09.03.2023 "Nanoscale 'diamond rings' provide unconventional giant 'magnetoresistance' for the development of new quantum devices" by Ramiz
Zulkharnay Media: PhysOrg
"Studies of superconductivity in various materials have established that in order for a material to become superconducting, it first needs to pass through a metallic state. A longstanding question is whether the formation of Cooper pairs in an established metal will inevitably transform the host material into a superconductor. An international team of scientists led by researchers from Denmark, the U.K., China, Japan and Belgium has recently addressed this question by investigating...”
30.09.2020 "Delocalized states within the superconducting gap" by Johanna Jochum Media: ScienceX
"Yu-Shiba-Rusinov bands can be found within the energy gap of the superconducting density of states of boron doped diamond films. Prof. Gufei Zhang...”
21.08.2020 "Researchers discover superconductor with unexpected lattice configuration" by Nanan Zhang Media: PhysOrg
"The team is led by Prof. Yang Zhaorong from the High Magnetic Field Laboratory, Hefei Institutes of Physical Science and Prof. Zhang Gufei from University of Southern Denmark…”
31.05.2020 "Kvanteforskere studerer snedig sammenkobling af superledning og ferromagnetisme" by Jens Ramskov Media: Ingeniøren
"I en ny artikel i Science Advances har Gufei Zhang sammen med en lang række andre forskere set nærmere på YSR-båndene i dette materiale – og meget kort fortalt har han nu opnået YSR-bånd med en rækkevidde på tocifrede nanometer…”
"Gufei Zhang fra Mads Clausen Instituttet ved Syddansk Universitet i Sønderborg interesserede sig allerede for superledende ferromagntisek nanodiamanter i 2017, da han var tilknyttet et universitet i Belgien..."
17.01.2020 "Diamanter - elektronikkens nye bedste ven" by Laurids Hovgaard Media: Ingeniøren
"Der er meget videnskabeligt fokus på diamanter som halvleder, fordi diamanter har en række helt unikke egenskaber. Diamanter er hårde, robuste og har rigtig gode halvlederegenskaber. Du kan sende høj spænding ved høje temperaturer i nanoskala, uden at materialet går i stykker, siger Gufei Zhang, adjunkt ved Mads Clausen Instituttet på SDU…”
"Der bliver forsket i syntetiske diamanter til elektronik i USA, Japan, Australien og Europa. Der er dog stadig en del basale fysiske forhold, der skal afklares videnskabeligt, før vi vil se funktionelle mikrochips fremstillet af diamanter i stedet for silicium, siger Gufei Zhang..."
11.06.2017 "Superconducting ferromagnetic nanodiamond films" Media: Nanowerk
"In ACS Nano ('Superconducting Ferromagnetic Nanodiamond'), an international team of researchers has now reported on the investigation of the interplay between ferromagnetism and electrical transport in hydrogenated and heavily boron-doped nanodiamond (HBD) films…”