Glovebox, Gas, & Solvent System ApplicationsÂ
An inert solution available for all your projects
Our glove box, solvent purification, and gas management systems can be leveraged in a multitude of industries, and integrated with virtually any OEM tool, equipment and technology. Integration flexibility allows you to create an inert laboratory within your laboratory or clean room for handling of air-sensitive materials. You’ll find our glove box, gas, and solvent systems around the world in many industries, from 3D printing factories to R&D laboratories.
Gloveboxes for the nuclear industry, ensuring operator protection. Designed for work with radioisotopes, uranium processing, and nuclear fuel research under an inert or filtered air atmosphere. Available in shielded and non-shielded configurations.
Pharmaceutical research requires ultra-pure environments to handle sensitive compounds, Active Pharmaceutical Ingredients (API), and sterile drug formulations while maintaining low humidity and oxygen levels.
Lithium-ion battery gloveboxes provide a moisture- and oxygen-free environment for handling sensitive materials, solid-state electrolytes, and battery prototyping. They ensure stable performance and prevent material degradation.
Gloveboxes provide a controlled environment for working with highly reactive, air-sensitive, or hazardous chemicals, ensuring operator safety and experiment integrity. Commonly used in catalysis research, organic synthesis, and material development.
Tungsten Inert Gas (TIG) welding requires an oxygen- and moisture-free environment to prevent contamination and oxidation, ensuring high-quality, defect-free welds for critical aerospace, medical, and industrial components.
Laser welding in a controlled atmosphere ensures precision and strength in welding delicate materials like titanium, stainless steel, and exotic alloys. This is crucial for aerospace, defense, and medical device manufacturing.
Metal Additive Manufacturing (AM) and 3D printing of reactive materials like titanium, aluminum, and Inconel require an inert atmosphere to prevent oxidation and maintain material integrity, ensuring high-performance industrial components.
Gloveboxes provide an oxygen- and moisture-free environment for handling perovskite solar cells, CIGS, and organic photovoltaic (OPV) materials, ensuring optimal performance and long-term stability in next-generation solar technology.
The fabrication of Organic Light Emitting Diodes (OLEDs) and Polymer Light Emitting Diodes (PLEDs) requires precise environmental control to prevent degradation of organic semiconductors, emissive layers, and encapsulation materials.
Gloveboxes are used in chemical synthesis and material development to protect air- and moisture-sensitive reactions, such as organometallic synthesis, lithium-based compounds, and polymerization processes.