The field of Scanning Electron Microscopy (SEM) continues to advance rapidly, driving innovation across materials science, life sciences, and nanotechnology. Attending conferences and exhibitions provides invaluable opportunities for professionals and researchers in this domain to learn about cutting-edge technologies, share research, and network with peers. Below is a list of some of the importan...
From materials science and semiconductor research to life sciences, scanning electron microscopy (SEM) has become essential in various industries. The key to unlocking the full potential of SEMs lies in choosing the best electron detector for your specific application. In this blog, we will explore the various types of electron detectors, discuss their typical applications, and highlight how indus...
When using a Scanning Electron Microscope (SEM), you often hear about backscattered electrons (BSE) and secondary electrons (SE). But what exactly are they? And why should you care? If you're diving into electron microscopy, understanding these two types of electrons is essential for interpreting images and optimizing results. In this blog, we will break down the difference between backscattered e...
Scanning Electron Microscopes (SEMs) have revolutionized how scientists, engineers, and researchers analyze materials at the microscopic level. Whether you're working in materials science, biology, or nanotechnology, the right SEM can provide the detailed imaging and analysis needed to advance your research. If you're in Canada and looking to invest in an SEM for your laboratory, this guide will h...
Scanning Electron Microscopy (SEM) has revolutionized the way scientists and researchers visualize materials at the micro and nanoscale. In the academic and research landscapes of Africa, SEM serves as a bridge between theoretical studies and real-world applications—from materials science and biology to nanotechnology and environmental research. This guide provides an in-depth look at SEM te...
Scanning electron microscopy (SEM) is a transformative imaging technology that has reshaped research and industrial analysis. By harnessing an electron beam, SEMs deliver ultra-high-resolution images that reveal the intricate details of surfaces at the nanoscale—insights that conventional optical microscopes simply can’t provide. Rather than getting lost in technical details, let&rsquo...
Scanning Electron Microscopy (SEM) has become an indispensable tool in various scientific and industrial fields, enabling researchers to explore the micro- and nanoscale world with unprecedented clarity. High-resolution SEM, in particular, has revolutionized materials science, life sciences, and semiconductor research, providing exceptional imaging capabilities and analytical precision. In Europe,...
Electron Paramagnetic Resonance (EPR) spectroscopy is a critical technique for studying the electronic properties of paramagnetic species, and temperature control plays a central role in the accuracy and reliability of EPR measurements. Variable Temperature (VT) Systems allow researchers to investigate temperature-dependent phenomena, providing a direct window into spin dynamics, phase transitions...