Matches in UGent Biblio for { ?s ?p Pharmaceuticals are often hardly biodegradable and physicochemical technologies are required for their removal from water. Degradation by advanced oxidation processes is intensively studied in last years. However, analytical methodologies to detect AOP-induced pharmaceutical degradation products and to assess their biological effects have not been reviewed until now. The authors aim to fill up this literature gap. The main goal is to bring forward a critical overview of the state-of-the-art of analytical techniques and the information they provide to clearly distinct 5 identification levels that are applicable for micropollutant degradation products in general. Next, literature data dealing with the application of identification tools is systematically summarized. Literature sources were mainly published from 2005 to 2008.. }
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- aggregation abstract "Pharmaceuticals are often hardly biodegradable and physicochemical technologies are required for their removal from water. Degradation by advanced oxidation processes is intensively studied in last years. However, analytical methodologies to detect AOP-induced pharmaceutical degradation products and to assess their biological effects have not been reviewed until now. The authors aim to fill up this literature gap. The main goal is to bring forward a critical overview of the state-of-the-art of analytical techniques and the information they provide to clearly distinct 5 identification levels that are applicable for micropollutant degradation products in general. Next, literature data dealing with the application of identification tools is systematically summarized. Literature sources were mainly published from 2005 to 2008.".