Nucleation and growth are two important and entwined processes in materials synthesis and
engineering. While understanding of the fundamental mechanisms of the processes remain …

Imaging samples in liquids with electron microscopy can provide unique insights into
biological systems, such as cells containing labelled proteins, and into processes of …

Innovations in liquid‐phase electron microscopy (LP‐EM) have made it possible to perform
experiments at the optimized conditions needed to examine soft matter. The main obstacle is …

Liquid cell electron microscopy possesses a combination of spatial and temporal resolution
that provides a unique view of static structures and dynamic processes in liquids. Optimizing …

Direct visualization of lead sulfide nanoparticle growth is demonstrated by selectively
decomposing a chemical precursor from a multicomponent solution using in situ liquid …

Energy‐related catalytic reactions have been extensively investigated in past years in order
to efficiently utilize clean and environmentally benign energy sources. In these systems, the …

Transmission electron microscopy (TEM) has long been an essential tool for understanding
the structure of materials. Over the past couple of decades, this venerable technique has …

Gas and liquid phase chemical reactions cover a broad range of research areas in materials
science and engineering, including the synthesis of nanomaterials and application of …

A graphene liquid cell for transmission electron microscopy (TEM) uses one or two
graphene sheets to separate the liquid from the vacuum in the microscope. In principle …

Graphene liquid cell electron microscopy (GLC-EM), a cutting-edge liquid-phase EM
technique, has become a powerful tool to directly visualize wet biological samples and the …