Preconcentration and Removal of Pb(II) Ions from Aqueous Solutions Using Graphene-Based Nanomaterials

Direct determination of lead trace concentration in the presence of relatively complex matrices is often a problem. Thus, its preconcentration and separation are necessary in the analytical procedures. Graphene-based nanomaterials have attracted significant interest as potential adsorbents for Pb(II) preconcentration and removal due to their high specific surface area, exceptional porosities, numerous adsorption sites and functionalization ease. Particularly, incorporation of magnetic particles with graphene adsorbents offers an effective approach to overcome the separation problems after a lead enrichment step. This paper summarizes the developments in the applications of graphene-based adsorbents in conventional solid-phase extraction column packing and its alternative approaches in the past 5 years

Hesperidin: A Review on Extraction Methods, Stability and Biological Activities

Hesperidin is a bioflavonoid occurring in high concentrations in citrus fruits. Its use has been associated with a great number of health benefits, including antioxidant, antibacterial, antimicrobial, anti-inflammatory and anticarcinogenic properties. The food industry uses large quantities of citrus fruit, especially for the production of juice. It results in the accumulation of huge amounts of by-products such as peels, seeds, cell and membrane residues, which are also a good source of hesperidin. Thus, its extraction from these by-products has attracted considerable scientific interest with aim to use as natural antioxidants. In this review, the extraction and determination methods for quantification of hesperidin in fruits and by-products are presented and discussed as well as its stability and biological activities

The Influence of Thiol Addition on Selenium Stability and Antioxidant Activity of Beetroot Juice

Determination of selenium species in food samples causes problems due to their possible oxidation and degradation. In this study, the stability of selenium compounds present in beetroot juices after addition of recommended thiols, such as ditiotreitol (DDT) or β-mercaptoethanol (βME), was evaluated. More total selenium was found in homemade freshly squeezed beetroot juice than in that sold as an organic juice. Furthermore, Se(IV) and selenomethionine oxide (SeMetO) were the main Se species found in both juices. During storage at different temperatures, the concentrations of selenomethionine (SeMet) and Se-methylselenocysteine (MetSeCys) decreased, while Se(IV) and SeMetO contents increased. The addition of DDT or βME, regardless their concentration, did not increase the concentration of SeMet at the expense of SeMetO decrease, as it was expected based on the literature data. Moreover, the used thiols affected the quantification of other selenium species, particularly Se(IV). The purchased organic beetroot juice showed higher ability to scavenge free radicals when it was stored at 4 °C

The Influence of Thiol Addition on Selenium Stability and Antioxidant Activity of Beetroot Juice

Determination of selenium species in food samples causes problems due to their possible oxidation and degradation. In this study, the stability of selenium compounds present in beetroot juices after addition of recommended thiols, such as ditiotreitol (DDT) or β-mercaptoethanol (βME), was evaluated. More total selenium was found in homemade freshly squeezed beetroot juice than in that sold as an organic juice. Furthermore, Se(IV) and selenomethionine oxide (SeMetO) were the main Se species found in both juices. During storage at different temperatures, the concentrations of selenomethionine (SeMet) and Se-methylselenocysteine (MetSeCys) decreased, while Se(IV) and SeMetO contents increased. The addition of DDT or βME, regardless their concentration, did not increase the concentration of SeMet at the expense of SeMetO decrease, as it was expected based on the literature data. Moreover, the used thiols affected the quantification of other selenium species, particularly Se(IV). The purchased organic beetroot juice showed higher ability to scavenge free radicals when it was stored at 4 °C

Analytical Problems in Separation of Selenomethionine and Its Oxidative Product in HILIC HPLC

Selenomethionine (SeMet) is one of the main selenium forms in foods and supplements. Determining its presence in natural food samples creates difficulties due to possible oxidation processes. The objective of this study was to evaluate the possible degradation of SeMet in water extracts of green teas, one of the most consumed beverages worldwide. Such a medium has not been investigated at this time. The HILIC-HPLC MS/MS method with different stationary phases was used to achieve the satisfactory separation of SeMet and selenomethionine oxide (SeMetO). The addition of dithiothreitol and β-mercaptoethanol, recommended to ensure that SeMet is kept in the reduced form, was also evaluated. The best separation was achieved using the zwitterionic HILIC stationary phase coupled to mass spectrometry and MeOH with water (85/15, v/v) as the eluent. Extraction was done with hot water with the addition of β-mercaptoethanol. The infusions prepared from Lung-Ching teas (from the Zhejiang Province in China) contained the highest concentration of selenium in a typical cup of tea (12.5–17.3 µg L−1). For other tested teas it decreased in the following order: Yunnan > Dilmah > Lipton. For Lung-Ching teas, the sum of concentrations of SeMet and SeMetO corresponded to about 46–63% of the total selenium in their extracts

Does the Type Matter? Verification of Different Tea Types’ Potential in the Synthesis of SeNPs

Selenium nanoparticles (SeNPs) are gaining popularity due to their potential biomedical applications. This work describes their green synthesis using various types of tea. Black, green, red and white tea infusions were tested for the content of polyphenolic compounds and antioxidant properties and then used in the synthesis of SeNPs. In each of the syntheses, nanoparticles with dimensions ranging from 3.9 to 12.5 nm, differing in shape and properties, were obtained. All of them were characterized by a very high ability to neutralize hydroxyl radicals, which was about three-times higher than for the tea infusions from which they were obtained. The main inconvenience in obtaining SeNPs was the difficulties with their purification, which should be a further stage in the described research