Top Tweets for #MICROFLUIDICS
Multiplexing antibiotic screening assay in droplet microfluidics
#microbiology #antibiotics #microfluidics
https://t.co/nbtsIwticE
📣Call for Reading:
#Article
Competitive Immunoassay in a Microfluidic Biochip for In-Field Detection of Abscisic Acid in Grapes
By Cristiana Domingues, Joao Pedro Conde, et al.
https://t.co/mfhvqHkWXK
#microfluidics #immunoassay #biosensor #open_access
Seeking outstanding PhD candidates to join newly funded research projects supported by the Australian Research Council (@arc_gov_au ) and National Health and Medical Research Council (@nhmrc ). @Griffith_Uni
https://t.co/0LOZ8e2OAm
#nanomedicine #microfluidics #PhD #OrganOnChip
🧬 Dynamic culture systems (microfluidics, bioreactors) offer more physiological in vitro spermatogenesis than static 2D/3D methods. Promising for male infertility research.
#IVS #MaleInfertility #Microfluidics #Bioreactor #Spermatogenesis
🔗Read more:https://t.co/LxFtJOXAmf
Thank you to everyone who visited the On-chip Biotechnologies booth at #NASNFC2026!
Please feel free to reach out if you would like to continue the conversation🫧
#Microfluidics #DropletTechnology #NitrogenFixation #PlantMicrobeInteractions
@COMSOL_Inc #brutefact #microfluidics
"The mean free path of molecules and the vibrational modes of the cellular membrane are no longer negligible."
📢 Proudly launch the special issue "Recent Advances in Nano and #Microfluidics in Australia and New Zealand", in collaboration with #ANZNMF 2026 (https://t.co/nIsP7Foshe).
Editor: Dr. David Collins (Conference Chair)
⌛Deadline: 31 Dec 2026
🔗Website: https://t.co/UujtXTv0fg
Welcoming our Distinguished Keynote Speaker, Prof. Hiroaki Onoe (@Keio_univ_PR) to AIS 2026!
Register by 9 June 2026 for Early-Bird Rates:
https://t.co/7eUT1kqilo
#AIS2026 #SoftRobotics #Microfluidics #Microsystems #SoftMaterials #BiomedicalEngineering #TissueEngineering
📣Call for Reading:
#Article
Characterization of Single-Spheroid Oxygen Consumption Using a Microfluidic Platform and Fluorescence Lifetime Imaging Microscopy
By Santhosh Kannan, Yi-Chung Tung, et al.
https://t.co/O35NEPCQlW
#microfluidics #microscopy #biosensor #open_access
Where 3D Printing Goes Beyond Traditional Microfabrication
Dario Bogojevic, Niloofar Ghasenzaie, and Stephanie McGinnity show how #3Dprinting enables designs not possible with traditional methods.
🎧 Watch full episode: https://t.co/RRrIYopxxP
#microfluidics #labonachip
#Review
Current and Future Diagnostics for Hepatitis C Virus Infection by Hussein Zilouchian, et al.
https://t.co/iWMyYHYUKl
@MDPIOpenAccess @UCF @FloridaAtlantic @OfficialUoM
#hepatitisC #pointofcare #moleculartesting #HCVdiagnostics #microfluidics #PCR
Chen Li from @mcgillu shares why rapid iteration matters.
High-resolution #3Dprinting made it easier to fabricate PDMS devices and quickly test new design.
🎧 Watch full episode: https://t.co/0uWmbNja6n
#microfluidics #labonachip
💥Excited for the publication: "Biological Acoustic Levitation and Its Potential Application for Microgravity Study"
🔗https://t.co/LKN3hF6Ekk
📌 #AcousticLevitation #Microgravity #Biophysics #BiomedicalResearch #LabOnAChip #Biotechnology #Physics #Microfluidics
Dr. Majid Warkiani (University of Technology Sydney) explains why #3Dprinting is the easy part, while print orientation, fabrication strategy, and PDMS vs direct printing matter.
🎧 Watch full episode: https://t.co/D9rY2RLLWl
#microfluidics #labonachip
🆕New in #JEV🆕 Surface N-Glycosylation Dictates MSC-EV Uptake and CCR2-Driven Monocyte Recruitment to Inflamed Endothelium Under Shear Flow #endothelialcells #extracellularvesicles #glycan #microfluidics https://t.co/dX1H8PYfqg
Inside “Organized Chaos” at AbbVie’s SPaRCS Group
Drew Wollman, Anne Tong, and John Shanley describe their work as “organized chaos” involving robotics, automation, software, and hardware for drug discovery.
#microfluidics #labonachip #3dprinting
Watch flow behavior in a 3D-printed Tesla valve microfluidic device we fabricated in-house.
Forward flow → smooth passage
Reverse flow → slower movement, showing diode-like behavior
#3dprinting #microfluidics #labonachip
🚩Publication Sharing🚩 - "Magnetically-Driven Reconfigurable Cilium Array with Tunable #Wettability for Dynamic Display and Controllable Microreaction"
by Yuhan Zhang, Bo Li, Shichao Niu from Jilin University, et al.
#Microfluidics #Biomimetics
https://t.co/GJw9T2Q3ea
Shanghai Xinmiao Biotech’s cMyBP-C assay kit wins China’s first national registration & enters Shanghai’s Class II Innovative Device Special Review! A breakthrough for early cardiac injury detection. #Microfluidics #CardiacBiomarkers #POCT
This study presents #Biomimetic helicoidal #Microfluidics that enhance capillary-driven liquid lifting, mimicking transpiration for advanced fluid transport in #Microfluidics, #WaterManagement, and bioinspired #Engineering systems.
#IJEM #OpenAccess: https://t.co/xAeuE1xVxY
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