Q. Liu scite author profile

Q. Liu

2Publications

12Citation Statements Received

0Citation Statements Given

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University of California, Irvine, Irvine University

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Charged Molten Metal Droplet Deposition as a Direct Write Technology

et al. 2000

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The formation of highly uniform charged molten metal droplets from capillary stream breakup has recently attracted significant industrial and academic interest for applications requiring high-speed and high-precision deposition of molten metal droplets such as direct write technologies. Exploitation of the high droplet production rates intrinsic to the phenomenon of capillary stream break-up and the unparalleled uniformity of droplet sizes and speeds attained with proper applied forcing to the capillary stream make many new applications related to the manufacture of electronic packages, circuit board printing and rapid prototyping of structural components feasible. Recent research results have increased the stream stability with novel acoustic excitation methods and enable ultra-precise charged droplet deflection. Unlike other modes of droplet generation such as Drop-on-Demand, droplets can be generated at rates typically on the order of 10,000 to 20,000 droplets per second (depending on droplet diameter and stream speed) and can be electrostatically charged and deflected onto a substrate with a measured accuracy of ±12.5 µm. Droplets are charged on a drop-to-drop basis, enabling the direct writing of fine details at high speed. New results are presented in which fine detailed patterns are “printed” with individual molten metal solder balls, and issues relevant to the attainment of high quality printed artifacts are investigated.

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331 Time restricted feeding uncouples the circadian clock and the cell cycle of epidermal stem cells, and alters the sensitivity to UVB-induced DNA damage

Wang

Spyk

Liu

et al. 2016

Journal of Investigative Dermatology

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Q. Liu

Charged Molten Metal Droplet Deposition as a Direct Write Technology

331 Time restricted feeding uncouples the circadian clock and the cell cycle of epidermal stem cells, and alters the sensitivity to UVB-induced DNA damage

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