Join us on booth #2203
Join us on booth #1053
In this webinar, we will talk about the historical background of BET surface area, look into sample preparation and setting up the best analysis parameters, and discuss how to use the Micromeritics So...
In this webinar, different types of zeolites were explored to characterize the acid sites such as ZSM-5 with different SiO2/Al2O3 ratios, mordenite, faujasite and ferrierite.
In collaboration with Evonik, "The Application of Powder Characterization Techniques in Personal Care Using the FT4 Powder Rheometer".
This webinar presents a generalized approach to modeling the pore size distribution has been developed to determine the complete distribution of macro-, meso-, and micro-pores.
Understanding the porous structure of freeze-dried organic products is complex and requires a combination of various analytical techniques.
In this presentation, both bulk powder rheology and characteristics of particles that make up the powders will be presented, along with how the particle characteristics support the powder rheology.
In this webinar, we explore and compare Skeletal Density, Bulk Density, Envelope Density, and T.A.P. Density for some common materials.
In this webinar, Dr Rajeev Dattani, Applications Specialist at Freeman Technology, will demonstrate the unique value of using dynamic powder testing for investigating the impact of caking.
In this lecture, we will describe the design and synthesis, characterization and application of oxide-supported amine materials that we have developed as cornerstones of new technologies for the remov...
In a recent study, we substituted N2 and CO2 with O2 and H2 gases with much lower quadrupole moments.
This talk aims to pick up on some examples from experimental and numerical developments obtained via partnerships with academic teams and engineering companies.
Sample preparation is an often-overlooked part of the material analysis process, never-the-less it is critical to achieving consistent and high-quality results.
In this webinar, we will explore this further using copper oxide on alumina support and present the effects of particle size, surface chemistry and how that effects the reduction fingerprint.