Underwater ignition of hexachlorodisilane hydrolyzed deposit

Nguyen, Thanh-Trung; Huang, Yu-Wen; Yan, Pei-Xuan; Hu, You-Chun; Tsai, Hsiao-Yun; Chen, Jenq-Renn

doi:10.1063/5.0132299

Cited by 1 publication

(2 citation statements)

References 9 publications

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“…As the concentration of butane increases from 30 to 80%, the predominant component of the mixed bubble shifts toward butane, displaying ionization characteristics typical of butane during the ionization process, resulting in intense bubble oscillation. It can be applied to ignition devices for combustible gases. , However, in everyday applications, pure butane gas is generally considered nonionizable and can only be ionized under specific conditions such as exposure to high-energy radiation or high temperatures.…”

Section: Resultsmentioning

confidence: 99%

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On-Demand Transport Bubbles Adhering to Noncontiguous Patterned Superhydrophobic Surfaces Using a Superhydrophobic Tweezer

Zheng,

Tu,

et al. 2024

Langmuir

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Bubble transportation and related flotation are ubiquitous phenomena in nature and industry. Various surfaces with distinct morphologies and specific wettability properties have been engineered by organisms in nature and by humans to facilitate the targeted movement of bubbles. However, existing methods predominantly rely on continuous surfaces, limiting the ability of bubbles to deviate from their path before reaching their intended destination. Therefore, directional transportation of bubbles using noncontiguous surfaces still remains a significant challenge. Inspired by water spiders' ability to capture bubbles underwater using their hydrophobic surface for survival, we propose a novel transport strategy that utilizes patterned superhydrophobic surfaces (PSHSs) and a superhydrophobic tweezer. This strategy is implemented by switching between the hood mode and puncture mode of the moving three-phase contact lines to load and unload the bubble. To quantitatively evaluate the loss ratio of the bubble during transportation, a simple and exquisite bubble-weighing apparatus is devised. Our findings indicate that circular PSHSs demonstrate superior bubble adhesion and achieve the highest bubble transport ratio of 95.1%. In order to validate the promising application of this novel method, we employ the computer numerical control (CNC) technology to facilitate the autonomous loading and precise transportation of underwater bubbles, as well as the blending and ionization of combustible gas bubbles with air bubbles at different volume ratios.

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Section: Resultsmentioning

confidence: 99%

“…It can be applied to ignition devices for combustible gases. 45,46 However, in everyday applications, pure butane gas is generally considered nonionizable and can only be ionized under specific conditions such as exposure to high-energy radiation or high temperatures.…”

Section: ■ Results and Discussionmentioning

confidence: 99%

On-Demand Transport Bubbles Adhering to Noncontiguous Patterned Superhydrophobic Surfaces Using a Superhydrophobic Tweezer

Zheng,

Tu,

et al. 2024

Langmuir

View full text Add to dashboard Cite

show abstract

Underwater ignition of hexachlorodisilane hydrolyzed deposit

Cited by 1 publication

References 9 publications

On-Demand Transport Bubbles Adhering to Noncontiguous Patterned Superhydrophobic Surfaces Using a Superhydrophobic Tweezer

On-Demand Transport Bubbles Adhering to Noncontiguous Patterned Superhydrophobic Surfaces Using a Superhydrophobic Tweezer

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