Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
mechanisms in porous liquids. Density Functional Theory (DFT) calculations will allow analysis of specific interactions between gas molecules and POSS cages. **Scientific Environment** The PhD will be carried
-
that avoids the use of critical raw materials. However, materials that can be used in the electrodes and electrolyte to meet performance requirements in terms of energy density and stability still need to be
-
computational condensed matter physics. We seek a motivated researcher with expertise in density functional theory (DFT) to study emergent phenomena in quantum materials. Research Areas - Correlated electronic
-
). ------------------------------------------------------------------------------------------------------------------------------------------------------------------------ -----------------------------------------------------------------------------------------------------------------------------...
-
of resolution Setup, programming, and operation of DIW equipment Determination of optimal debinding and sintering steps Characterization of the sintered materials: density, microstructure, defects, shrinkage
-
samples and inspect them during print runs. Start press and check proofs for color alignment, registration, density, and coverage. Adjust equipment to ensure quality and color match to digital proofs
-
on computational and theoretical condensed matter physics. Areas of research include diagrammatic calculations, quantum Monte Carlo methods, density matrix renormalization group and tensor network states, and
-
dynamically developed material in semiconductor industry marked by a Nobel Prize for invention of blue/white LEDs. III-N materials are currently attracting a lot of interest also for applications in power, high
-
atomicjobs-mb@ruhr-uni-bochum.de Requirements Research FieldEngineeringEducation LevelMaster Degree or equivalent Skills/Qualifications Your tasks: Developing high-energy-density rechargeable battery
-
optical waveguide structure. The current project focuses on advancing a surface-sensitive, label-free waveguide scattering microscopy (WGSM) platform for nanoparticle characterization in advanced therapies