Subscribe to Newsletter

Refine results:

Refine results

App Notes

Results 541–550 of 1444

Guidebook to Proximate Analysis

| Contributed by Buchi

Nutritional analysis began in 1861 and since then it has have been continuously developed, modified and improved.

Direct Rapid Analysis of Tetrodotoxin Contained in Fugu Using DPiMS™-8060

| Contributed by Shimadzu

This article introduces a quick TTX analysis method using the new Shimadzu DPiMS-8060 mass spectrometer

Interference-free TS Determination by UV-Fluorescence in Fuels with N-containing Cetane Improvers

| Contributed by Analytik Jena

Elimination of the interfering N-compounds by cold plasm ionization (MPO technology).

TOC Determination in Raw and Drinking Water

| Contributed by Analytik Jena

Reliable TOC determination by NPOC method with TIC control measurement, realizing a high sample throughput by parallel purging and analyzing

Speed Up Your Work – High-throughput Analysis of Drinking Water with ICP-MS

| Contributed by Analytik Jena

The unmatched sensitivity of the PlasmaQuant® MS enables fastest and most precise analyses resulting in lowest cost per sample.

Analysis of Elemental Impurities in Naphtha by ICP-MS according to ASTM D8110-17

| Contributed by Analytik Jena

This application note demonstrates the performance of the PlasmaQuant MS and its unmatched tolerance to organic solvents

FTIR Analysis of Cannabis Oil Supplements

| Contributed by Specac

A wide variety of cannabis derived products are now available for purchase, although the legality of these products varies from country to country.

The advantages of pressure-resistant, high-performance polymer columns in HPLC and LC-MS

| Contributed by Shodex

State-of-the-art polymer columns can achieve more than you think, breaking the limitations of silica gel columns.

A Simple Step-by-Step Protocol for HILIC Method Development

| Contributed by Ace

Method development workflows are generally well established for reversed phase liquid chromatography.

The Power of Stationary Phase Selectivity

| Contributed by Ace

Method development is a process to select the chromatographic conditions best suited to obtain adequate separation of an analyte mixture.

Register to The Analytical Scientist

Register to access our FREE online portfolio, request the magazine in print and manage your preferences.

You will benefit from:
  • Unlimited access to ALL articles
  • News, interviews & opinions from leading industry experts
  • Receive print (and PDF) copies of The Analytical Scientist magazine

Register