Di Zhang scite author profile

Underwater bubbles are unavoidable in the natural world and industrial production. Understanding the behavior of underwater bubbles and manipulating gas bubbles are vital important to both fundamental scientific research and industrial application. Although there has been some progress in controlling underwater bubbles, continuous underwater bubble collection and transportation remain challenging targets. Herein, inspired by the mechanism of water spider's gas storage, a strategy to collect and transport underwater gas bubble is demonstrated by design of a single‐layer underwater superaerophobic mesh (USM) assembled with a quartz tube. Gas bubbles supplied by a syringe pump penetrate the mesh pore and then gather to form a gas column in the quartz tube. Collapse occurs when the gas column reach the maximum storage height/pressure. Under a continuous supply of gas bubbles, the change of pressure becomes a cyclic process, which acts in a pump‐like manner to transport bubbles continuously from the water to the gas phase in the USM device assembled with an asymmetric U‐tube. This novel gas collection and transport system provides a new inspiration for developing new technologies for applications in pipes, sensors, gas collection, and environment protection.

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Analysis and classification of heart sounds with mechanical prosthetic heart valves based on Hilbert-Huang transform

Zhang

Jiang³

et al. 2011

International Journal of Cardiology

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High‐Throughput Production of Zr‐Doped Li₄Ti₅O₁₂ Modified by Mesoporous Libaf₃ Nanoparticles for Superior Lithium and Potassium Storage

Wang

Zhang

et al. 2019

Chemistry An Asian Journal

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Li4Ti5O12 is a promising anode for lithium‐ion batteries due to its zero‐strain properties. However, its low conductivity has greatly affected its rate performance. At the same time, the electrolyte decomposition during cycling also needs to be solved, especially at low cut‐off voltage. Herein, using a high‐throughput two‐step method, we synthesized Zr‐doped LTO modified by mesoporous LiBaF3 nanoparticles for alkali‐ion storage. The doping of Zr can enhance the electronic conductivity and facilitate the rate performance. Meanwhile, the coating of mesoporous LiBaF3 nanoparticles can form a mesoporous surface with large pore size (ca. 3–10 nm), which can benefit the alkali ion diffusion and simultaneously restrain the formation of an excess solid electrolyte interface to a reasonable range. The optimized material is used as an advanced anode for both lithium‐ion and potassium‐ion batteries, and good battery behavior including high‐rate performance and high stability is achieved.

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Di Zhang

Antibiotic consumption versus the prevalence of carbapenem-resistant Gram-negative bacteria at a tertiary hospital in China from 2011 to 2017

An Innovative Design by Single‐Layer Superaerophobic Mesh: Continuous Underwater Bubble Antibuoyancy Collection and Transportation

Analysis and classification of heart sounds with mechanical prosthetic heart valves based on Hilbert-Huang transform

High‐Throughput Production of Zr‐Doped Li₄Ti₅O₁₂ Modified by Mesoporous Libaf₃ Nanoparticles for Superior Lithium and Potassium Storage

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Di Zhang

Antibiotic consumption versus the prevalence of carbapenem-resistant Gram-negative bacteria at a tertiary hospital in China from 2011 to 2017

An Innovative Design by Single‐Layer Superaerophobic Mesh: Continuous Underwater Bubble Antibuoyancy Collection and Transportation

Analysis and classification of heart sounds with mechanical prosthetic heart valves based on Hilbert-Huang transform

High‐Throughput Production of Zr‐Doped Li4Ti5O12 Modified by Mesoporous Libaf3 Nanoparticles for Superior Lithium and Potassium Storage

Contact Info

Product

Resources

About

High‐Throughput Production of Zr‐Doped Li₄Ti₅O₁₂ Modified by Mesoporous Libaf₃ Nanoparticles for Superior Lithium and Potassium Storage