Influence of atmospheric fluorine plasma treatment on thermal and dielectric properties of polyimide film

“…For the vacuum condition requires a low pressure and a specific closed chamber, this method is thus limited by the high cost and the size of the chamber and of course it is difficult to realize continuous process [10]. The awareness of the existence of these limitations has highlighted the need for plasma treatments at atmospheric pressure [11][12][13][14][15]. One of the most promising technologies is dielectric barrier discharge (DBD) plasma processing, which has been widely studied mainly due to the easy formation therein of stable plasmas, their ready scalability, high efficiency and low cost.…”

Effects of Twaron fiber surface treatment by air dielectric barrier discharge plasma on the interfacial adhesion in fiber reinforced composites

“…For the vacuum condition requires a low pressure and a specific closed chamber, this method is thus limited by the high cost and the size of the chamber and of course it is difficult to realize continuous process [10]. The awareness of the existence of these limitations has highlighted the need for plasma treatments at atmospheric pressure [11][12][13][14][15]. One of the most promising technologies is dielectric barrier discharge (DBD) plasma processing, which has been widely studied mainly due to the easy formation therein of stable plasmas, their ready scalability, high efficiency and low cost.…”

Effects of Twaron fiber surface treatment by air dielectric barrier discharge plasma on the interfacial adhesion in fiber reinforced composites

“…The ultimate goal of these treatments is to change the surface chemistry and the microstructure of the material, and thus control a number of properties including the biocompatibility, roughness, reactivity, wettability, and conductivity [92,93]. To control the surface energetics surface modification techniques are widely used because they have many advantages.…”

Solid-Liquid Interface

“…The most commonly used surface modification techniques involve chemical treatment, electrochemical treatment, photoirradiation or phototreatments with ionized gases, i.e., microwaves, radiofrequency, glow discharge plasmas, and direct fluorination with fluorine gas. [9][10][11][12][13][14] Among these, the physical properties and chemical reactivates of organic molecules or carbon materials can be dramatically affected by fluorination. The high ionization potential of fluorine and its relatively low polarizability imply very weak intermolecular interactions, low surface energies, and low refractive indexes for perfluorocarbon.…”

Effect of Fluorination on Electrical Behaviors of Carbon Blacks-filled HDPE Polymeric Switch