Sentence examples for tailoring surface from inspiring English sources

Tailoring surface properties of degradable polymer scaffolds is key to progress in various tissue engineering strategies.

The ability of tailoring surface properties is crucial in a large number of applications, so that a wide range of surface engineering techniques has been developed in the last decades.

A Ti Sapphire femtosecond laser irradiation (λ = 775 nm and 387 nm) was used for tailoring surface morphological characteristics of chitosan based films (i.e. polymer "bubbles", "fingertips" and "sponge-like" structures).

In this paper, we highlight some of the recent advances in tailoring surface topographies of polymers by using ion beam and present a brief discussion on the potential applications in biomedical and tissue engineering.

Tailoring surface properties, such as coefficient of friction (COF), adding color, promoting adhesion, increasing output, improving stability, and obtaining easy-opening features, are just a few of the attributes that can be achieved by blending.

By tailoring surface tension and the atomization condition of the e-sprayed sol precursor, e-sprayed VOx layers on top of both hydrophilic and hydrophobic surfaces were successfully obtained, which enabled alternative architectures of conventional/inverted cells in a sub-module.

The techniques of tailoring surfaces to ensure no adverse reactions are a common theme running throughout this work on tissue engineering.

Each application requires tailored surface functionalization in order to take advantage of a desired property of the nanoparticles.

Hence, it is imperative to design superparamagnetic NPs with specifically tailored surface to meet the demands of the rapidly proliferating field of magnetic hyperthermia application.

In order to enable tailored surface icephobicity design, research requires a good theoretical understanding of the atomistic interacting mechanisms between water/ice molecules and their adhering substrates.

This technique will advance scaffold design by providing the ability to rapidly tailor surface morphology, while minimizing and controlling the deformation of the electrospun fibers.