Reproducible generation of human liver organoids (HLOs) on a pillar plate platform via microarray 3D bioprinting [0.03%]
基于微阵列三维生物打印的肝类器官(HLO)可重复性制造技术及-pillar芯片平台研究
Sunil Shrestha,Vinod Kumar Reddy Lekkala,Prabha Acharya et al.
Sunil Shrestha et al.
Human liver organoids (HLOs) hold significant potential for recapitulating the architecture and function of liver tissues in vivo. However, conventional culture methods of HLOs, forming Matrigel domes in 6-/24-well plates, have technical li...
Screening for urothelial carcinoma cells in urine based on digital holographic flow cytometry through machine learning and deep learning methods [0.03%]
基于数字全息流式细胞术的尿路上皮癌细胞筛查(利用机器学习和深度学习方法)
Lu Xin,Xi Xiao,Wen Xiao et al.
Lu Xin et al.
The incidence of urothelial carcinoma continues to rise annually, particularly among the elderly. Prompt diagnosis and treatment can significantly enhance patient survival and quality of life. Urine cytology remains a widely-used early scre...
Operando scanning electron microscopy platform for in situ imaging of fluid evolution in nanoporous shale [0.03%]
用于纳米孔页岩中流体演化的原位成像的operando扫描电子显微镜平台
Artur Davletshin,Wen Song
Artur Davletshin
Fluid-solid interactions in nanoporous materials underlie processes fundamental to natural and engineered processes, including the thermochemical transformation of argillaceous materials during high-level nuclear waste disposal. Operando fl...
Chip-integrated non-mechanical microfluidic pump driven by electrowetting on dielectrics [0.03%]
基于电润湿的非机械微流控芯片集成泵
Sebastian Bohm,Hai Binh Phi,Lars Dittrich et al.
Sebastian Bohm et al.
A microfluidic pump is presented that generates its pumping action via the EWOD (electrowetting-on-dielectric) effect. The flow is generated by the periodic movement of liquid-vapor interfaces in a large number (≈106) of microcavities resu...
Detection and identification of single ribonucleotide monophosphates using a dual in-plane nanopore sensor made in a thermoplastic via replication [0.03%]
基于热塑性材料的平面纳米孔传感器检测和识别单个核糖核苷酸一磷酸盐
Chathurika Rathnayaka,Indu A Chandrosoma,Junseo Choi et al.
Chathurika Rathnayaka et al.
We report the generation of ∼8 nm dual in-plane pores fabricated in a thermoplastic via nanoimprint lithography (NIL). These pores were connected in series with nanochannels, one of which served as a flight tube to allow the identification...
Multiplex nanozymatic biosensing of Salmonella on a finger-actuated microfluidic chip [0.03%]
指尖操控式微流控芯片的多功能纳米酶检测沙门氏菌方法
Nana Jin,Fan Jiang,Fengzhen Yang et al.
Nana Jin et al.
A colorimetric biosensor was elaboratively designed for fast, sensitive and multiplex bacterial detection on a single microfluidic chip using immune magnetic nanobeads for specific bacterial separation, immune gold@platinum palladium nanopa...
Development of a microfluidic device to enrich and detect zearalenone in food using quantum dot-embedded molecularly imprinted polymers [0.03%]
一种用于食品中玉米赤霉烯酮富集和检测的量子点掺杂分子印迹微流控器件的研究与发展
Marti Z Hua,Shenmiao Li,M S Roopesh et al.
Marti Z Hua et al.
Mycotoxins are secondary metabolites of certain moulds, prevalent in 60-80% of food crops and many processed products but challenging to eliminate. Consuming mycotoxin-contaminated food and feed can lead to various adverse effects on humans...
Drug testing of monodisperse arrays of live microdissected tumors using a valved multiwell microfluidic platform [0.03%]
采用具有阀门的多孔微流体平台对活离体肿瘤单分散阵列进行药物筛选试验
Ethan J Lockhart,Lisa F Horowitz,Adán Rodríguez et al.
Ethan J Lockhart et al.
Cancer drug testing in animals is an extremely poor predictor of the drug's safety and efficacy observed in humans. Hence there is a pressing need for functional testing platforms that better predict traditional and immunotherapy responses ...
Versatile hybrid technique for passive straight micromixer manufacturing by combining pulsed laser ablation, stereolithographic 3D printing and computational fluid dynamics [0.03%]
结合脉冲激光刻写、立体光固化3D打印和计算流体动力学的被动直微型混合器制造方法
Bastián Carnero,Yago Radziunas-Salinas,Bruno K Rodiño-Janeiro et al.
Bastián Carnero et al.
There is a need to develop new and versatile fabrication methods to achieve efficient mixing of fluids in microfluidic channels using microstructures. This work presents a new technique that combines stereolithography (SLA) and pulsed laser...
Correction: Direct laser writing-enabled 3D printing strategies for microfluidic applications [0.03%]
关于直接激光书写微流控器件的三维打印策略的更正文本
Olivia M Young,Xin Xu,Sunandita Sarker et al.
Olivia M Young et al.
Correction for 'Direct laser writing-enabled 3D printing strategies for microfluidic applications' by Olivia M. Young et al., Lab Chip, 2024, DOI: https://doi.org/10.1039/D3LC00743J.
Published Erratum
Lab on a chip. 2024 Apr 30;24(9):2590. DOI:10.1039/d4lc90040e 2024