Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
on “Improving the thermo-optical properties of Ge single crystals for Infrared applications” The demand for infrared (IR) optical technologies is rapidly increasing across various sectors. At present, Germanium
-
, ferroelectric single crystals, are free from ferroelastic domains and therefore most suitable to analyze the structural response under external electric field. This project aims for a detailed understanding of
-
7 Feb 2026 Job Information Organisation/Company Politecnico di Milano Department Physics Research Field Physics » Crystal growth Engineering » Electronic engineering Engineering » Materials
-
spec, single crystal XRD, GPC, UV-vis, etc.) is essential. The preferred candidate should also have a deep understanding of the organic reactivities and mechanism. Department Contact for Questions
-
spec, single crystal XRD, GPC, UV-vis, etc.) is essential. The preferred candidate should also have a deep understanding of the organic reactivities and mechanism. Department Contact for Questions
-
bulk crystals, through thin layers and membranes, down to single molecular layers and their heterostructures? The aim of this project is to address this challenge by investigating the nanomechanical
-
guest exchange (J. Am. Chem. Soc. 2025, 147, 17201 https://doi.org/10.1021/jacs.5c02868 ). It is the aim of this project to use this novel methodology to investigate a range of single crystal-to-single
-
Experimental physics Quantum materials’ synthesis, particularly with expertise in single crystal growth Exceptional candidates outside the priority areas are also encouraged to apply. Duties Successful
-
eXtended above 3 µm). This project aims to explore Dy³⁺-doped single crystals and transparent ceramics, which present a very strong potential for the generation of ultrashort-pulse lasers in the mid-infrared
-
biology through single-crystal neutron diffraction techniques. This position focuses on visualizing critical hydrogen atoms in carbohydrate-binding proteins and their complexes using neutron diffraction