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Literature DB >> 26604046

Dual Effect of Manganese Oxide Micromotors: Catalytic Degradation and Adsorptive Bubble Separation of Organic Pollutants.

Owies M Wani¹, Muhammad Safdar¹, Niko Kinnunen¹, Janne Jänis².

Abstract

Manganese oxide (MnO2 ) based micromotors exhibiting a dual effect, that is, catalytic degradation and adsorptive bubble separation, were employed for water remediation. The dual effect of MnO2 microparticles led to a greater than 90 % of decolorization of non-biodegradable organic dyes in just 1 h, without the need for external agitation or bubble generation. These findings suggest high potential of MnO2 micromotors for decontamination of organic pollutants from wastewaters or natural water reserves.

Entities: Chemical Disease

Keywords: catalytic degradation; decolorization; manganese oxide; micromotors; remediation

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Year: 2015 PMID： 26604046 DOI： 10.1002/chem.201504474

Source DB: PubMed Journal: Chemistry ISSN： 0947-6539 Impact factor: 5.236

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Cited

4 in total

1. Bubble-propelled micromotors based on hierarchical MnO₂ wrapped carbon nanotube aggregates for dynamic removal of pollutants.

Authors: Xiukai Wu; Ling Chen; Chan Zheng; Xinxin Yan; Pingqiang Dai; Qianting Wang; Wei Li; Wenzhe Chen
Journal: RSC Adv Date: 2020-04-14 Impact factor: 3.361

Dual Effect of Manganese Oxide Micromotors: Catalytic Degradation and Adsorptive Bubble Separation of Organic Pollutants.

1. Bubble-propelled micromotors based on hierarchical MnO₂ wrapped carbon nanotube aggregates for dynamic removal of pollutants.

Review 2. Geometry Design, Principles and Assembly of Micromotors.

3. Graphene-Based Microbots for Toxic Heavy Metal Removal and Recovery from Water.

4. Cargo Transportation and Methylene Blue Degradation by Using Fuel-Powered Micromotors.

Dual Effect of Manganese Oxide Micromotors: Catalytic Degradation and Adsorptive Bubble Separation of Organic Pollutants.

1. Bubble-propelled micromotors based on hierarchical MnO2 wrapped carbon nanotube aggregates for dynamic removal of pollutants.

Review 2. Geometry Design, Principles and Assembly of Micromotors.

3. Graphene-Based Microbots for Toxic Heavy Metal Removal and Recovery from Water.

4. Cargo Transportation and Methylene Blue Degradation by Using Fuel-Powered Micromotors.

1. Bubble-propelled micromotors based on hierarchical MnO₂ wrapped carbon nanotube aggregates for dynamic removal of pollutants.