Scientists at Argonne National Laboratory have developed a new nanoscale technique, surface-sensitive spintronic terahertz spectroscopy (SSTS), to probe the quantum behaviour of materials at interfaces. This breakthrough offers unprecedented insights into surface phonons and interfacial superconductivity, paving the way for advancements in quantum material and technologies.
Professor Sandra Carvalho, University of Minho, Department of Physics, discusses the emergence of surface functionalization as a strategy in biotech and health.
The role of technology and innovation in helping farmers overcome the challenges of COVID-19 and meet future demands are discussed here by David Green from the U.S. Sustainability Alliance.
According to a new report, strong European bio-based industries will allow the EU to accelerate the green economic recovery and the transition towards climate neutrality.
Shinichi Tokuno from the University of Tokyo walks us through voice analysis technology, specifically focussing on social impact analysis using voice biomarkers.
Cristiano Malossi, PhD, Manager AI Automation at IBM Research – Zurich tells us what we need to know about the OPRECOMP project that concerns transprecision computing for energy efficiency.
Here, Founder and Managing Director of iOpt Dane Ralston, features a case study of iOpt’s breakthrough collaboration with Renfrewshire Council, one which could fundamentally change the way the UK manages housing stock – and deliver benefits in cost-saving, energy efficiency and tenant health.
In the digital age, it is vital to recognise cybersecurity as a real threat, and EHJ & SJ Consultancy Ltd are providing digital solutions to match our world of accelerated digital transformation.
Dr David Carroll from CU Aerospace LLC says that there are advantages to nano-satellites and the Space 2.0 environment, but they exacerbate the problem of orbital debris.
A new proposal for virtual tourism using livestreaming and mathematical techniques could help revitalise an industry that has been devastated by the COVID-19 pandemic.
A new study combines genomics from COVID-19 samples with computer-simulated epidemics and travel records to reconstruct the virus' spread across the world.
