New Monitoring Approaches
Advanced monitoring strategies for determination of Pharmaceuticals and Personal Care Products (PPCPs) to provide a profound knowledge regarding the occurrence of the target PPCPs in a WWTP
Learn MoreThe Project
Dispersive Microextraction Techniques
Development of more powerful miniaturized SPE strategies (dispersive and packed sorbent strategies) dedicated to analysis of multi class of PPCPs & TPs, wastewaters as an alternative to conventional SPE protocols by using newly developed graphened-based materials
Learn MoreHigh resolution Mass Spectrometry
High-resolution mass spectrometry (HRMS) methods for nontarget discovery and characterization of PPCPs in wastewaters
Learn MoreAdvanced Removal Strategies
The photocatalytic treatment of selected PPCPs will be investigated by using TiO2 photocatalysts/UV/Chlorine advanced oxidation technology
Learn MoreNovel Adsorption Materials
A series of sorbent materials of Super-Adsorbent Materials (SAMs) and Molecularly Imprinted Polymers (MIPs)) will be synthesized having mainly as target to bind/remove pollutants and reduce the preparation cost
Learn MoreSampling & Analysis of Microplastics
Design and validation of a high-volume sampling device with multiple mesh screens. Development of an efficient sample processing method including density separation, clean up steps and biomass removal
Learn MoreThe Ultimate Goal of the Project
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The ultimate goal of the proposed research is to develop an integration methodology framework combining novel sampling, monitoring and removal strategies in order to manage and remove emerging micropollutants such as PPCPs and microplastics in wastewaters. The project is divided into three phases; the first phase is the monitoring of the PPCPs in a municipal WWTP by using novel Super-Adsorbent Materials (SAMs) and Molecularly Imprinted Polymers (MIPs) materials with remarkable properties, the second will focus on removal approaches of PPCPs by using AOPs and the third is focused on sampling and monitoring of microplastics in wastewaters
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The ultimate goal of the proposed research is to develop an integration methodology framework combining novel sampling, monitoring and removal strategies in order to manage and remove emerging micropollutants such as PPCPs and microplastics in wastewaters. The project is divided into three phases; the first phase is the monitoring of the PPCPs in a municipal WWTP by using novel Super-Adsorbent Materials (SAMs) and Molecularly Imprinted Polymers (MIPs) materials with remarkable properties, the second will focus on removal approaches of PPCPs by using AOPs and the third is focused on sampling and monitoring of microplastics in wastewaters
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The ultimate goal of the proposed research is to develop an integration methodology framework combining novel sampling, monitoring and removal strategies in order to manage and remove emerging micropollutants such as PPCPs and microplastics in wastewaters. The project is divided into three phases; the first phase is the monitoring of the PPCPs in a municipal WWTP by using novel Super-Adsorbent Materials (SAMs) and Molecularly Imprinted Polymers (MIPs) materials with remarkable properties, the second will focus on removal approaches of PPCPs by using AOPs and the third is focused on sampling and monitoring of microplastics in wastewaters
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