Researchers at the University of Huddersfield have combined differential scanning calorimetry (DSC) with thermomicroscopy to reveal detailed energy changes in specific materials.
The wide range of material options and potential applications in a variety of fields, including optoelectronics and electronics, has attracted attention toward two-dimensional transition metal chalcogenides (2D TMCs).
An international team of scientists from Greece, Spain, Switzerland, France, the USA, and The Netherlands have collaborated on a new paper investigating the application of solar irradiance nowcast algorithms to the field of solar forecasting.
By Reginald Davey
30 Aug 2022
Writing in Polymers, a team of researchers from Rocket Force University of Engineering and Qingdao University of Science and Technology have published a paper investigating the use of artificial bee colony algorithms to predict rubber product life cycles.
By Reginald Davey
30 Aug 2022
In a review recently published in the open-access journal Energies, researchers presented a minireview of the photocatalytic evolution of hydrogen peroxide.
By Surbhi Jain
30 Aug 2022
A paper recently published in the journal Energies reviewed the recent developments in hydrogen storage systems and batteries.
By Samudrapom Dam
30 Aug 2022
SABIC, a global leader in the chemical industry, has expanded its optical materials portfolio with the launch of ULTEM™ 3310TD resin, which is well suited for optical transceiver collimator lenses used in single-mo...
In a paper recently published in the Journal of Pharmaceutical Sciences, researchers reported a method to determine the miscibility of amorphous solid dispersions (ASDs) based on the overlap concentration (c*). The resul...
By Chinmay Chari
30 Aug 2022
According to the United Nations, less than a quarter of all U.S. electronic waste gets recycled. In 2021 alone, global e-waste surged at 57.5 million tons, and only 17.4% of that was recycled.
Osaka Metropolitan University scientists have developed a simple, rapid method to simultaneously identify multiple food poisoning bacteria, based on color differences in the scattered light by nanometer-scaled organic metal nanohybrid structures (NHs) that bind via antibodies to those bacteria.
For the next six months, a camera system on the exterior of the International Space Station (ISS) will be snapping photos of more than a dozen different material samples, gathering detailed information that will help researchers determine how – and why – the harsh conditions of space affect these materials.
Ammonia, a nitrogen and hydrogen (NH3) compound known best for its use as a household cleaner, has the ability to be employed as a vehicle alternative fuel or as a form of energy storage.
Solar cells are rapidly becoming one of the major means to produce clean electricity in many nations.
A group of researchers led by the University of Texas at Arlington assistant professor is building a predictive tool that will help assess the lifespan, robustness, and safety of composites used in the construction of aircraft.
Dr Xuemin Du of the Shenzhen Institute of Advanced Technology (SIAT), Chinese Academy of Sciences, headed a study team that discovered a new slippery material with outstanding light-induced charge regeneration capabilities, allowing photocontrol of droplets in a variety of working circumstances.