3D characterization of heat-induced morphological changes of Au nanostars by fast in situ electron tomography.

A thorough understanding of the thermal stability and potential reshaping of anisotropic gold nanostars is required for various potential applications. Combination of a tomographic heating holder with fast tilt series acquisition has been used to monitor temperature-induced morphological changes of Au nanostars. The outcome of our 3D investigations can be used as an input for boundary element method simulations, enabling us to investigate the influence of reshaping on the nanostars' plasmonic properties.

Advanced microheater for in situ transmission electron microscopy; enabling unexplored analytical studies and extreme spatial stability.

In this work we present our advanced in situ heating sample carrier for transmission electron microscopy (TEM). The TEM is a powerful tool for materials characterization, especially when combined with micro electro-mechanical systems (MEMS). These deliver in situ stimuli such as heating, in which case temperatures up to 1300 °C can be reached with high temporal stability without affecting the original TEM spatial resolution: indeed, atomic resolution imaging can be routinely performed.