Germanium may not be a household name like silicon, its group-mate on the periodic table, but it has great potential for use in next-generation electronics and energy technology. Of particular ...

The study of germanium clusters and their associated nanostructures has emerged as a vital area of research in the development of next‐generation semiconductor devices. Germanium clusters, with their ...

Our current chip technology is largely based on silicon -- even though different materials such as silicon-germanium would have decisive advantages. The problem is that it is very hard to create clean ...

Glass fibres with silicon cores have emerged as a versatile platform for all-optical processing, sensing and microscale optoelectronic devices. Using SiGe in the core extends the accessible wavelength ...

(Nanowerk News) Semiconducting 2D alloys could be key to overcoming the technical limitations of modern electronics. Although 2D Si–Ge alloys would have interesting properties for this purpose, they ...

Wind, L., Sistani, M., Böckle, R., Smoliner, J., Vukŭsić, L., Aberl, J., Brehm, M., Schweizer, P., Maeder, X., Michler, J., Fournel, F., Hartmann, J.-M., Weber, W ...

Washington, DC--Germanium may not be a household name like silicon, its group-mate on the periodic table, but it has great potential for use in next-generation electronics and energy technology. Of ...

TU Wien (Vienna) has succeeded in making a new type of material usable for chip technology. This enables faster, more efficient computers and new types of quantum devices. Current chip technology is ...

(Nanowerk News) Our current chip technology is largely based on silicon. Only in very special components a small amount of germanium is added. But there are good reasons to use higher germanium ...