

The Vaporizer
Elevate your experiments by adding water vapor to any gas mixture
The DENSsolutions Vaporizer is designed to offer you unprecedented experimental freedom in your in situ experiments. With the Vaporizer, you can independently add water vapor to any gas mixture right before it enters the holder, allowing you to work with and even humidify 3 different types of gases at once.
Independently control gas parameters
The Vaporizer offers the unique ability to independently control gas parameters such as pressure, flow, gas composition and the level of water vapor. You can now focus on fine-tuning any of the above-mentioned parameters with the assurance that the others stay perfectly steady.
Ultimately, understanding the exact sequence of events will enable you to draw more accurate conclusions on your TEM observations.
Start a new experiment in minutes
The Vaporizer allows you to add vapor to your gas mixture at the very last stage right before it enters your holder. This means that the vapor will not enter the Gas Supply System and that there is no need for lengthy cleaning and baking cycles to dry your system internally.
Remarkably, you can then start a completely new experiment within minutes.
Start a new experiment in minutes
The Vaporizer allows you to add vapor to your gas mixture at the very last stage right before it enters your holder. This means that the vapor won’t enter the Gas Supply System and that there is no need for lengthy cleaning and baking cycles to dry your system internally.
Remarkably, you can then start a completely new experiment within minutes.
Safely work with explosive mixtures
The Vaporizer allows you to add the vapor just before it reaches the holder, enabling you to work with very low volumes of humidified gas. Therefore, you have the unprecedented ability to safely work with explosive mixtures, even at extreme conditions (i.e. high temperatures, high pressure and high relative humidity).
Application Note
In situ observation of the reconstruction behavior of NiAu bimetallic core-shell nanoparticles under a hybrid water-hydrogen atmosphere
In this work, we use the Vaporizer to study the reconstruction behavior of the NiAu bimetallic core-shell nanoparticles, a catalyst system highly selective to CO in CO₂ hydrogenation, under a hybrid atmosphere of water and hydrogen. It is demonstrated that the Vaporizer enables the successful and controllable introduction of water vapor into the NiAu nanocatalysis system to study the negative effect of water during CO₂ hydrogenation reaction.
News Article

Introducing our latest product: the Climate G+ Vaporizer
An interview with DENSsolutions R&D Engineer Ronald Spruit about our latest extension of the Climate G+ product line: the Vaporizer
Download the Climate Brochure
For more information on workflow, applications and specifications.
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