Enclosed Flow Cell Inside the TEM
The TEM Liquid Flow sample holder is the first in-situ liquid-phase TEM platform designed to image nanometer-scale liquid-phase reactions and transformations. Our patented precision-machined chip loading mechanism operates without screws, facilitating reproducible sample loading, window alignment, and stable imaging. This simplifies training, workflows, and micrograph acquisition, guaranteeing reproducible sample preparation and in-situ TEM methodologies.
Advantages:
- Low-draft sample rod for stable imaging without drift correction
- Fully user-replaceable liquid tubing for easy cleaning and solution swapping
- Removable tip for easy cleaning and function upgrades
- Compatible with TEM, SEM, and X-ray microscopy workflows using cross-platform microfabricated chips.
- Quick delivery of a broad selection of chip options for uninterrupted experimentation
Designed for Advanced Nanoscale Liquid-phase Dynamics Research
Investigate mechanisms underpinning the dynamics of particle self-assembly, biomineralization and dissolution, corrosion, nanoparticle-MOF structures, temperature-dependent reactions and thin film electrochemistry in liquid environments.
Understand Mechanisms Behind Liquid-Phase Transformations
The transformations that occur at liquid-liquid and solid-liquid interfaces are often nanoscale and highly transient, but nanostructure design is highly dependent on the mechanisms that drive these transformations. The TEM Liquid Flow sample holder applies stimuli such as temperature, electrical bias, light exposure, and liquid mixing to uncover reaction pathways, structural transformations, and degradation mechanisms to develop and characterize the next generation of functional nanostructures.
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