Deterministic radial displacement: modular, reconfigurable, and reusable [0.03%]
确定性径向位移:模块化、可重构和可重复使用
Sean C McCabe,Shilun Feng,David W Inglis
Sean C McCabe
Deterministic lateral displacement (DLD) is an effective method of microparticle separation that has always been constructed of monolithic arrays of obstacles. By cylindrically revolving the 2D geometry through a complete circle, determinis...
A quantitative rapid test for urine creatinine via Fenton's reaction and a self-driven microfluidic device [0.03%]
基于芬顿反应的尿肌酐定量检测及自驱动微流控器件
Hogi Hartanto,Jiaheng Li,Cheuk Chun Szeto et al.
Hogi Hartanto et al.
Urine creatinine plays a pivotal role both as an indicator for kidney impairment and as a normalizer for other urine markers to account for variations in urine volume. Here, we report a quantitative rapid test that converts the urinary crea...
Capillary flow-driven paper-based microfluidic sensor for NDMA detection in water [0.03%]
基于纸基微流控的流动式N-亚硝基二甲胺水体检测传感器
Prakash Aryal,Jade Manna-Rubenstein,Tessa Whitaker et al.
Prakash Aryal et al.
N-Nitrosodimethylamine (NDMA) is a genotoxic nitrosamine that is commonly found in water due to its ready formation from commonly available precursor compounds. Routine monitoring of NDMA in water is challenging due to the need for complex ...
Ayoub Glia,Muhammedin Deliorman,Mohammad A Qasaimeh
Ayoub Glia
Applications in chemistry, biology, and diagnostics increasingly require precise and reconfigurable delivery of chemical cues on open and accessible surfaces. Achieving such spatially resolved and dynamically programmable control remains ch...
Auto-SELEX: a fully automated microfluidic platform for rapid discovery of high-affinity aptamers [0.03%]
全自动微流控平台进行高效亲和力适配体的快速筛选(英)
Yang Bu,Yuze Liu,Anni Hu et al.
Yang Bu et al.
Aptamers are synthetic single-stranded oligonucleotides that fold into defined three-dimensional structures, enabling high-affinity and highly selective target recognition, and are increasingly explored as alternatives to antibodies in diag...
Vacuum-enhanced high-resolution 3D printing yields 11 200 valves and uniform 7 μm isoporous membranes [0.03%]
真空增强的高分辨率3D打印技术可制造出1.12万阀门和均一的7微米等孔膜
Dallin S Miner,Timothy B Skaggs,Barrett W Schafer et al.
Dallin S Miner et al.
High-resolution 3D printing holds promise for fabricating complex microfluidic devices, but challenges such as bubbles forming in the resin and becoming entrapped within printed layers, non-uniform illumination, and narrow processing window...
Learning-aided design of micropost arrays for optimizing interface stability and mass transport in organs-on-chips [0.03%]
机器学习辅助微柱阵列的设计以优化芯片器官中的界面稳定性和质量传输
Daeho Kim,Suhwan Lee,Suyeon Kim et al.
Daeho Kim et al.
Micropost-based organ-on-a-chip (OOC) platforms are widely used to spatially confine cell-laden hydrogels and create three-dimensional (3D) co-culture microenvironments while maintaining adjacent channels for mass transport, drug delivery, ...
A microfluidic dermal fibroblast-macrophage co-culture on a chip linking inflammatory signalling to barrier-associated function [0.03%]
一种微流体皮肤成纤维细胞-巨噬细胞共培养芯片技术 将炎症信号与屏障功能联系起来
Preeda Larpthavee,Thitikorn Chomthong,Pareesa Pormrungruang et al.
Preeda Larpthavee et al.
Here, we report a microfluidic dermal fibroblast-macrophage co-culture on-chip that directly links macrophage-driven inflammatory signalling to dermal barrier function within a three-dimensional collagen microenvironment. The platform integ...
Acoustofluidic separation of oblate spheroids from spheres using acoustic radiation torque and force [0.03%]
基于声辐射力和扭矩的扁球体与球体的分离
Muhammad Soban Khan,Mushtaq Ali,Yong Bin Bang et al.
Muhammad Soban Khan et al.
Cells, bacteria, and other bioparticles exist in diverse shapes, and their morphology plays a pivotal role in biological functions and clinical significance. Various microfluidic approaches have been developed for shape-based separation of ...
3D stamp-integrated open-top microfluidic organ-on-a-chip for high-fidelity and functional reconstruction of vascularized microtissue models [0.03%]
一种用于血管化微组织模型的高保真和功能重建的3D集成盖章开放式微流控芯片器官芯片技术
Chenyang Zhou,Feifan Wang,Jiaqi Xu et al.
Chenyang Zhou et al.
The limited physiological relevance of current organ-on-a-chip models often stems from an inability to integrate organ-specific tissue architectures with functional vascularization. Here, we introduce an open-top microfluidic platform that ...