Chemical‐surface modification of polymers using atmospheric pressure nonequilibrium plasmas and comparisons with vacuum plasmas

Shenton, M. J.; Stevens, G.C.; Wright, Neil T.; Duan, Xingwu

doi:10.1002/pola.10056

Cited by 50 publications

(56 citation statements)

References 46 publications

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“…The reader is referred to a technical review [17] of the ambient air plasma jets based on arc and glidarc discharges. Ambient air plasma jets can be fed also, for example, by microwave discharges [19] and APGDs [16]. However, such plasma sources generate flowing relatively cold uniform air plasmas with the energy density up to some 10 W/cm 3 only.…”

Section: Plasma Sources For Ambient Air Appstmentioning

confidence: 99%

Diffuse Coplanar Surface Barrier Discharge and its applications for in-line processing of low-added-value materials

Černák

Černáková²,

Hudec³

et al. 2009

Eur. Phys. J. Appl. Phys.

171

115

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Abstract. The paper reviews a current state of the art in the in-line plasma treatment of low-cost materials and opportunities for the use of the so-called Diffuse Coplanar Surface Dielectric Barrier Discharge (DCSBD). A brief outline of physical mechanism and basic properties of DCSBD is given. The results presented on the ambient air plasma treatments of textile, paper, wood, and glass illustrate that DCSBD offers outstanding performance with extremely low energy consumption for large area, uniform surface modifications of materials under continuous process conditions.

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Section: Plasma Sources For Ambient Air Appstmentioning

confidence: 99%

Diffuse Coplanar Surface Barrier Discharge and its applications for in-line processing of low-added-value materials

Černák

Černáková²,

Hudec³

et al. 2009

Eur. Phys. J. Appl. Phys.

171

115

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show abstract

“…Wakida et al treated wool and polyethylene terephthalate (PET) fabrics with low-temperature plasma of helium/argon under atmospheric pressure to improve the samples wettability [4]. Shenton et al made comparisons of treating effect between atmospheric plasma and vacuum [5]. McCord et al modified nylon and polypropylene fabrics with atmospheric pressure plasmas [6].…”

Section: Introductionmentioning

confidence: 98%

Surface physical–morphological and chemical changes leading to performance enhancement of atmospheric pressure plasma treated polyester fabrics for inkjet printing

Fang

Zhang

2009

Applied Surface Science

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“…Capital cost savings for both equipment and footprint, and relative ease of integration are further benefits in comparison with low pressure plasma technology approaches. [4] Under appropriate conditions, atmospheric plasma can be applied to the material at relatively low temperatures while preserving the integrity of polymer-based instruments. Among the various atmospheric pressure plasma processing techniques, dielectric barrier discharge (DBD) has certain advantages such as its ability to work well at atmospheric pressure, without vacuum restrictions; its simple and flexible configurations with respect to the geometrical shape of electrodes and the gap; and its ability to treat surfaces of various sizes and shapes.…”

Section: Introductionmentioning

confidence: 99%

Formation of multi‐layered inorganic film on polycarbonate surface modified by an atmospheric plasma discharge

Won

Kim

Lee

2010

Surface & Interface Analysis

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Surface modification of polymers has been widely studied because of the industrial interest in several applications involving adhesion, packaging and metallization, among others. Plasma treatment, particularly atmospheric pressure plasma, is one of the most versatile techniques in surface modification. In this work, atmospheric pressure plasma treatment was performed to modify a polycarbonate surface. The effects of the treatment were sensitive to both the plasma ambient and the time elapsed after treatment. Surface treatment with a dielectric barrier discharge plasma torch produced an increase in the wettability of polycarbonate through the creation of C-OH polar groups on its surface, together with surface roughness. These effects were more pronounced by the addition of oxygen in an Ar gas mixture and the surface treatment time. In general, the atmospheric plasma torch treatment helped to enhance the wettability of the aqueous solutions to form a multi-layered inorganic film on the polycarbonate.

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Chemical‐surface modification of polymers using atmospheric pressure nonequilibrium plasmas and comparisons with vacuum plasmas

Cited by 50 publications

References 46 publications

Diffuse Coplanar Surface Barrier Discharge and its applications for in-line processing of low-added-value materials

Diffuse Coplanar Surface Barrier Discharge and its applications for in-line processing of low-added-value materials

Surface physical–morphological and chemical changes leading to performance enhancement of atmospheric pressure plasma treated polyester fabrics for inkjet printing

Formation of multi‐layered inorganic film on polycarbonate surface modified by an atmospheric plasma discharge

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