Litcius/Paper detail

3D printing of gas-dynamic virtual nozzles and optical characterization of high-speed microjets

Reza Nazari, Sahba Zaare, Roberto C. Alvarez, Konstantinos Karpos, Trent Engelman, Caleb Madsen, Garrett Nelson, John C. H. Spence, Uwe Weierstall, Ronald J. Adrian, Richard A. Kirian

2020Optics Express35 citationsDOIOpen Access PDF

Abstract

Gas dynamic virtual nozzles (GDVNs) produce microscopic flow-focused liquid jets and droplets and play an important role at X-ray free-electron laser (XFEL) facilities where they are used to steer a stream of hydrated biomolecules into an X-ray focus during diffraction measurements. Highly stable and reproducible microjet and microdroplets are desired, as are flexible fabrication methods that enable integrated mixing microfluidics, droplet triggering mechanisms, laser illumination, and other customized features. In this study, we develop the use of high-resolution 3D nano-printing for the production of monolithic, asymmetric GDVN designs that are difficult to fabricate by other means. We also develop a dual-pulsed nanosecond image acquisition and analysis platform for the characterization of GDVN performance, including jet speed, length, diameter, and directionality, among others. We show that printed GDVNs can form microjets with very high degree of reproducibility, down to sub-micron diameters, and with water jet speeds beyond 170 m/s.

Topics & Concepts

NozzleMaterials scienceMicrofluidicsCharacterization (materials science)OpticsNanosecondLaserFabrication3D printingDiffractionJet (fluid)NanotechnologyMechanical engineeringAerospace engineeringPhysicsMedicineAlternative medicinePathologyComposite materialEngineeringInnovative Microfluidic and Catalytic Techniques Innovation3D Printing in Biomedical ResearchElectrohydrodynamics and Fluid Dynamics