Effect of hydrothermal synthesis on physical property modulation and biological activity of ZnO nanorods

“…The super-fine BDFO(HT) powders remained well dispersed in the catalytic reaction solution and could react easily with the pollutant molecules, on the other hand, the rod-like structures in BDFO(HT) might have increased the surface-to-volume ratio of each grain, which corresponded to the production of more active oxygen species than the nanomaterials in other forms. 78 Moreover, due to such a large surface-to-volume ratio, rod-like BDFO could absorb large quanta of light and thereby produce more electron–hole pairs. 28 These electron–hole pairs generated reactive oxygen species and thereby degraded the pollutants more efficiently.…”

“…of each grain, which corresponded to the production of more active oxygen species than the nanomaterials in other forms. 78 Moreover, due to such a large surface-to-volume ratio, rod-like BDFO could absorb large quanta of light and thereby produce more electron-hole pairs. 28 These electron-hole pairs generated reactive oxygen species and thereby degraded the pollutants more efficiently.…”

Comparison of the structure–property relationships between sillenite and perovskite phases of Bi_0.9Dy_0.1FeO₃ nanostructures

“…The super-fine BDFO(HT) powders remained well dispersed in the catalytic reaction solution and could react easily with the pollutant molecules, on the other hand, the rod-like structures in BDFO(HT) might have increased the surface-to-volume ratio of each grain, which corresponded to the production of more active oxygen species than the nanomaterials in other forms. 78 Moreover, due to such a large surface-to-volume ratio, rod-like BDFO could absorb large quanta of light and thereby produce more electron–hole pairs. 28 These electron–hole pairs generated reactive oxygen species and thereby degraded the pollutants more efficiently.…”

“…of each grain, which corresponded to the production of more active oxygen species than the nanomaterials in other forms. 78 Moreover, due to such a large surface-to-volume ratio, rod-like BDFO could absorb large quanta of light and thereby produce more electron-hole pairs. 28 These electron-hole pairs generated reactive oxygen species and thereby degraded the pollutants more efficiently.…”

Comparison of the structure–property relationships between sillenite and perovskite phases of Bi_0.9Dy_0.1FeO₃ nanostructures

“…The process involves crystallizing substances at a high temperature and pressure. The hydrothermal process offers the advantages of providing uniform growth (Qiaoping et al, 2020;Sutradhar et al, 2020). The growth temperature plays an important role in the overall crystallinity and aspect ratio of the grown nanorods.…”

A Review on Synthesis and Optoelectronic Applications of Nanostructured ZnO

“…Under hydrothermal synthesis conditions, the development of growth units takes place, leading to the formation of rod-like structures. 37 The rod's average length and width are 3.5 μm and 0.2 μm, with an aspect ratio of 17.5. These crystals seem to be staked on each other.…”

Ultrasensitive and Selective Electrochemical Sensor Based on Yttrium Benzenetricarboxylate Porous Coordination Polymer (Y-BTC) for Detection of Pb²⁺ from Bio-Analytes