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iGC-SEA Nova
High Temperature
Surface Energy Analysis
A bold new addition to the Inverse Gas Chromatography (iGC) line of Surface Energy Analyzers, the iGC-SEA Nova combines all the unique capabilities of the original iGC-SEA instrument with a powerful new high-temperature sample oven.
Already equipped with a unique SMS injection system providing a wide range of injection concentrations with unrivaled accuracy and reproducibility, the high-temperature oven enables the iGC-SEA Nova to analyze surface energy and material properties under extreme temperatures, opening up a range of possibilities for advanced materials development in new and exciting industrial applications.
![iGC-SEA Nova instrument](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2024/01/iGC-SEA-Nova-instrument-e1706200683901.png?strip=all&lossy=0&ssl=1)
![iGC-SEA-second](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2022/03/iGC-SEA-second.jpg?strip=all&lossy=0&ssl=1)
The iGC-SEA Nova is based on Inverse Gas Chromatography (iGC) methodology, a gas phase technique for characterizing surface and bulk properties of solid materials. The principles of iGC are simple, with a uniformly packed cylindrical column with the solid material being analyzed. Pulses of contact concentration of gas are then injected down the column at a fixed carrier gas flow rate. The injected gas molecules passing over the material are adsorbed on the surface with a partition coefficient Ks:
Ks = Vn / Ws
Where Vn is the net retention volume – the volume of carrier gas required to elute the injection through the column, and Ws is the mass of the sample. With the Vn indicating how strongly the probe gas interacts with the solid sample, a wide range of surface and bulk properties can be calculated.
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Bring the iGC-SEA Nova to your laboratory
The iGC-SEA Nova broadens the horizon of IGC analysis into exciting new application spaces.
To find out more about the iGC-SEA Nova and its modular accessories, or to discuss a quote, please fill out the forms below.
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iGC-SEA Nova
High Temperature
Surface Energy Analysis
A bold new addition to the Inverse Gas Chromatography (iGC) line of Surface Energy Analyzers, the iGC-SEA Nova combines all the unique capabilities of the original iGC-SEA instrument with a powerful new high-temperature sample oven.
Already equipped with a unique SMS injection system providing a wide range of injection concentrations with unrivaled accuracy and reproducibility, the high-temperature oven enables the iGC-SEA Nova to analyze surface energy and material properties under extreme temperatures, opening up a range of possibilities for advanced materials development in new and exciting industrial applications.
![iGC-SEA Nova instrument](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2024/01/iGC-SEA-Nova-instrument-e1706200683901.png?strip=all&lossy=0&ssl=1)
The DVS Carbon is a groundbreaking sorption analyzer designed for advanced carbon capture, utilization, and storage (CCUS) applications. It enables the measurement of CO2 uptake in real-life conditions, controlling temperature and humidity over a broad range of CO2 concentrations.
Equipped with Surface Measurement Systems’ patented Ultrabalance technology, the DVS Carbon offers real-time mass change measurements during sorption and desorption processes. This capability allows researchers to assess complex carbon capture conditions across various materials and can be configured to meet specific research and application needs.
![Screenshot 2023-07-07 at 9.28.14 AM](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2023/06/Screenshot-2023-07-07-at-9.28.14-AM.jpg?strip=all&lossy=0&ssl=1)
![iGC-SEA-second](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2022/03/iGC-SEA-second.jpg?strip=all&lossy=0&ssl=1)
The iGC-SEA Nova is based on Inverse Gas Chromatography (iGC) methodology, a gas phase technique for characterizing surface and bulk properties of solid materials. The principles of iGC are simple, with a uniformly packed cylindrical column with the solid material being analyzed. Pulses of contact concentration of gas are then injected down the column at a fixed carrier gas flow rate. The injected gas molecules passing over the material are adsorbed on the surface with a partition coefficient Ks:
Ks = Vn / Ws
Where Vn is the net retention volume – the volume of carrier gas required to elute the injection through the column, and Ws is the mass of the sample. With the Vn indicating how strongly the probe gas interacts with the solid sample, a wide range of surface and bulk properties can be calculated.
