Controlled Gas Environment for In-Situ TEM
The TEM Gas Heating Sample Holder enables in-situ TEM and STEM imaging of dynamic gas–solid reactions under controlled environmental conditions. A sealed environmental cell with electron-transparent silicon nitride (SiN) windows isolates the reactive gas environment from the microscope vacuum while supporting gas flow up to 2 bar and closed-loop MEMS heating above 1000 °C. A precision-engineered, screw-free loading and sealing mechanism enables fast, reproducible sample loading and automatic window alignment. Optimized holder geometry and a low thermal mass MEMS microheater provide stable imaging during high-temperature experiments. The holder supports compatible microfabricated chips for MEMS heating and electrical biasing, with optional multi-channel gas delivery for controlled gas mixing and advanced in-situ TEM studies.
Built for Advanced Gas-Phase TEM
Designed for researchers in materials science, chemistry, catalysis, energy storage, environmental science, and nanotechnology, the platform enables in-situ investigation of heterogeneous catalyst performance, corrosion, thin-film deposition and dissolution, nanoparticle dynamics, temperature-dependent reactions, redox processes, and gas–solid interfacial transformations under controlled gaseous environments.
Reveal the Mechanisms Behind Gas–Solid Reactions
Gas–solid reactions often involve transient atomic- and nanoscale transformations that determine material performance but are difficult to capture with conventional techniques. By combining controlled gas composition and pressure with closed-loop MEMS heating and electrical biasing, the holder correlates structural evolution with applied stimuli to reveal the reaction pathways and transformations governing material performance, stability, and degradation.