Lab on a Chip

Papers
(The H4-Index of Lab on a Chip is 47. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2021-10-01 to 2025-10-01.)
ArticleCitations
An intimal-lumen model in a microfluidic device: potential platform for atherosclerosis-related studies271
Design and build a green tent environment for growing and charactering mycelium growth in lab160
Automated electrokinetic stretcher for manipulating nanomaterials145
Miniature fluorescence sensor for quantitative detection of brain tumour136
Insect wing circulation: transient perfusion through a microfluidic dragonfly forewing model126
Contents list123
Contents list107
Contents list104
Contents list100
Front cover99
Orientation-independent bubble trap with internal partition for robust operation of microfluidic systems99
Programmable motion control and trajectory manipulation of microparticles through tri-directional symmetrical acoustic tweezers97
Cells function as a ternary logic gate to decide migration direction under integrated chemical and fluidic cues97
Inside back cover86
Inside back cover83
Grease the gears: how lubrication of syringe pumps impacts microfluidic flow precision82
Integrating machine learning and digital microfluidics for screening experimental conditions79
Reusable EWOD-based microfluidic system for active droplet generation77
Study on the hemodynamic effects of different pulsatile working modes of a rotary blood pump using a microfluidic platform that realizes in vitro cell culture effectively77
Automated sample-to-answer centrifugal microfluidic system for rapid molecular diagnostics of SARS-CoV-275
Rapid prototyping of a multicompartment liver-on-chip for dynamic administration of tumour derived vesicles within an electrospun scaffold75
Axons-on-a-chip for mimicking non-disruptive diffuse axonal injury underlying traumatic brain injury74
Label-free cell classification in holographic flow cytometry through an unbiased learning strategy73
Open-channel microfluidic chip based on shape memory polymer for controllable liquid transport66
A syndromic diagnostic assay on a macrochannel-to-digital microfluidic platform for automatic identification of multiple respiratory pathogens63
Microfluidic cell unroofing for the in situ molecular analysis of organelles without membrane permeabilization62
Mechanical regulation of nerve stem cells' multiple behaviors via GHz acoustic streaming62
Micro- and nanosystems for the detection of hemorrhagic fever viruses59
On-demand photo-controlled motion enabled by solvent-driven mesogen alignment switch59
Unveiling microbial single-cell growth dynamics under rapid periodic oxygen oscillations58
Fingertip-chip sensor based on Pd nanocluster sensitized 3D NiO nanotube arrays for real-time, selective methane detection57
Label-free enrichment of human adipose-derived stem cells using a continuous microfluidic sorting cascade56
A magnetic microneedle to isolate single immunomagnetically labeled cells53
Sub-wavelength acoustic stencil for tailored micropatterning53
Capturing the spatial and temporal dynamics of tumor stroma for on-chip optimization of microenvironmental targeting nanomedicine52
Retinal organoid chip: engineering a physiomimetic oxygen gradient for optimizing long term culture of human retinal organoids52
Accelerated protein digestion and separation with picoliter volume utilizing nanofluidics52
Front cover52
Back cover51
Inside front cover50
Contents list50
Back cover49
Heterogeneous tissue construction by on-demand bubble-assisted acoustic patterning48
Fluorophilic boronic acid copolymer surfactant for stabilization of complex emulsion droplets with fluorinated oil48
Smart salt-responsive thread for highly sensitive microfluidic glucose detection in sweat48
Impact of brain organoid-derived sEVs on metastatic adaptation and invasion of breast carcinoma cells through a microphysiological system47
Correction: Organ-on-a-chip with integrated semitransparent organic electrodes for barrier function monitoring47
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