![products-img-bottom-3 edit](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2024/01/products-img-bottom-3-edit.jpg?strip=all&lossy=0&ssl=1)
Bring the iGC-SEA Nova to your laboratory
The iGC-SEA Nova broadens the horizon of IGC analysis into exciting new application spaces.
To find out more about the iGC-SEA Nova and its modular accessories, or to discuss a quote, please fill out the forms below.
![Website-Background-Image](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2023/07/Website-Background-Image-SM.png?strip=all&lossy=0&ssl=1)
iGC-SEA Nova
High Temperature
Surface Energy Analysis
A bold new addition to the Inverse Gas Chromatography (iGC) line of Surface Energy Analyzers, the iGC-SEA Nova combines all the unique capabilities of the original iGC-SEA instrument with a powerful new high-temperature sample oven.
Already equipped with a unique SMS injection system providing a wide range of injection concentrations with unrivaled accuracy and reproducibility, the high-temperature oven enables the iGC-SEA Nova to analyze surface energy and material properties under extreme temperatures, opening up a range of possibilities for advanced materials development in new and exciting industrial applications.
![iGC-SEA Nova instrument](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2024/01/iGC-SEA-Nova-instrument-e1706200683901.png?strip=all&lossy=0&ssl=1)
![iGC-SEA-second](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2022/03/iGC-SEA-second.jpg?strip=all&lossy=0&ssl=1)
The iGC-SEA Nova is based on Inverse Gas Chromatography (iGC) methodology, a gas phase technique for characterizing surface and bulk properties of solid materials. The principles of iGC are simple, with a uniformly packed cylindrical column with the solid material being analyzed. Pulses of contact concentration of gas are then injected down the column at a fixed carrier gas flow rate. The injected gas molecules passing over the material are adsorbed on the surface with a partition coefficient Ks:
Ks = Vn / Ws
Where Vn is the net retention volume – the volume of carrier gas required to elute the injection through the column, and Ws is the mass of the sample. With the Vn indicating how strongly the probe gas interacts with the solid sample, a wide range of surface and bulk properties can be calculated.
Dual Vapor Gravimetric Sorption Analyzer
Discover what makes the DVS Resolution the world’s best-selling sorption analyzer.
![Resolution shot 1](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2022/03/Resolution-shot-1.png?strip=all&lossy=0&ssl=1)
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Bring the iGC-SEA Nova to your laboratory
The iGC-SEA Nova broadens the horizon of IGC analysis into exciting new application spaces.
To find out more about the iGC-SEA Nova and its modular accessories, or to discuss a quote, please fill out the forms below.
![Website-Background-Image](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2023/07/Website-Background-Image-SM.png?strip=all&lossy=0&ssl=1)
iGC-SEA Nova
High Temperature
Surface Energy Analysis
A bold new addition to the Inverse Gas Chromatography (iGC) line of Surface Energy Analyzers, the iGC-SEA Nova combines all the unique capabilities of the original iGC-SEA instrument with a powerful new high-temperature sample oven.
Already equipped with a unique SMS injection system providing a wide range of injection concentrations with unrivaled accuracy and reproducibility, the high-temperature oven enables the iGC-SEA Nova to analyze surface energy and material properties under extreme temperatures, opening up a range of possibilities for advanced materials development in new and exciting industrial applications.
![iGC-SEA Nova instrument](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2024/01/iGC-SEA-Nova-instrument-e1706200683901.png?strip=all&lossy=0&ssl=1)
![iGC-SEA-second](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2022/03/iGC-SEA-second.jpg?strip=all&lossy=0&ssl=1)
The iGC-SEA Nova is based on Inverse Gas Chromatography (iGC) methodology, a gas phase technique for characterizing surface and bulk properties of solid materials. The principles of iGC are simple, with a uniformly packed cylindrical column with the solid material being analyzed. Pulses of contact concentration of gas are then injected down the column at a fixed carrier gas flow rate. The injected gas molecules passing over the material are adsorbed on the surface with a partition coefficient Ks:
Ks = Vn / Ws
Where Vn is the net retention volume – the volume of carrier gas required to elute the injection through the column, and Ws is the mass of the sample. With the Vn indicating how strongly the probe gas interacts with the solid sample, a wide range of surface and bulk properties can be calculated.
