MAC-MOD Analytical

We apply the best-available software tools and our experience to help you select the best column and conditions for your separation needs.

Beyond Chemistry Choosing the Right HPLC Column for the Real World

Beyond Chemistry Choosing the Right HPLC Column for the Real World
What Makes One C18 Different From Another

What Makes One C18 Different From Another
The Two Reasons Why HPLC Peaks Tail and How to Reduce Peak Tailing

The Two Reasons Why HPLC Peaks Tail and How to Reduce Peak Tailing
Are Smaller HPLC Particles Always Better - Totally Porous vs Superficially Porous

Are Smaller HPLC Particles Always Better - Totally Porous vs Superficially Porous
Banish Coelution - the Achilles Heel of Chromatography

Banish Coelution - the Achilles Heel of Chromatography
bootcamp talk HPLC Columns bootcamp talk

bootcamp talk HPLC Columns bootcamp talk
Tackling and Controlling Background Laboratory PFAS

Tackling and Controlling Background Laboratory PFAS
Analytical Challenges & Developing LC MS Methods for PFAS

Analytical Challenges & Developing LC MS Methods for PFAS
What Are PFAS and How Are They Analyzed?

What Are PFAS and How Are They Analyzed?
CACA Webinar New LC Particle Technology Oligonucleotide Separations Part 2

CACA Webinar New LC Particle Technology Oligonucleotide Separations Part 2
CACA Webinar: New LC Particle Technology Monodisperse Fully Porous Particles – Part 1

CACA Webinar: New LC Particle Technology Monodisperse Fully Porous Particles – Part 1
Introducing a Screening Platform for U HPLC Method Development | Part 3 | Gemma Lo

Introducing a Screening Platform for U HPLC Method Development | Part 3 | Gemma Lo
Utilizing Stationary Phase Design in Method Development | Part 2 | Gemma Lo

Utilizing Stationary Phase Design in Method Development | Part 2 | Gemma Lo
Understanding Chromatographic Selectivity | Part 1 | Gemma Lo

Understanding Chromatographic Selectivity | Part 1 | Gemma Lo
A Practical Guide to Maximizing the Reversed Phase LC (RPLC) Separation’s Peak Capacity

A Practical Guide to Maximizing the Reversed Phase LC (RPLC) Separation’s Peak Capacity
Oligonucleotide Analysis without Ion-Pairing Additives using Monodisperse UHPLC Column Technology

Oligonucleotide Analysis without Ion-Pairing Additives using Monodisperse UHPLC Column Technology
HPLC- What if C18 Doesn't Work?

HPLC- What if C18 Doesn't Work?
U/HPLC Monodisperse Particle Column Technology and its Applied Use in Metabolomics and Lipidomics

U/HPLC Monodisperse Particle Column Technology and its Applied Use in Metabolomics and Lipidomics
New LC Particle Technology – Monodisperse Fully Porous Particles

New LC Particle Technology – Monodisperse Fully Porous Particles
The Role of Chromatography and Monodisperse Particles in Mass Spectrometry Based Metabolomics for Di

The Role of Chromatography and Monodisperse Particles in Mass Spectrometry Based Metabolomics for Di
Mass Spectrometry based Lipidomics Using Monodisperse Particle UHPLC Columns for Biomarker Discovery

Mass Spectrometry based Lipidomics Using Monodisperse Particle UHPLC Columns for Biomarker Discovery
Introduction to GC Method Development

Introduction to GC Method Development
GC Method Development

GC Method Development
Evosphere Monodisperse Particles HPLC 2023

Evosphere Monodisperse Particles HPLC 2023
Advantages of Utilizing Monodisperse Fully Porous Particle Technology in the LC MS Study of Lipids

Advantages of Utilizing Monodisperse Fully Porous Particle Technology in the LC MS Study of Lipids
LC and LC MS of Intact Protein Biotherapeutics and their Variants and Panel Discussion

LC and LC MS of Intact Protein Biotherapeutics and their Variants and Panel Discussion
Protein Separations Using Large Pore Superficially Porous Particles

Protein Separations Using Large Pore Superficially Porous Particles
RPLC Method Development Strategies Using Stationary Phase and Mobile Phase Screening, and Some Helpf

RPLC Method Development Strategies Using Stationary Phase and Mobile Phase Screening, and Some Helpf
Selectivity and Rapid Method Development, Method Translations, and Instrument Transfers

Selectivity and Rapid Method Development, Method Translations, and Instrument Transfers
Theory and Practice of Developing LC Methods with Solid Core Particle Columns

Theory and Practice of Developing LC Methods with Solid Core Particle Columns