Stefano Buzzi scite author profile

Scaling in material properties is of great importance in microsystems and microelectronics where the device dimensions continuously shrink. Recently, compression tests of micron-sized pillars produced using a focusedion beam (FIB) have become standard in the investigation of scaling effects. The influence of the fabrication process on the mechanical properties of the samples has, however, not been conclusively resolved. In this study, 130 silver pillars were fabricated using a novel embossing technique that does not pose the issues associated with FIB milling, i.e. surface amorphization and gallium contamination. Displacement-controlled compression tests on pillars with diameters of 130-3000 nm reveal for submicrometer samples an inverse proportionality of flow strength to diameter, which is associated with a wide strength distribution and a deformation taking place in large discrete strain bursts. The largest pillars show instead near bulk-like behavior. Unlike studies on other fcc materials, mechanical twinning is also an important deformation mechanism in Ag due to its very low stacking fault energy. In addition, occasional preexisting twin boundaries constituted preferential planes for localized deformation if favorably sloped. Despite the absence of ion-induced artifacts, scaling laws and absolute values of strength are comparable to those obtained via FIB milling.

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Deformation behavior of gold nano-pillars prepared by nanoimprinting and focused ion-beam milling

Dietiker

Buzzi

Pigozzi

et al. 2011

Acta Materialia

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Protein adsorption steers blood contact activation on engineered cobalt chromium alloy oxide layers

Milleret

Buzzi²,

Gehrig

et al. 2015

Acta Biomaterialia

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Stefano Buzzi

Cytotoxicity of Zr-based bulk metallic glasses

Metal direct nanoimprinting for photonics

Deformation behavior of silver submicrometer-pillars prepared by nanoimprinting

Deformation behavior of gold nano-pillars prepared by nanoimprinting and focused ion-beam milling

Protein adsorption steers blood contact activation on engineered cobalt chromium alloy oxide layers

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