World’s Most Advanced & Only Purpose-Built iGC Instrument
Discover what makes the iGC-SEA the world’s most advanced iGC instrument.
![iGC Shot 1](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2022/03/iGC-Shot-1.png?strip=all&lossy=0&ssl=1)
![products-img-bottom-3 edit](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2024/01/products-img-bottom-3-edit.jpg?strip=all&lossy=0&ssl=1)
Bring the iGC-SEA Nova to your laboratory
The iGC-SEA Nova broadens the horizon of IGC analysis into exciting new application spaces.
To find out more about the iGC-SEA Nova and its modular accessories, or to discuss a quote, please fill out the forms below.
![Website-Background-Image](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2023/07/Website-Background-Image-SM.png?strip=all&lossy=0&ssl=1)
iGC-SEA Nova
High Temperature
Surface Energy Analysis
A bold new addition to the Inverse Gas Chromatography (iGC) line of Surface Energy Analyzers, the iGC-SEA Nova combines all the unique capabilities of the original iGC-SEA instrument with a powerful new high-temperature sample oven.
Already equipped with a unique SMS injection system providing a wide range of injection concentrations with unrivaled accuracy and reproducibility, the high-temperature oven enables the iGC-SEA Nova to analyze surface energy and material properties under extreme temperatures, opening up a range of possibilities for advanced materials development in new and exciting industrial applications.
![iGC-SEA Nova instrument](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2024/01/iGC-SEA-Nova-instrument-e1706200683901.png?strip=all&lossy=0&ssl=1)
![iGC-SEA-second](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2022/03/iGC-SEA-second.jpg?strip=all&lossy=0&ssl=1)
The iGC-SEA Nova is based on Inverse Gas Chromatography (iGC) methodology, a gas phase technique for characterizing surface and bulk properties of solid materials. The principles of iGC are simple, with a uniformly packed cylindrical column with the solid material being analyzed. Pulses of contact concentration of gas are then injected down the column at a fixed carrier gas flow rate. The injected gas molecules passing over the material are adsorbed on the surface with a partition coefficient Ks:
Ks = Vn / Ws
Where Vn is the net retention volume – the volume of carrier gas required to elute the injection through the column, and Ws is the mass of the sample. With the Vn indicating how strongly the probe gas interacts with the solid sample, a wide range of surface and bulk properties can be calculated.
The world’s most advanced dual-balance gravimetric vapor sorption analyzer
See the DVS Discovery in action, and discover what this groundbreaking instrument is capable of with our video showcase.
![Discovery shot 1](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2022/03/Discovery-shot-1.png?strip=all&lossy=0&ssl=1)
![products-img-bottom-3 edit](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2024/01/products-img-bottom-3-edit.jpg?strip=all&lossy=0&ssl=1)
Bring the iGC-SEA Nova to your laboratory
The iGC-SEA Nova broadens the horizon of IGC analysis into exciting new application spaces.
To find out more about the iGC-SEA Nova and its modular accessories, or to discuss a quote, please fill out the forms below.
![Website-Background-Image](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2023/07/Website-Background-Image-SM.png?strip=all&lossy=0&ssl=1)
iGC-SEA Nova
High Temperature
Surface Energy Analysis
A bold new addition to the Inverse Gas Chromatography (iGC) line of Surface Energy Analyzers, the iGC-SEA Nova combines all the unique capabilities of the original iGC-SEA instrument with a powerful new high-temperature sample oven.
