Publications by authors named "Xiangge Bai"
Multibioinspired Hybrid Superwetting Surface for Efficient Fog Collection and Power Generation.
ACS Appl Mater Interfaces
August 2024
Obtaining water and renewable energy from the atmosphere provides a potential solution to the growing energy shortage. Leveraging the synergistic inspiration from desert beetles, cactus spines, and rice leaves, here, a multibioinspired hybrid wetting rod (HWR) is prepared through simple solution immersion and laser etching, which endows an efficient water collection from the atmosphere. Importantly, benefiting from the bionic asymmetric pattern design and the three-dimensional structure, the HWR possesses an omnidirectional fog collection with a rate of up to 23 g cm h.
View Article and Find Full Text PDFSpatiotemporally controllable droplet manipulation is essential in diverse applications, ranging from thermal management to microfluidics and water harvesting. Despite considerable advances, droplet manipulation without surface or droplet pretreatment is still challenging in terms of response and functional adaptability. Here, a droplet ultrasonic tweezer (DUT) based on phased array is proposed for versatile droplet manipulation.
View Article and Find Full Text PDFArticle Synopsis
- Engineering surfaces that efficiently separate oil from water is crucial for various applications, like treating oily wastewater and managing oil spills.
- Recent advancements in biomimetics and manufacturing have improved the design of special materials with unique wettability properties for this purpose.
- The review explores theories of wettability, different separation techniques (filtration, adsorption, etc.), and outlines current challenges and future research directions in developing these separation technologies.