Micromeritics 3Flex Surface Characterization Analyzer

 
Micromeritics 3Flex Surface Characterization Analyzer
Product no. 350-00000-00


Micromeritics 3Flex Surface Characterization Analyzer

Micromeritics 3Flex Surface Characterization Analyzer is a fully automated, three-station instrument capable of high-performance physisorption (mesopore and micropore) and chemisorption analyses with superior accuracy, resolution, and data reduction.  

Each analysis station is upgradeable from mesopore to micropore with the option of designating one station for chemisorption analyses. All analysis stations can be configured for krypton analysis of low surface area materials. Vapor sorption capability is standard. A single 3Flex with its minimal footprint and three configurable analysis stations eliminates costly investment in multiple instruments and additional bench space. The 3Flex is ideally suited for the characterization of MOFs, zeolites, activated carbons, adsorbents, and a wide variety of porous and non-porous materials. 

 

High Resolution, High-throughput Physisorption and Chemisorption Instrument

Recognized as the most advanced instrument in the field for material surface characterization (according to TechValidate TVID 645-C46-D86). The 3Flex has become a crucial tool for providing high resolution adsorption, desorption, isotherms to advance and validate fundamental understanding into development of methodologies and process improvements.

 

Extend and increaseyour knowledge

3Flex permits you to optimize your experimental parameters to gain greater understanding of your material. This is the only available 3-port surface characterization system with the ability to analyze a sample with 3 separate probe gases simultaneously, one on each analysis port,
within a single run.

 

Extend your range of study

Go beyond micropore and extend your range of resolution to the ultra-microporus level. The advanced engineered design of the 3Flex permits you to acquire accurate results with a resolution to 10-5 mmHg.

 

Optimize your process

With 3Flex you gain valuable data to validate your theories and rationalize the design and synthesis of MOFs, zeolites activated carbons and other products. Ulitize the hight throughput results of the 3-port mesopore and micropore design of the 3Flex to gain rapid understanding of restrictions or boundries that may influence or impede your process optimization.

 

Available models

Micromeritics 3Flex Surface Characterization Analyzer is a fully automated three-station instrument capable of high-performance physisorption and chemisorption analyses with superior accuracy, resolution and data reduction.

 

3Flex Physisorption

The 3Flex is a high-performance instrument for mesopore and micropore analyses and delivers superior accuracy, resolution and data reduction. All analysis stations can be configured for micropore and are also available with krypton analysis for low surface area materials. A vapor sorption capability is also available. A single 3Flex with its minimal footprint and three configurable analysis stations eliminates costly investment in multiple instruments and additional bench space.

 

3Flex Chemisorption

Using the chemisorption option, researchers can obtain valuable information about the physical or chemical properties of catalysts, catalyst supports and a variety of other materials. This model can easily switch from chemisporption to physisorption in less than 3 minutes to provide advanced analyses on the active surface area of the sample material.

 

3Flex TCD

The 3Flex TCD is our newest addition to the expanding capabilities of the 3Flex instrument family. Dynamic chemisorption analyses are available to the user with the addition of an integral thermal conductivity detector. This new feature allows the user to perform temperature programmed reduction (TPR), oxidation (TPO), desorption (TPD), and reduction reactions (TPRx). The 3Flex TCD also has an option for pulse chemisorption analyses which can be performed with manual injections or automatically with the optional injection loop.