Add to ORKGControlled surface modification of PE is achieved by an efficient and facile approach via plasma-assisted carbene insertion generated using diazo chemistry. The combination of plasma and carbene insertion shows a synergistic effect, which leads to an obvious enhancement of surface grafting, as shown qualitatively by a combination of IR and UV reflectance spectroscopy, and XPS analysis. The chemical modification may be observed spectroscopically, and the approach provides an opportunity for the convenient modification of low surface energy materials
In a first step, the surfaces of polyethylene films have been modified by grafting urethane monoacry...
Polyethylene (PE) is commonly used for many purposes throughout many industries due to its excellent...
International audienceA three-step procedure for surface functionalization of polyamide-6 plates is ...
Three diarylcarbene derivatives with reactive groups were synthesized and used to graft functional g...
International audienceIn this paper, we present a new strategy to functionalize the surface of high-...
We report here a chemical treatment which permits the direct modification of the surface properties ...
A detailed investigation of the reactions of diaryldiazo compounds for the surface modification of s...
Polyolefins are well-known and the most commonly used polymers worldwide. Advantages like outstandin...
International audienceAbstract Polymer materials are widely employed in many fields due to the ease ...
Polymer materials are widely employed in many fields due to the ease with which they can be formed i...
Oxidative (oxygen and air) RF-plasma treatment of HDPE was found as an effective tool for improving ...
Vita.A new technique for functionalization of polyolefin surfaces using C-H bond activation catalyst...
Plasma treatments in power modulated NH3 RF glow discharges have been performed for modifying the su...
Tailor-made surfaces are needed for many applications concerning medical equipment or life-science p...
[[abstract]]©1993 Wiley - Plasma-induced graft copolymerization of acrylic acid onto PE films was in...
In a first step, the surfaces of polyethylene films have been modified by grafting urethane monoacry...
Polyethylene (PE) is commonly used for many purposes throughout many industries due to its excellent...
International audienceA three-step procedure for surface functionalization of polyamide-6 plates is ...
Three diarylcarbene derivatives with reactive groups were synthesized and used to graft functional g...
International audienceIn this paper, we present a new strategy to functionalize the surface of high-...
We report here a chemical treatment which permits the direct modification of the surface properties ...
A detailed investigation of the reactions of diaryldiazo compounds for the surface modification of s...
Polyolefins are well-known and the most commonly used polymers worldwide. Advantages like outstandin...
International audienceAbstract Polymer materials are widely employed in many fields due to the ease ...
Polymer materials are widely employed in many fields due to the ease with which they can be formed i...
Oxidative (oxygen and air) RF-plasma treatment of HDPE was found as an effective tool for improving ...
Vita.A new technique for functionalization of polyolefin surfaces using C-H bond activation catalyst...
Plasma treatments in power modulated NH3 RF glow discharges have been performed for modifying the su...
Tailor-made surfaces are needed for many applications concerning medical equipment or life-science p...
[[abstract]]©1993 Wiley - Plasma-induced graft copolymerization of acrylic acid onto PE films was in...
In a first step, the surfaces of polyethylene films have been modified by grafting urethane monoacry...
Polyethylene (PE) is commonly used for many purposes throughout many industries due to its excellent...
International audienceA three-step procedure for surface functionalization of polyamide-6 plates is ...