Engineering material surface properties can influence some of the most important characteristics of materials, such as corrosion resistance, adhesion, color, conductivity, biocompatibility, and many ...

Surface properties dictate a vast array of material characteristics that are crucial to performance, durability, and intended functionality across diverse industries. Properties such as friction, wear ...

Surface characterisation and morphological analysis of thin films encompass a suite of experimental and computational approaches to probe film composition, topography and structural organisation at ...

Spatial smoothing of functional magnetic resonance imaging (fMRI) data can be performed on volumetric images and on the extracted surface of the brain. Smoothing on the unfolded cortex should ...

Surfaces are central to materials science. The first few nanometers of a material often determine whether a device performs as intended - or fails. Examples of surface-driven phenomena include ...

Brunauer–Emmett–Teller (BET) analysis is the standard gas-adsorption method for estimating the adsorbate-accessible specific surface area of dry powders and porous solids by measuring how an inert gas ...