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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 in Catalysis Surface Kinetics Under Reaction Conditions

SSITKA Technology: Catalyst Kinetics Under True Steady-State Reaction Conditions

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

SSITKA Explained Kinetics at True Steady State

Temperature Programmed Oxidation for Coke Analysis

Learn how temperature programmed oxidation with methanation and FID detection detects carbon below 0.1% and distinguishes coke types on catalyst surfaces.

Temperature Programmed Oxidation for Coke Analysis

Measuring Zeolite Acidity: TPD Techniques That Deliver

Learn how TPD of basic probe molecules accurately quantifies zeolite acidity, site strength, and Bronsted vs. Lewis sites, using AMI chemisorption systems.

Measuring Zeolite Acidity TPD Techniques That Deliver

Chemisorption Analysis: Adsorbate Selection Guide

Learn how to select the right adsorbate, conditions, and stoichiometry for chemisorption analysis of supported metal catalysts, with IR-based speciation data.

Chemisorption Analysis: Adsorbate Selection Guide

Steady-State Isotopic Transient Kinetic Analysis in Practice: Instrumentation, Computation, and FTIR Integration

A guide to steady-state isotopic transient kinetic analysis: instrumentation, kinetic parameters, curve modeling, and FTIR integration on the AMI-300 SSITKA.

Steady State Isotopic Transient Kinetic Analysis Guide

Nickel Catalyst Characterization: Building a QC Procedure That Actually Catches Problems

Learn how hydrogen TPD and pulse chemisorption build a reliable QC procedure for supported nickel catalysts.

Nickel Catalyst QC TPD Methods That Catch Failures Early

Temperature Programmed Desorption: Measuring Metal Surface Area and Crystallite Size in Supported Catalysts

Learn how TPD measures metal surface area and crystallite size in supported catalysts, with complete calculation examples for Ni, Pt, and Rh.

Temperature Programmed Desorption for Metal Surface Area