Development of magnetic graphene @hydrophilic polydopamine for the enrichment and analysis of phthalates in environmental water samples

“…The new method developed in this study was compared with some previously reported methods for the extraction and determination of PAEs (Table 3). The proposed method demonstrated comparable LODs, LOQs, and recoveries compared to other reported MSPE methods in water samples (Wang et al., 2015; Ye et al., 2014; Zare Jeddi, Ahmadkhaniha, Yunesian, & Rastkari, 2014). Moreover, the method developed in the present study exhibited lower LODs than other extraction methods that use dispersive‐SPE with colloidal graphene (Wu et al., 2013), and SBSE with polydimethylsiloxane (Si et al., 2016).…”

“…Graphene oxide has attracted interest as a promising sorbent material due to its hydrophilicity, ultrahigh surface area, and high dispersion stability (González‐Sálamo, Socas‐Rodríguez, Hernandez‐Borges, & Rodríguez‐Delgado, 2016). In this regard, several PAEs also have been determined using graphene oxide (Wang, Song, & Deng, 2015; Wu et al., 2013; Ye, Liu, & Chen, 2014); however, nanoscale materials possess some disadvantages in terms of their large‐scale synthesis and hazards associated with their postadsorption disposal (Shaida, Dutta, & Sen, 2018). Consequently, the use of inexpensive and naturally derived materials is more appropriate for the adsorption of environmental pollutants.…”

Magnetic solid‐phase extraction based on magnetic carbon particles from coffee grounds for determining phthalic acid esters in plastic bottled water

“…The new method developed in this study was compared with some previously reported methods for the extraction and determination of PAEs (Table 3). The proposed method demonstrated comparable LODs, LOQs, and recoveries compared to other reported MSPE methods in water samples (Wang et al., 2015; Ye et al., 2014; Zare Jeddi, Ahmadkhaniha, Yunesian, & Rastkari, 2014). Moreover, the method developed in the present study exhibited lower LODs than other extraction methods that use dispersive‐SPE with colloidal graphene (Wu et al., 2013), and SBSE with polydimethylsiloxane (Si et al., 2016).…”

“…Graphene oxide has attracted interest as a promising sorbent material due to its hydrophilicity, ultrahigh surface area, and high dispersion stability (González‐Sálamo, Socas‐Rodríguez, Hernandez‐Borges, & Rodríguez‐Delgado, 2016). In this regard, several PAEs also have been determined using graphene oxide (Wang, Song, & Deng, 2015; Wu et al., 2013; Ye, Liu, & Chen, 2014); however, nanoscale materials possess some disadvantages in terms of their large‐scale synthesis and hazards associated with their postadsorption disposal (Shaida, Dutta, & Sen, 2018). Consequently, the use of inexpensive and naturally derived materials is more appropriate for the adsorption of environmental pollutants.…”

Magnetic solid‐phase extraction based on magnetic carbon particles from coffee grounds for determining phthalic acid esters in plastic bottled water

“…Importantly, it is suitable for handling large volumes of samples . Recently, MSPE with HPLC and GC has been successfully applied to the separation, concentration, and analysis of various organic pollutants and inorganic metal ion contaminants in environmental water .…”

Analysis of microcystins using high‐performance liquid chromatography and magnetic solid‐phase extraction with silica‐coated magnetite with cetylpyridinium chloride

“…But these procedures are always laborious, time-consuming and sometimes requiring large amounts of organic solvents [14]. In order to avoid these drawbacks, solid-phase microextraction, stir bar sorptive extraction and magnetic solid-phase extraction are used in the analysis of BPs [15][16][17].…”

Preparation of magnetic graphene @polydopamine @Zr-MOF material for the extraction and analysis of bisphenols in water samples