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Laser-induced Forward Transfer Hydrogel Printing: A Defined Route for Highly Controlled Process

激光器 通量 材料科学 自愈水凝胶 喷嘴 波长 光学 光电子学 高分子化学 机械工程 物理 工程类
作者
V. I. Yusupov,Semyon Churbanov,E S Churbanova,Kseniia N. Bardakova,Artem Antoshin,Stanislav A. Evlashin,Peter Timashev,Н. В. Минаев
出处
期刊:International Journal of bioprinting [Whioce Publishing Pte Ltd.]
卷期号:6 (3): 271-271 被引量:47
标识
DOI:10.18063/ijb.v6i3.271
摘要

Laser-induced forward transfer is a versatile, non-contact, and nozzle-free printing technique which has demonstrated high potential for different printing applications with high resolution. In this article, three most widely used hydrogels in bioprinting (2% hyaluronic acid sodium salt, 1% methylcellulose, and 1% sodium alginate) were used to study laser printing processes. For this purpose, the authors applied a laser system based on a pulsed infrared laser (1064 nm wavelength, 8 ns pulse duration, 1 – 5 J/ cm2  laser fluence, and 30 μm laser spot size). A high-speed shooting showed that the increase in fluence caused a sequential change in the transfer regimes: No transfer regime, optimal jetting regime with a single droplet transfer, high speed regime, turbulent regime, and plume regime. It was demonstrated that in the optimal jetting regime, which led to printing with single droplets, the size and volume of droplets transferred to the acceptor slide increased almost linearly with the increase of laser fluence. It was also shown that the maintenance of a stable temperature (±2°C) allowed for neglecting the temperature-induced viscosity change of hydrogels. It was determined that under room conditions (20°C, humidity 50%), the hydrogel layer, due to drying processes, decreased with a speed of about 8 μm/min, which could lead to a temporal variation of the transfer process parameters. The authors developed a practical algorithm that allowed quick configuration of the laser printing process on an applied experimental setup. The configuration is provided by the change of the easily tunable parameters: Laser pulse energy, laser spot size, the distance between the donor ribbon and acceptor plate, as well as the thickness of the hydrogel layer on the donor ribbon slide.

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