The main challenges when analyzing nanostructures come down to your sensitivity and your accuracy. With nanostructures especially, you can be looking at trace amounts of material and you want to be able to capture what's truly there. If you're analyzing down to individual atoms, you want to make sure that you are fully capturing that single atom, of Sulfur, for example.
Performing In Situ EDS in the TEM
By Alina Shrourou
How Graphite Can Help to Get the Most Energy Out of Your Battery?
By Matt Rafferty
What are the Effects of the Aspect Ratio and Tip Sharpness of an AFM Probe
From Nu Nano Ltd.
Quantum Computing - Is it the Future?
By Meet A. Moradiya
Thin Film Measurement on Angled Surfaces
How Does Buckminsterfullerene Allow for Greater Mechanical Strength in Different Objects?
By Isabelle Robinson
Multitasking Graphene Device can Help Study Exotic Quantum Physics
Queen Mary University of London and Paragraf Awarded £500,000 to Explore Using Graphene to Replace the Rare Metal Indium
From Paragraf Ltd.
Nanomaterials Can Help Develop New Computer Technologies and Medical Equipment
PI Ceramic Invests $11MM Into Expanding Its Piezo Transducer Production Capabilities
From PI (Physik Instrumente) LP
Nanoparticles Used to Boost Power and Improve Eye Safety of Fiber Lasers
Researchers Achieve Control over Charge State of Singlet Oxygen
Nanoparticles Deliver CRISPR Gene-Editing Tools for Treatment of Hyperlipidemia
Predictive Model to Understand Interaction of Hydrogen-Nanovoid in Metals
Dr Sam Marks
Dr Sam Marks discusses the ability to study nanostructures in situ in the TEM with Oxford Instruments' silicon drift detectors.
This is in a interview in which we speak to Richard Baxter from Novocarbon about the optimum materials and methods to create battery storage that lasts.
In this interview, Erik Runge, Director of Engineering at Minus K Technology talks to AZoNano about their range of Negative-Stiffness Vibration Isolators and why they are the preferred solution for Nanotechnology applications.
This page details the capabilities of the Jr25, a 3D non-contact profilometer.
This product profile describes THz-Raman® Spectroscopy Benchtop Module for Terahertz Spectroscopy.
Hysitron TI 950 TriboIndenter nanoindenter developed by Bruker is a high throughput instrument to support nanomechanical tests.