In Situ Electron Microscopy of Liquids (The Nanoaquarium)
Liquid Cell Electron Microscopy, also known as the Nanoaquarium, is a technique that enables high-resolution imaging of dynamic processes in liquids at the nanoscale using an electron microscope. By enclosing a thin layer of liquid between electron-transparent membranes, this method allows researchers to observe nanoscale biological, chemical, and materials science phenomena in real-time. The Nanoaquarium is particularly valuable for studying nanoparticle interactions, electrochemical reactions, and biological specimens in their native liquid environments with unprecedented detail.
2017 Nanoscale Evolution Of Interface Morphology During Electrodeposition
2016 Automated Analysis Of Evolving Interfaces During In-Situ Electron Microscopy
2015 Control Of Electron Beam-Induced Au Nanocrystal Growth Kinetics Through Solution Chemistry
2014 In Situ Electron Microscopy Of Electrochemical Deposition
2014 Electron-Water Interactions And Implications For Liquid Cell Electron Microscopy
2014 Bubble And Pattern Formation In Liquid Induced By An Electron Beam
2011 In Situ Liquid-Cell Electron Microscopy Of Colloid Aggregation And Growth Dynamics
2010 The Nanoaquarium: A Platform For In Situ Transmission Electron Microscopy In Liquid Media