Photocatalytic TiO2 Micromotors for Removal of Microplastics and Suspended Matter

2019 ◽  
Author(s):  
Linlin Wang ◽  
Andrea Kaeppler ◽  
Dieter Fischer ◽  
Juliane Simmchen
Keyword(s):  
Natural Water ◽  
Environmental Contamination ◽  
Suspended Matter ◽  
Water Samples ◽  
Environmental Remediation ◽  
New Technologies ◽  
Diffusion Limitation ◽  
Global Challenge ◽  
Technical Interest ◽  
Photocatalytic Tio2

<p></p><p> Environmental contamination is a major global challenge and the effects of contamination are found in most habitats. In recent times, the pollution by microplastics has come to the global attention and their removal displays an extraordinary challenge with no reasonable solutions presented so far. One of the new technologies holding many promises for environmental remediation on the microscale are self-propelled micromotors. They present several properties that are of academic and technical interest, such as the ability to overcome the diffusion limitation in catalytic processes and their phoretic interaction with their environment. Here, we present two novel strategies for the elimination of microplastics using photocatalytic Au@Ni@TiO<sub>2</sub> -based micromotors. We show that individual catalytic particles as well as assembled chains show excellent collection and removal of suspended matter and microplastics from natural water samples.</p><p></p>

Photocatalytic TiO2 Micromotors for Removal of Microplastics and Suspended Matter

2019 ◽  
Author(s):  
Linlin Wang ◽  
Andrea Kaeppler ◽  
Dieter Fischer ◽  
Juliane Simmchen
Keyword(s):  
Natural Water ◽  
Environmental Contamination ◽  
Suspended Matter ◽  
Water Samples ◽  
Environmental Remediation ◽  
New Technologies ◽  
Diffusion Limitation ◽  
Global Challenge ◽  
Technical Interest ◽  
Photocatalytic Tio2

<p></p><p> Environmental contamination is a major global challenge and the effects of contamination are found in most habitats. In recent times, the pollution by microplastics has come to the global attention and their removal displays an extraordinary challenge with no reasonable solutions presented so far. One of the new technologies holding many promises for environmental remediation on the microscale are self-propelled micromotors. They present several properties that are of academic and technical interest, such as the ability to overcome the diffusion limitation in catalytic processes and their phoretic interaction with their environment. Here, we present two novel strategies for the elimination of microplastics using photocatalytic Au@Ni@TiO<sub>2</sub> -based micromotors. We show that individual catalytic particles as well as assembled chains show excellent collection and removal of suspended matter and microplastics from natural water samples.</p><p></p>

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