Cookies

Like most websites The Analytical Scientist uses cookies. In order to deliver a personalized, responsive service and to improve the site, we remember and store information about how you use it. Learn more.
Subscribe to Newsletter

Search

Reset Filter

112 search results for ‘nanoparticle’

Single Particle Inductively Coupled Plasma Mass Spectrometry: Understanding How and Why

| Contributed by Perkin Elmer

Nanotechnology is an emerging and rapidly growing field whose dynamics and prospects pose many great challenges to scientists and engineers

Nanobubble Applications and Characterization Using Nanoparticle Tracking Analysis

| Contributed by Malvern Panalytical

Review of ultra-fine bubble (nanobubble) applications and characterization examples.

Fields & Applications Education

Landmark Literature 2019

| Norman Dovichi, Catherine Fenselau, Kelly Zhang, Alejandro Cifuentes, Karen Faulds, Gongke Li

An expert panel outline their top literature picks from 2019

Techniques & Tools Mass Spectrometry

Think Before You Ink

| Joanna Cummings

Advanced mass spectrometry finds that tattoo ink can migrate to lymph nodes

Techniques & Tools Mass Spectrometry

Nano-labels for “Sour” Oil

| Rich Whitworth

Carbon black nanoreporters can warn oil producers of unacceptable levels of hydrogen sulfide

Techniques & Tools Micro/Nano-scale

Touching People’s Lives

Four aqueous droplets are pipetted on hydrophobic parts (blue) of a hydrophilic and fibrous paper.

Kay Niemax

together with colleagues at Lawrence Berkeley National Laboratory – the interaction of metallic nanoparticles with molecules in the gas phase. Luckiest break My career change from fundamental atomic and molecular [...] detection of a new class of molecules – the giant Rydberg molecules – and spectroscopic imaging of nanoparticles by surface plasmon resonance spectroscopy.

Fields & Applications Spectroscopy

Brain Wave

| Joanna Cummings

SERS and SORS could help diagnosticians access your mind...

Fields & Applications Spectroscopy

Fluid Diagnosis – with SERS

| Matt Hallam

Could SERS help streamline the diagnosis of gastrointestinal tumors?

FT-IR Spectroscopy in Ultrahigh Vacuum: Surface Science Approach for Understanding Reactions on Catalytic Oxide Powders

| Contributed by Bruker

The fundamental advantage of using FT-IR spectroscopy in vacuum is to avoid the absorption of atmospheric moisture and other gas species (CO2).

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