Sort by
Refine Your Search
-
Category
-
Program
-
Employer
-
Field
-
Apply now The Faculty of Science and The Leiden Institute of Physics (LION) is looking for a: PhD candidate: HiTaL: High Throughput Anisotropic Lithography Leiden Institute of Physics, in
-
Amsterdam, in close collaboration with ASML Veldhoven. The successful candidate will investigate Knowledge Representation and Engineering challenges as part of a close collaboration with ASML on the usage
-
position within a Research Infrastructure? No Offer Description The Faculty of Science and The Leiden Institute of Physics (LION) is looking for a: PhD candidate: HiTaL: High Throughput Anisotropic
-
with a team of PhD students and a large industrial partner Qualifications You need to meet the requirements for a doctors-degree and must have research experience in a non-Dutch academic environment. You
-
microscopy. You will perform this project together with a team of PhD students and postdocs in the Metrology department at ARCNL. You will be embedded into the Nanoscale Imaging and Metrology group and
-
degree in physics, chemistry, or materials science or equivalent, to satisfy the Dutch university requirement to enter a PhD program. Previous experience with lasers is not required but it would be a plus
-
the neighboring Advanced Research Center for Nanolithography (ARCNL) and the companies ASML and Delmic. Qualifications You have a master’s degree in physics, chemistry, materials science, or a related field. You
-
surfaces in plasma is unknown, limiting the impact of plasma catalysis by inhibiting the design of dedicated plasma catalysts. This PhD position links surface science and plasma catalysis, aiming
-
Research Infrastructure? No Offer Description Work Activities This fully funded PhD position lies at the interface between fundamental physics and industrial application. It is part of a fully funded
-
getting more and more complex. In this PhD project, you will investigate and design 2D materials with applications in energy storage, semiconductors, and nanolithography. Until now, most research studies