Typical superconducting quantum circuits, such as qubits—basic processing units of a quantum computer, must be operated at very low temperatures, of a few 10s of millikelvin, or hundredths of a degree from absolute zero temperature. These temperat...
Jun 16, 2023
Researchers from the Gothelf lab at Aarhus University have developed a revolutionary new method, called triplex origami, to manipulate the shape and tight packing of DNA. The discoveries open up exciting new possibilities in gene therapy, nanotech...
Jun 16, 2023
With a dramatic boost in computing capability, a team of researchers has solved a decades-long mystery about whether optical waves can be trapped in three-dimensional randomly packed micro- or nanoparticles. It's a discovery that could open n...
Jun 16, 2023
Researchers have developed a new method to manipulate the shape of DNA, opening up exciting new avenues for exploration in molecular biology, nanotechnology, and beyond.
Jun 16, 2023
Researchers discover new, fast, and precise method for detecting indicators of COVID-19 and breast cancer in a blood sample. By using tiny nanopores and nanobodies, we may face fast and accurate disease diagnosis using a simple blood test.
Jun 16, 2023
IONQ met their technical target of 29 algorithmic qubits (#AQ) seven months earlier than expected. IonQ Forte is their newest quantum system. IonQ Forte represents a 16x step up in power from the IonQ Aria system. IonQ’s qubits are trapped ionized...
Jun 16, 2023
In a collaboration with Groningen University, Professor Jørgen Kjems and his research group at Aarhus University have achieved a remarkable breakthrough in developing tiny nano-sized pores that can contribute to better possibilities for, among oth...
Jun 15, 2023
Despite the advancements of recent years, solar cells still leave a little bit to be desired in situations where weight must be minimized. 2D semiconductor materials have been considered as a possible solution, but they’ve historically been hampe...
Jun 15, 2023
A study carried out by a research team from the Helmholtz-Zentrum Dresden-Rossendorf (HZDR), the Catalan Institute of Nanoscience and Nanotechnology (ICN2), University of Exeter Centre for Graphene Science, and TU Eindhoven demonstrates that graph...
Jun 15, 2023
A study demonstrates that graphene-based materials can be used to efficiently convert high-frequency signals into visible light, and that this mechanism is ultrafast and tunable. These outcomes open the path to exciting applications in near-future...
Jun 15, 2023
