Liu, R.; Zhao, Z.; Lv, M.; Wang, H.; Li, L.; Gang, S.; Zuo, L.; Zhang, P.; Wang, Y.; Li, C.; Lu, Q. Discovery of Environmental Nanoparticles in a Mineral Water Spring from Yiyuan County, Shandong Province, Eastern China: A New Form of Elements in Mineral Water. Water2023, 15, 3497.
Liu, R.; Zhao, Z.; Lv, M.; Wang, H.; Li, L.; Gang, S.; Zuo, L.; Zhang, P.; Wang, Y.; Li, C.; Lu, Q. Discovery of Environmental Nanoparticles in a Mineral Water Spring from Yiyuan County, Shandong Province, Eastern China: A New Form of Elements in Mineral Water. Water 2023, 15, 3497.
Liu, R.; Zhao, Z.; Lv, M.; Wang, H.; Li, L.; Gang, S.; Zuo, L.; Zhang, P.; Wang, Y.; Li, C.; Lu, Q. Discovery of Environmental Nanoparticles in a Mineral Water Spring from Yiyuan County, Shandong Province, Eastern China: A New Form of Elements in Mineral Water. Water2023, 15, 3497.
Liu, R.; Zhao, Z.; Lv, M.; Wang, H.; Li, L.; Gang, S.; Zuo, L.; Zhang, P.; Wang, Y.; Li, C.; Lu, Q. Discovery of Environmental Nanoparticles in a Mineral Water Spring from Yiyuan County, Shandong Province, Eastern China: A New Form of Elements in Mineral Water. Water 2023, 15, 3497.
Abstract
Environmental nanoparticles have been shown to exist in most aquatic environments, and environmental nanoparticles in water distribution systems significantly affect water quality. However, little research has been conducted on the environmental nanoparticles in mineral water, which is a special water resource. Nanoparticle tracking analysis (NTA) and high-resolution transmission electron microscopy (HRTEM) were conducted. This study was the first to identify many environmental nanoparticles in natural mineral water in Zibo City, Shandong Province, China. The results of the NTA showed that the concentration of the particles was 5.5 ×106 particles/mL and the peak diameter of the size distribution was 180 nm. The HRTEM showed that the nanoparticles were granular, pinniform, rodlike, and flakey in shape, and some of the nanoparticles existed in aggregation. The energy-dispersive spectrometry results showed that most of the nanoparticles contained O, Mg, Ca, Si, Fe, Ti, and P, and some of them also contained F, V, S, and Mn. When combined with the characteristics of the selected area electron diffraction pattern, the nanoparticles were confirmed to be Ca-bearing nanoparticles, attapulgite nanorods, MnO2 nanosheets, and TiO2 nanoparticles. These results indicate a new form of elements occurring in mineral water. In addition, based on the chemical and physical characteristics of the nanoparticles and mineral water, these environmental nanoparticles in the mineral water are likely to be the weathering byproducts of minerals. These nanoparticles within mineral water provide a good opportunity for understanding the behavior of nanoparticles in varied systems. Moreover, environmental nanoparticle science is important for continuing efforts in water safety, treatment, and remediation.
Keywords
water quality; nanoparticle tracking analysis; high-resolution transmission electron microscopy; weathering byproducts; water safety
Subject
Environmental and Earth Sciences, Water Science and Technology
Copyright:
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