New models for determining the pore volume and pore size distribution of porous solids may be easily added to MicroActive™. These kernels developed using NLDFT, GCMC and other variants have been available for more than 20 years. Traditionally instrument manufacturers have supplied these proprietary models. To introduce new powerful capabilities for users, Micromeritics has developed a simple program to convert model isotherms (a kernel) to a model file that can be easily used with MicroActive. This provides users the full capabilities of the MicroActive user interface and advanced deconvolution techniques. A full description of the model requirements and conversion process are provided below and include an example using a GCMC kernel for carbon slit-shaped pores and CO2 adsorption. The GCMC kernel used in this example was developed by Inmondo Tech.
New models for determining the pore volume and pore size distribution of porous solids may be easily added to MicroActive™. These kernels developed using NLDFT, GCMC and other variants have been available for more than 20 years. Traditionally instrument manufacturers have supplied these proprietary models. To introduce new powerful capabilities for users, Micromeritics has developed a simple program to convert model isotherms (a kernel) to a model file that can be easily used with MicroActive. This provides users the full capabilities of the MicroActive user interface and advanced deconvolution techniques. A full description of the model requirements and conversion process are provided below and include an example using a GCMC kernel for carbon slit-shaped pores and CO2 adsorption. The GCMC kernel used in this example was developed by Inmondo Tech.
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