Already equipped with a unique SMS injection system providing a wide range of injection concentrations with unrivaled accuracy and reproducibility, the high-temperature oven enables the iGC-SEA Nova to analyze surface energy and material properties under extreme temperatures, opening up a range of possibilities for advanced materials development in new and exciting industrial applications.
![iGC-SEA Nova instrument](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2024/01/iGC-SEA-Nova-instrument-e1706200683901.png?strip=all&lossy=0&ssl=1)
![iGC-SEA-second](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2022/03/iGC-SEA-second.jpg?strip=all&lossy=0&ssl=1)
The iGC-SEA Nova is based on Inverse Gas Chromatography (iGC) methodology, a gas phase technique for characterizing surface and bulk properties of solid materials. The principles of iGC are simple, with a uniformly packed cylindrical column with the solid material being analyzed. Pulses of contact concentration of gas are then injected down the column at a fixed carrier gas flow rate. The injected gas molecules passing over the material are adsorbed on the surface with a partition coefficient Ks:
Ks = Vn / Ws
Where Vn is the net retention volume – the volume of carrier gas required to elute the injection through the column, and Ws is the mass of the sample. With the Vn indicating how strongly the probe gas interacts with the solid sample, a wide range of surface and bulk properties can be calculated.
![products-img-bottom-3 edit](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2024/01/products-img-bottom-3-edit.jpg?strip=all&lossy=0&ssl=1)
Bring the iGC-SEA Nova to your laboratory
The iGC-SEA Nova broadens the horizon of IGC analysis into exciting new application spaces.
To find out more about the iGC-SEA Nova and its modular accessories, or to discuss a quote, please fill out the forms below.
![Website-Background-Image](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2023/07/Website-Background-Image-SM.png?strip=all&lossy=0&ssl=1)
iGC-SEA Nova
High Temperature
Surface Energy Analysis
A bold new addition to the Inverse Gas Chromatography (iGC) line of Surface Energy Analyzers, the iGC-SEA Nova combines all the unique capabilities of the original iGC-SEA instrument with a powerful new high-temperature sample oven.
Already equipped with a unique SMS injection system providing a wide range of injection concentrations with unrivaled accuracy and reproducibility, the high-temperature oven enables the iGC-SEA Nova to analyze surface energy and material properties under extreme temperatures, opening up a range of possibilities for advanced materials development in new and exciting industrial applications.
![iGC-SEA Nova instrument](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2024/01/iGC-SEA-Nova-instrument-e1706200683901.png?strip=all&lossy=0&ssl=1)
![iGC-SEA-second](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2022/03/iGC-SEA-second.jpg?strip=all&lossy=0&ssl=1)
The iGC-SEA Nova is based on Inverse Gas Chromatography (iGC) methodology, a gas phase technique for characterizing surface and bulk properties of solid materials. The principles of iGC are simple, with a uniformly packed cylindrical column with the solid material being analyzed. Pulses of contact concentration of gas are then injected down the column at a fixed carrier gas flow rate. The injected gas molecules passing over the material are adsorbed on the surface with a partition coefficient Ks:
Ks = Vn / Ws
Where Vn is the net retention volume – the volume of carrier gas required to elute the injection through the column, and Ws is the mass of the sample. With the Vn indicating how strongly the probe gas interacts with the solid sample, a wide range of surface and bulk properties can be calculated.
Gravimetric Gas/Vapor Sorption Vacuum Analyzer
Discover what makes the DVS Vacuum one of the most unique sorption measurement instruments in the world.
![DVS Vacuum - video thumbnail](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2022/03/DVS-Vacuum-video-thumbnail.jpg?strip=all&lossy=0&ssl=1)
![products-img-bottom-3 edit](https://e3ekiq82rvu.exactdn.com/wp-content/uploads/2024/01/products-img-bottom-3-edit.jpg?strip=all&lossy=0&ssl=1)
Bring the iGC-SEA Nova to your laboratory
The iGC-SEA Nova broadens the horizon of IGC analysis into exciting new application spaces.
To find out more about the iGC-SEA Nova and its modular accessories, or to discuss a quote, please fill out the forms below.