The NexION ICP-MS can be utilized for the analysis of toxic elements in food, including As, Cd, Hg, Pb, and Sb.
While batteries are the most popular power source for this new technological mode, constant, passive power from natural sources may hold the key to unlocking wearables’ full potential. One natural energy source is a prime candidate for this task: the heat produced by our bodies.
By Ben Pilkington
14 Sep 2022
Hydrogel electrolytes based on biopolymers have gathered increased attention due to their functionality, low cost, abundance, flexibility, and eco-friendliness. The biopolymers play a role in ion conduction, enabling high electrolytic conductivity, mechanical robustness, and thermal stability, in addition to biodegradability.
By Chinmay Chari
12 Sep 2022
This article from Cannon Instrument explains how a viscometer can be used to study the effect of antioxidants on a polyethylene solution.
In this interview, AZoM talks to Dave Cist, Roger Roberts, and Rob Sommerfeldt from GSSI about the Pavescan RDM, MDM, and their ground penetrating radar (GPR) capabilities. They also discuss how this can aid the asphalt production and laying processes.
Artificial intelligence (AI) has taken on an increasingly central role in chemistry research and industrial development in the last few decades. In particular, analytical chemistry and biochemistry for life sciences have integrated tools like machine learning algorithms and artificial neural networks (ANNs) to process large datasets and gain new knowledge in the field of chemistry.
By Ben Pilkington
6 Sep 2022
Ryan Ritz of Paratherm discusses how to be an ideal thermal fluid user, emphasizing best practices for system efficiency and safety.
Following the Advanced Materials Show 2022, AZoM spoke with Cameron Day from William Blythe about the broad scope of the company and its goals for the future.
In this article, you can find out about the use of multiple analysis DMA which is used to analyze the properties of epoxy which is used as building blocks for adhesives.
This article focuses on the improved methods of HyperDSV to determine the specific heat capacity of nanocomposites that have been of tremendous interest in recent years.