Sort by
Refine Your Search
-
Country
-
Employer
-
Field
-
formation within directionally solidified single crystal (SX) castings, and their role in the reduction in mechanical performance, through novel experimental methods, computational materials engineering
-
formation within directionally solidified single crystal (SX) castings, and their role in the reduction in mechanical performance, through novel experimental methods, computational materials engineering
-
formation within directionally solidified single crystal (SX) castings, and their role in the reduction in mechanical performance, through novel experimental methods, computational materials engineering
-
Single-crystal 2D Material Growth by Geometric Confinement.” Nature, 614, 88–94. [6] Groven B., et al. (2017). “Plasma-Enhanced Atomic Layer Deposition of Two-Dimensional WS2 from WF6 , H2 Plasma, and H2
-
formation within directionally solidified single crystal (SX) castings, and their role in the reduction in mechanical performance, through novel experimental methods, computational materials engineering
-
formation within directionally solidified single crystal (SX) castings, and their role in the reduction in mechanical performance, through novel experimental methods, computational materials engineering
-
formation within directionally solidified single crystal (SX) castings, and their role in the reduction in mechanical performance, through novel experimental methods, computational materials engineering
-
formation within directionally solidified single crystal (SX) castings, and their role in the reduction in mechanical performance, through novel experimental methods, computational materials engineering
-
) and atomically thin complementary FETs (CFETs). (Fig1.) What you will do In this PhD research project, you will explore the nucleation and growth behavior of TMDCs with monolayer thickness control by
-
experience in at least two of the following areas : inorganic synthesis, crystal-growth techniques, X-ray diffraction techniques, crystallography, characterization of bulk magnetic properties (AC