Victor Alexandru Faraon scite author profile

Honey is a highly valued natural product with antioxidant, antimicrobial and anti-inflammatory properties. However, its antioxidant activity (AOA) is not as high as that of other honeybee products, such as propolis. Several polyphenol—honey formulations have been proposed up to now, most of them using maceration of biomass in honey or mixtures with liquid extracts, which either limit polyphenols bioavailability or destroy the characteristics of honey. To improve the health benefits of honey by increasing AOA and keeping its structural and sensory properties, we propose its enrichment in a polyphenol extract of raspberry after solvent evaporation. A honey-biomimetic natural deep eutectic solvent (NaDES) was prepared and compared with honey. The main polyphenols found in the raspberry extract were tested in combination with honey and NaDES, respectively. The AOA was determined by DPPH, ABTS, CUPRAC, and FRAP methods. The AOA behaviour of honey—polyphenol mixtures varied from synergism to antagonism, being influenced by the AOA method, polyphenol type, and/or mixture concentration. The honey-biomimetic NaDES resulted in similar AOA behaviour as with honey mixed with polyphenols. Honey seems to have additional properties that increase synergism or reduce antagonism in some cases. Honey and its biomimetic NaDES modulate AOA of polyphenols extract.

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Effects of Siliceous Natural Nanomaterials Applied in Combination with Foliar Fertilizers on Physiology, Yield and Fruit Quality of the Apricot and Peach Trees

Moale¹,

Ghiurea

Sîrbu³

et al. 2021

Plants

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Siliceous natural nanomaterials (SNNMs), i.e., diatomaceous earth and natural zeolites, have a nanoporous structure with large active surfaces that adsorb cations or polarized molecules. Such nanoporous feature determines the effects related to SNNM utilization as low-risk plant protectants and soil improvers. This work used SNNMs from Romanian quarries as carriers for foliar fertilizers applied to stone-fruit trees, apricot and peach. We determined the effects of SNNMs on the physiology, yield and fruit quality of the treated stone-fruit trees. SNNM application determined impacts specific to the formation of particle films on leaves: reduced leaf temperature (up to 4.5 °C) and enhanced water use efficiency (up to 30%). Foliar fertilizers’ effects on yield are amplified by their application with SNNMs. Yield is increased up to 8.1% by the utilization of SNNMs with foliar fertilizers, compared to applying foliar fertilizer alone. Diatomaceous earth and natural zeolites promote the accumulation of polyphenols in apricot and peach fruits. The combined application of SNNMs and foliar fertilizer enhance the performance of peach and apricot trees.

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Porphyrin-zeolite nanomaterials for hydrogen peroxide decomposition

Faraon

Pop

Senin

et al. 2012

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In this paper, tin 5,10,15,20-tetra-p-phenyl porphyrin (Cl 2 Sn-TPP) encapsulated in a natural zeolite (clinoptilolite) and in synthetic zeolites (X-71, HZSM-5) were synthesized (by direct adsorption into the matrix cavities) and characterized by TGA/DSC, UV-Vis and FTIR techniques; subsequently, they have been tested as catalysts in the hydrogen peroxide decomposition reaction. UV-Vis and FTIR techniques put into evidence the highest adsorbtion rate of the metalloporphyrin on clinoptilolite. The thermal analysis of these materials explained their thermal behaviour, as a useful criterion for their application as catalysts in reactions that involve high temperatures, showing that the porphyrinzeolite materials are resistant to high temperatures. Regarding the use of these materials in the decomposition of hydrogen peroxide, the best activity was encountered in the case of SnCl 2 -TPP/clinoptilolite when compared with the free zeolites.

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