, Mn/ZrO2 and Mn/Ce-ZrO2 for low temperature selective catalytic reduction of NO with NH3 in the presence of SO2 and H2O

Removal of Manganese(II) from Acid Mine Wastewater: A Review of the Challenges and Opportunities with Special Emphasis on Mn-Oxidizing Bacteria and Microalgae

Ceria Modified MnOx/TiO2-Pillared Clays Catalysts for the Selective Catalytic Reduction of NO with NH3 at Low Temperature

A dynamic three-path authenticating model for anti-counterfeiting in a single host of CaAl2Si2O8

Mechanism study on manganese(II) removal from acid mine wastewater using red mud and its application to a lab-scale column

Plant tissue imaging with bipyramidal upconversion nanocrystals by introducing Tm3+ ions as energy trapping centers

Identifying and utilizing optical properties in the CaSrNb2O7:Pr3+phosphor at low temperature

A Temporal and Space Anti-counterfeiting Based on the Four-Modal Luminescent Ba2Zr2Si3O12 Phosphors

Contact Info

Product

Resources

About

Plant tissue imaging with bipyramidal upconversion nanocrystals by introducing Tm³⁺ ions as energy trapping centers

Identifying and utilizing optical properties in the CaSrNb₂O₇:Pr³⁺phosphor at low temperature

A Temporal and Space Anti-counterfeiting Based on the Four-Modal Luminescent Ba₂Zr₂Si₃O₁₂ Phosphors