Enclosed Gas Heating Cell Inside the TEM

The TEM Gas Heating sample holder platform is designed to image gas-phase reactions and transformations down to atomic scale. Our patented precision-machined chip loading mechanism operates without screws, facilitating reproducible sample loading, self-aligning windows, stable imaging under gas flow up to 2 bar and heating beyond 1000 °C without the need for drift correction. This simplifies the hardware learning curve, workflows, and micrograph acquisition, guaranteeing reproducible sample preparation and in-situ TEM methodologies.

‍

Advantages:

• Low-draft sample rod for stable imaging without drift correction
• Bakeable all metal chassis and tubing system for easy cleaning
• Gas delivery systems with 1 to 8 channels plus dedicated purge line
• Heating and gas delivery software with unlimited license for unrestricted experimentation  
• 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 Gas-phase Dynamics Research

Advance fundamental understanding of heterogeneous catalysis performance and degradation, corrosion, thin film deposition and dissolution, nanoparticle dynamics, temperature-dependent reactions, and redox of nanostructures in a range of gaseous environments.

‍

Understand Mechanisms Behind Gas-phase Transformations

The transformations that occur at gas-solid interfaces areoften atomic or nanoscale and highly transient, but nanostructure design and performance is highly dependent on the mechanisms that drive these transformations. The TEM Gas Heating sample holder applies stimuli such as temperature, electrical bias, light exposure, and gas composition and pressure changes to uncover reaction pathways, structural transformations, and degradation mechanisms to develop and characterize the next generation of functional catalysts, alloys, and nanostructures.