Jun Qiang scite author profile

The nucleation and growth of bubbles within a solid matrix is a ubiquitous phenomenon that affects many natural and synthetic processes. However, such a bubbling process is almost “invisible” to common characterization methods because it has an intrinsically multiphased nature and occurs on very short time/length scales. Using in situ transmission electron microscopy to explore the decomposition of a solid precursor that emits gaseous byproducts, the direct observation of a complete nanoscale bubbling process confined in ultrathin 2D flakes is presented here. This result suggests a three‐step pathway for bubble formation in the confined environment: void formation via spinodal decomposition, bubble nucleation from the spherization of voids, and bubble growth by coalescence. Furthermore, the systematic kinetics analysis based on COMSOL simulations shows that bubble growth is actually achieved by developing metastable or unstable necks between neighboring bubbles before coalescing into one. This thorough understanding of the bubbling mechanism in a confined geometry has implications for refining modern nucleation theories and controlling bubble‐related processes in the fabrication of advanced materials (i.e., topological porous materials).

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Tuning formation process of void defects in microcolumn arrays via pulse reverse electrodeposition

Dong¹,

Jiang²,

Qiang³

et al. 2023

Journal of Materials Research and Technology

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Jun Qiang

A Balanced Filtering Branch-Line Coupler

A Balanced Branch-Line Coupler With Arbitrary Power Division Ratio

Compact Differential Wideband Bandpass Filters Based on Half-Wavelength Lines

Visualization of Bubble Nucleation and Growth Confined in 2D Flakes

Tuning formation process of void defects in microcolumn arrays via pulse reverse electrodeposition

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