Explore expert resources and technical insights

Technical Library

Filter by Method

Reactor Design Equations: A Practical Guide for Catalytic Scientists

Understand reactor design equations for batch, CSTR, and plug flow reactors. A practical guide for catalytic scientists using AMI lab reactor instruments.

Temperature Swing Adsorption: Principles and Gas Drying Applications

Learn how temperature swing adsorption (TSA) removes moisture from natural gas, shale gas, and compressed air. Explore AMI instruments for TSA adsorbent research.

Lab Scale Catalytic Reactors: A Selection Guide for Screening, Kinetics, and Scale-Up

Compare lab scale catalytic reactors for screening, kinetic studies, and scale-up. Fixed-bed, CSTR, batch, and recirculating reactor selection guide from AMI.

XRD Internal Standard Correction for Battery Materials: Accurate Lattice Parameters and Graphitization Degree

Use XRD internal standard correction with LaB₆ to eliminate systematic errors in battery materials analysis — accurate LiFePO₄ lattice parameters and graphitization degree.

Bauxite XRD Phase Analysis: Quantitative Mineralogy with Rietveld Refinement

Bauxite XRD phase analysis with Rietveld refinement: identify and quantify gibbsite, goethite, and hematite using the AMI Lattice Series per ISO 19950 and ASTM D4926.

True Density of Battery Materials: Application of the DensiPyc 1000

Measure true density of battery materials with the DensiPyc 1000. See how helium pycnometry supports QC of cathode and anode materials with RSD below 0.1%.

SSITKA in Catalysis: Surface Kinetics Under Reaction Conditions

Learn how SSITKA in catalysis measures surface intermediates and kinetic parameters under true steady-state conditions, with ethylene oxidation and FT synthesis data.

SSITKA Explained: Kinetics at True Steady State

SSITKA reveals surface kinetics and intermediate coverage under real reaction conditions. See how AMI’s AMI-300 SSITKA delivers precise catalytic data.