Transition metal sulfides have great potential for sodium storage due to their high theoretical capacity and abundance. However, low conductivity and volume expansion limit their high-rate performance and cyclic stability.
By Hussain Ahmed
16 Feb 2023
Recently, researchers at Yale University and the University of Connecticut collaborated to develop a nanoparticle-based treatment to fight glioblastoma (GBM), one of the most harmful malignancies with a high recurrence rate and poor clinical outcome.
By Dr. Priyom Bose
16 Feb 2023
According to a new study performed by Cornell and Binghamton University, scientists have found that common metal oxide nanoparticles utilized as anti-caking and food coloring agents in the commercial ingredients industry could damage parts of the human intestine.
Researchers have produced new evidence of how graphene, when twisted to a precise angle, can become a superconductor, moving electricity with no loss of energy.
Researchers and engineers from QuTech and Eindhoven University of Technology have created Majorana particles and measured their properties with great control.
At the High-Performance Materials Institute, a group of FAMU-FSU College of engineering scientists is examining the thermal limits of advanced nanomaterials.
New insights have been provided by researchers at the University of Helsinki into the control over reaction selectivity along with visible light in plasmonic catalysis.
A new research report, released today by charity EngineeringUK, reveals the staggering increase needed in the number of girls studying maths and/or physics at A level, in order to reach equal numbers of male and female students studying engineering and technology degrees.
A team of researchers from Yale and the University of Connecticut (UConn) has developed a nanoparticle-based treatment that targets multiple culprits in glioblastoma, a particularly aggressive and deadly form of brain cancer.
Quantum Science, developer of the ground-breaking INFIQ® quantum dots, has been recognised among the best and brightest companies in Liverpool’s burgeoning tech sector.
Due to their easy bandgap tunability and low inter-system crossing loss, semiconductor nanocrystals (NCs) offer tremendous potential as sensitizers for triplet-triplet annihilation up-conversion (TTA-UC).
A recent study published in the journal Carbon focuses on the application of high-powered laser pulses of brief duration for inducing minute defects in lithium-ion battery materials, which in turn improves battery performance.
By Hussain Ahmed
10 Feb 2023
Some "broken" nanomachines better sense their environment while others gain the ability to control their activity over time, Canadian researchers at Universite de Montreal find.
Thinking beyond COVID-19, a team led by Srikanth Singamaneni at the McKelvey School of Engineering developed a new point-of-care diagnostic test that is 1,000 times more sensitive than conventional rapid tests and can quantify concentrations of proteins.
Hydrogen fuel could be a more feasible option than conventional fossil fuels, according to the University of Surrey scientists who have discovered that a type of metal-free catalyst could add to the advancement of economical and sustainable hydrogen fabrication technologies.