Yueming Sun scite author profile

Drop-on-demand (DOD) printing is a versatile manufacturing tool, which has been widely used in applications ranging from graphic products to manufacturing of ceramics, even for cell engineering. However, the existing DOD methods cannot be applied for highly viscous materials: the printing technologies are typically limited to the inks with the water level viscosity and fall short to eject jets from thick fluids and break them into droplets. To address this challenge, a new wire-in-a-tube technology for drop generation has been developed replacing the nozzle generator with a wire-in-a-tube drop generator. We successfully formed droplets on demand from highly viscous (∼10 Pa s) liquids and studied the mechanisms of drop formation in the wire-in-a-tube drop generators. These mechanisms couple unique fluid mechanics, capillarity, and wetting phenomena providing a new platform that can be used in different microfluidic applications.

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Fabrication of CeO2 microspheres by sol−gel reaction with polymerization via single emulsion

Ma¹,

Hong²,

Sun³

et al. 2022

Nuclear Analysis

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Does the contact angle hysteresis control the droplet shapes on cylindrical fibers?

Sun

Kornev

2023

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Yueming Sun

Insect antennae: Coupling blood pressure with cuticle deformation to control movement

Making droplets from highly viscous liquids by pushing a wire through a tube

Fabrication of CeO2 microspheres by sol−gel reaction with polymerization via single emulsion

Does the contact angle hysteresis control the droplet shapes on cylindrical fibers?

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