Researchers from Rice and Swansea universities have discovered a method to eliminate contaminants from nanotubes to increase their application.
By organizing silver nanoparticles on nanowires in specific arrangements, molecular detection of Raman spectroscopy at low concentrations has been enhanced.
Physicists in America are using billiards and a bowling ball to demonstrate the unexpected results obtained while investigating the spin of different sized nuclei. Their work may offer new insight into the mechanisms affecting particle production in proton-ion collisions.
Researchers at The University of Manchester have integrated graphene sensors into RFIDs, which have the ability to transform the Internet of Things (IoT).
According to a Rice University researcher, a little hBN in ceramics could give them exceptional properties.
Next Generation Quantum Dot Pixel Based LCD Displays
From Avantama AG
Tribometer for Tribology of Polymers
Young's Modulus of Glass Microspheres
From Nanomechanics, Inc.
Indentation of Alloy Steel
Pull-Off Force and Adhesion Strength
How to Use Void Material and Volume
From Image Metrology A/S
Crumpled Graphene Balls Improve Batteries by Preventing Lithium Dendrite Growth
Graphene ‘Petri-Dish’ Allows Measurement of Single Atoms
White Graphene Provides Ceramics Strength, Toughness, and Thermal Conductivity
Nanotubes Could Help Water Purification & Tissue Engineering
Graphenea launches 6" graphene wafer on all substrates
Engineers Develop Thinnest Memory Storage Device for Faster and Smarter Computing
Researchers Develop New Way to Create Molecular Wires by Adding or Removing Copper Atoms One by One
VSPARTICLE have developed a new instrument that uses spark ablation to produce particular nanoparticles, of a set size distribution, all in one afternoon.
Quick and effective evaluation of biologics for aggregation and stability is needed to proceed with maximum confidence to the next stages of preclinical development and clinical trials.
James Baker, Graphene Business Director at The University of Manchester, talks to AZoNano about the current state of the graphene market and the key next steps needed.
The Asylum Research Cypher™ AFMs are considered to be in a class of their own. Every design choice was guided to obtain an exceptional combination of highest resolution, integrated environmental control, fast scanning and supreme productivity.
Nanovea’s T3, just like the M3 was designed to offer fast, easy and affordable access to high end mechanical measurement capability.
SAXS has a well-established track record for consistent determination of macromolecular shape, related parameters and even interactions and dynamics in solutions. Until now, these measurements were carried out at synchrotron facilities or with low throughput laboratory arrangements requiring huge quantities of sample.
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