ICP-OES

This is a realistic, 16:9 abstract visualization of complex forensic trace analysis. The image is a cinematic depiction of how Inductively Coupled Plasma Mass Spectrometry (ICP-MS) linked with laser ablation creates an elemental fingerprint for microscopic evidence.

ICP-MS for Trace Evidence in Forensics

byCraig Bradley

Inductively coupled plasma mass spectrometry delivers part-per-trillion sensitivity for multi-element analysis, providing forensic laboratories with a robust method for comparing glass, paint, and ballistic fragments.

| 4 min read

Lab professional wearing safety glasses and gloves operating an ICP-OES instrument for material characterization.

ICP-OES for Alloy and Semiconductor Characterization

byCraig Bradley

| 4 min read

Lab technician in PPE loading digested soil samples into an ICP-MS autosampler in a modern analytical laboratory

ICP for Soil and Plant Nutrient Analysis

byCraig Bradley

| 4 min read

Lab technician loading drinking water samples into an autosampler for ICP-MS analysis.

ICP-MS for Drinking Water Analysis: A Complete Guide

byCraig Bradley

Updated | 5 min read

An abstract digital illustration representing Inductively Coupled Plasma Mass Spectrometry (ICP-MS) testing for food safety. Various food items on the left transition into a stream of glowing particles that pass through a series of cones and sensors, resulting in digital data charts and elemental symbols on the right.

ICP-MS for Heavy Metal Contaminant Detection in Food

byCraig Bradley

| 5 min read

Abstract 3D visualization of an automated ICP-OES system performing high-throughput analysis, featuring a robotic autosampler, glowing plasma flame, and digital spectral data

Automating ICP-OES for High-Throughput Analysis

byCraig Bradley

| 5+ min read

Abstract visualization of ICP-MS plasma flow connecting to geometric structures representing precision quality control in sub-ppb trace analysis.

Mastering Trace Analysis: How to Ensure Sub-ppb Accuracy in ICP-MS Workflows

byCraig Bradley

| 5+ min read

A futuristic laboratory scene featuring a large, transparent geometric sphere containing blue and purple plasma discharge on the left, and complex glass apparatus with boiling orange and green liquids emitting steam on the right, set against a dark background with glowing orange and blue circuit patterns.

The Complete Guide to ICP Safety: Managing Plasma and Acid Digestion

byCraig Bradley

| 5+ min read

Abstract 3D illustration comparing ICP-OES optical light emission versus ICP-MS ion mass separation techniques.

ICP-OES vs. ICP-MS: Choosing the Right Technique for Trace Metal Analysis

byCraig Bradley

Updated | 5+ min read

Visualization of elemental impurity testing with highlighted toxic metals Pb, Cd, and Hg.

Ensuring Compliance with Elemental Impurity Testing: From USP to ICH

byTrevor J Henderson

| 3 min read

Page 1 of 4 - 36 Total Items

1 2 3 4

CURRENT ISSUE - January/February 2026

How to Build Trust Into Every Lab Result

Applying the Six Cs Helps Labs Deliver Results Stakeholders Can Rely On

Lab Manager January/February 2026 Cover Image

Sponsored

A lab technician in a white coat operates a PolyScience PolyTemp circulator, holding a tablet and a graduated cylinder with blue liquid in a modern laboratory

Verify Circulator Performance without Waiting for Service

Kimtech™ Polaris™ Nitrile Exam Gloves. Built For Science. Made For You.

Laboratory acetone in Erlenmeyer flask on lab bench with chemical storage bottles

Manage Acetone Risk with High-Performance Hand Protection

thumbnail

Maximizing Lab Workflows: Integrating Slide Staining and Cytocentrifugation with Aerospray