Wildfire In Situ TEM Heating Series
The Wildfire In Situ Heating Series enables thermal studies to be performed in a controlled and stable environment within your TEM. Catering for a variety of application spaces, the Wildfire In Situ Heating Range transforms your high-end TEM from a static imaging tool to a multi-functional laboratory.
|Single tilt / double tilt / tomography versions available|
|Unrivalled stability (drift: 05 nm/min)|
|Contamination free imaging, compatible with EDX and EELS|
|Heating rate up to 200 °C /ms (max. 1500 °C)|
|Suitable for FEI and JEOL TEM|
All DENSsolutions systems use patented Nano-Chip MEMs Technology
Nano-Chips are state-of-the-art functional sample carriers that replace traditional TEM Cu grids. Based on Micro-Electro-Mechanical Systems (MEMS), they offer the unique ability to expand your application space and control the environment and stimuli locally on the Nano-Chip. Each Nano-Chip creates a micro-scale laboratory environment within your TEM. Due to its very low mass and minimal power consumption, the response times are extremely fast and performance highly reliable.
Unique MEMs Design for Optimal Stability
Nano-Chips are fabricated to ensure a stable, chemically inert and electrically insulated environment.
Heat at the Source
Localizing the heating to the same scale dimensions of your sample, ensures the greatest control, offers homogeneous temperature and max¬imizes the temperature reliability.
Easy-to-use software for operational modes, custom profiling, real time temperature output and complete data logging.
Robust localized closed-loop temperature feedback offers the ultimate in sample stability, temperature response time & accuracy.
> 90 hours at elevated temperatures without affecting your TEM performance.
Application Specific Fabrication
A range of Nano-Chip support film options to suit all application requirements.
Catalyst & Chemical Reaction
Melting & Recrystallization
Diffusion & Sintering
Interface & Surface
Heat Treatment & Precipitation
Contamination Free Imaging
"In-situ TEM provides a new dimension in dynamic structural studies of a range of technologically important materials. The Department of Materials at Oxford will use the DENSsolutions sample heating holder in a number of projects related to catalysis and low dimensional carbon materials. We have chosen this solution for its unrivaled stability and control."
- Professor Angus Kirkland, Professor of Materials, University of Oxford, United Kingdom