In situ water radiolysis in a scanning electron microscope and observation of micro- and nanobubbles formation

Abstract: Nanobubble formation by radiolysis of water has been observed in a transmission electron microscope using very high electron dose ratios. Here, surface micro- and nanobubbles were formed in situ in a conventional scanning electron microscope at relatively low magnifications of ∼1000. Bubble formation was observed at a low dose ratio of 1.3 × 1011 electrons/cm2 s, which is 5–7 orders of magnitude smaller than in previous studies using transmission electron microscopes. Our observations suggest that the pressure… Show more

“…For example, Tan et al [50] concluded that bulk nano-bubbles stabilise at a typical radius of ∼100 nm and that this radius increases with ionic concentration. Furthermore, Takahara and Suzuki [55] demonstrated that nano-bubbles survive even for days under certain conditions.…”

Dynamics of macro- and micro-bubbles induced by nanosecond discharge in liquid water

“…For example, Tan et al [50] concluded that bulk nano-bubbles stabilise at a typical radius of ∼100 nm and that this radius increases with ionic concentration. Furthermore, Takahara and Suzuki [55] demonstrated that nano-bubbles survive even for days under certain conditions.…”

Dynamics of macro- and micro-bubbles induced by nanosecond discharge in liquid water

Cross-sectional Observation of Micro- and Nanobubbles Formed <i>In-situ</i> in a Scanning Electron Microscope