Yulong Ge scite author profile

In this paper, a plasma source discharging at atmospheric pressure and its characterization diagnosed by a Langmuir probe and a digital camera are presented. As an application the dielectric barrier discharge (DBD) gun modifying an ultraviolet cured resin surface for ink printability is reported. The results from the digital camera indicate the uniformity and homogeneity of the plasma generated from the gun in the downstream but depending on the input power, diameter of electrodes, gas flow rates and the distance between the substrates and the nozzle. The contact angle measurement proves the efficiency of gun during the surface modification. The ink printability following DBD gun processing described here was significantly improved. The performed surface analysis using Fourier transform infrared indicates that the polarity of surface grafted in plasma is responsible for the film printability.

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In vitro dissolution enhancement of micronized l-nimodipine by antisolvent re-crystallization from its crystal form H

Zhao

et al. 2014

International Journal of Pharmaceutics

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An investigation of froth stability in reverse flotation of collophane

Liu

et al. 2020

Minerals Engineering

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Singly resonant sum-frequency generation of 520-nm laser via a variable input-coupling transmission cavity

Guo

et al. 2015

Journal of Modern Optics

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PAA polymerized downstream of a high pressure DBD plasma

Chen

Zhang

et al. 2007

Surface and Coatings Technology

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Yulong Ge

Effects of scan speed on vapor plume behavior and spatter generation in laser powder bed fusion additive manufacturing

The depression effect and mechanism of NSFC on dolomite in the flotation of phosphate ore

Double reverse flotation process of collophanite and regulating froth action

Atmospheric pressure DBD gun and its application in ink printability

In vitro dissolution enhancement of micronized l-nimodipine by antisolvent re-crystallization from its crystal form H

An investigation of froth stability in reverse flotation of collophane

Singly resonant sum-frequency generation of 520-nm laser via a variable input-coupling transmission cavity

PAA polymerized downstream of a high pressure DBD plasma

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