Sentence examples for modification of polymeric from inspiring English sources

As one of the major techniques developed to achieve surface modification of polymeric materials, UV-induced surface graft polymerization has been widely applied as a simple, useful and versatile approach to improve the surface properties of polymers.

The modification of polymeric vectors has also shown successful improvements in achieving target-specific delivery and in promoting intracellular gene transfer efficiency.

It is shown that the modification of polymeric resin by silica nano-rods generally leads to the improved thermal and mechanical properties of the final samples.

Surface modification of polymeric films is a way to obtain final products with high performance for many specific and ad hoc tailored applications, e.g. in functional packaging, tissue engineering or (bio sensing.

The surfaces of polymeric blends of poly vinyl chloride and poly ethylene terephthalate have been treated by reactive (N2) gas plasma, in order to investigate the effects of low energy ions on the surface modification of polymeric blends.

Many researchers have made more efforts on the chemical modification of polymeric adsorbents with functional groups such as phenolic hydroxyl, acetyl, benzoyl, and hypercrosslinked polymers[124, 125] to improve their adsorption properties by increasing the interactions between adsorbates and adsorbents[54, 55, 126, 127].

Topographic micro scale and in-depth nano scale level modifications of polymeric materials play an important role in engineering their physical and chemical properties.

A fundamental study using various spectroscopic methods (i.r. and u.v.-visible) has also been carried out, with the aim of gaining a better understanding of the structural modifications of polymeric materials caused by irradiation.

It was demonstrated that precise modification of the polymeric surface can be achieved with high pixel dwell time at low ion fluence.

Topics are the chemical modification of the polymeric, cyclic and low molecular derivates of these systems, the formation of stable membranes from these by suitable cross-linking strategies and an extensive electrochemical characterization in corresponding lithium cells.

This review summarizes the state-of-the-art progress on fabrication and modification of electrospun polymeric membranes with a particular emphasis on their advances, challenges and future improvement in water treatment applications.