Multifunctional dressings for wound exudate management
F Feng, Z Zhao, J Li, Y Huang, W Chen - Progress in Materials Science, 2024 - Elsevier
Wound exudates, the effusion of tissue fluid after injury, can act as a bridge for biochemical
substance transfer and provide an environment for wound healing. However, excessive …
substance transfer and provide an environment for wound healing. However, excessive …
Tailored Micromagnet Sorting Gate for Simultaneous Multiple Cell Screening in Portable Magnetophoretic Cell‐On‐Chip Platforms
Conventional magnetophoresis techniques for manipulating biocarriers and cells
predominantly rely on large‐scale electromagnetic systems, which is a major obstacle to the …
predominantly rely on large‐scale electromagnetic systems, which is a major obstacle to the …
Humidity-enhanced microfluidic plasma separation on Chinese Xuan-papers
X Wu, S Min, T Zhan, Y Huang, H Niu, B Xu - Lab on a Chip, 2024 - pubs.rsc.org
The first step in blood testing necessitates blood separation to obtain an adequate volume of
plasma. Traditional centrifugation is bulky, expensive and electricity-powered, which is not …
plasma. Traditional centrifugation is bulky, expensive and electricity-powered, which is not …
Designing Janus Two-Dimensional Porous Materials for Unidirectional Transport: Principles, Applications, and Challenges
K Li, HC Yang, ZK Xu - ACS Applied Polymer Materials, 2024 - ACS Publications
Unidirectional liquid transport, facilitated by asymmetric properties or structures, has gained
prominence in applications, such as liquid manipulation, water harvesting, and microfluidic …
prominence in applications, such as liquid manipulation, water harvesting, and microfluidic …
Self-induced crystallization to form a shish-kebab structure on PLA-based Janus membrane to promote water transmission and interlayer binding force
Janus membranes are widely used in fields such as oil-water separation and wound
dressings due to their asymmetric wetting properties. However, the weak interface binding …
dressings due to their asymmetric wetting properties. However, the weak interface binding …