07 PhD Degree-Fully Funded at EMPA, Zurich, Switzerland
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EMPA, Zurich, Switzerland invites online Application for number of Fully Funded PhD Degree at various Departments. We are providing a list of Fully Funded PhD Programs available at EMPA, Zurich, Switzerland.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: PhD position in the field of Scanning Probe Investigation of Carbon-based Quantum Spin Systems (a)
We are looking for highly motivated and talented candidates with a strong experimental background in Solid State Physics, Surface Science or Physical Chemistry to take up a challenging PhD position in the area of low-dimensional carbon nanomaterials. Required qualifications include a Master’s Degree in Physics or Physical Chemistry. A solid background in Surface Science and previous experience using scanning probe methods or other ultrahigh vacuum surface analysis equipment would be significant benefits. Very good communication skills in English are essential.
PhD position summary/title: PhD Student in “Nanostructured Light-activated Antimicrobial Materials” (a)
In the Particles-Biology Interactions Lab, we are a highly motivated team of biologists and chemists producing nanomaterial-based solutions for diagnostics and therapeutics driven by clinical needs. We are active in:
Provide key contributions to novel personalized strategies of particles design for drug delivery, imaging or diagnosis
Characterize and understand the interaction of particulate materials with cells or tissues
Pioneered investigations on particle bio-functionalization, particles uptake, accumulation, translocation across biological barriers and their bioresponses.
PhD position summary/title: PhD Student in the fields of Biomechanics and Bioinspiration (a)
You will investigate structure-property relationships and the fracture behavior of lamellar bone at the microscale. In collaboration with clinical and academic partners from the MSCA doctoral network, you will assess whether systematic changes in the fracture behavior of bone can be identified as a function of pathology by assessing composition, structure, and properties of patient biopsies. Finally, in this interdisciplinary project at the interface of biomedical engineering, nanofabrication, and materials science, you will design, synthesize, and characterize nanocomposites and architectured metamaterials inspired by the hierarchical structure of bone for tissue engineering applications. You will be enrolled in the doctoral program in Materials Science (EDMX) at École polytechnique fédérale de Lausanne (EPFL) under the supervision of Prof. Johann Michler and Dr. Jakob Schwiedrzik. During the course of the project, you will work in a multidisciplinary team and use state of the art methods such as nanoindentation, Raman spectroscopy, 2 photon lithography, electron microscopy, and numerical simulations. Your research will contribute to understanding the effect of disease on the composition and multiscale fracture properties of bone and their impact on individual fracture risk as well as to developing novel hybrid materials with improved toughness for biomedical applications.
PhD position summary/title: PhD student in the field of plasma-based methane decomposition (a)
Materials science and technology are our passion. With our cutting-edge research, Empa’s around 1,100 employees make essential contributions to the well-being of society for a future worth living. Empa is a research institution of the ETH Domain.
The Automotive Powertrain Technologies Laboratory researches future mobility concepts with low climate and environmental impact. We develop new technical solutions in close contact with science and industry. To strengthen the Automotive Powertrain Technologies Laboratory we are looking for a PhD student for scientific investigations, in-depth understanding and optimization in the field of hydrogen production via methane pyrolysis for decarbonization of industrial high-temperature processes with potential for negative carbon emissions.
PhD position summary/title: Doktorand/in im Bereich der plasmabasierten Methanzersetzung (a)
Die Abteilung Fahrzeugantriebssysteme erforscht zukünftige Mobilitätskonzepte mit geringen Klima- und Umweltauswirkungen. In engem Kontakt mit Wissenschaft und Industrie entwickeln wir neue technische Lösungen. Zur Verstärkung der Gruppe H2-Systeme suchen wir eine/einen Doktorandin/Doktoranden für wissenschaftliche Untersuchungen, vertieftes Verständnis und Optimierung auf dem Gebiet der Wasserstofferzeugung mittels Methanpyrolyse für die Dekarbonisierung industrieller Hochtemperaturprozesse mit Potential für negative Kohlenstoffemissionen.
PhD position summary/title: PhD in Edge data centre’s thermal energy management systems considering multi-vector interactions (a)
In the framework of Horizon Europe Heatwise project, we are looking for a motivated and experienced PhD candidate to design and assess edge data centre’s thermal energy management systems considering multi-vector interactions in tertiary buildings. A particular focus lies on the modelling and optimization of edge data centers, multi-energy systems of tertiary buildings, thermal management systems and the characterization and assessment of different cooling technology options. Emphasis will be also placed on the temperature levels that the edge data centers’ cooling system can provide and how these temperature levels can influence the waste heat stream integration into tertiary buildings. Challenges encompass – among others – edge data centres and cooling technologies modelling, multi-energy system design and integration. Historical data in the Empa’s NEST demonstrator and its multi-energy backbone will be utilized to design and test the thermal energy management systems. The candidate shall translate his/her research ideas to tackle these challenges, in close collaboration with our interdisciplinary team and external scientific and industry partners. The candidate will support our master students, publish in scientific journals, and participate in conferences.
PhD position summary/title: PhD position in the field of next level OLEDs (a)
Organic light-emitting diodes (OLEDs) that emit in the visible are a proven technology. In contrast, OLEDs that emit in the near-infrared (NIR) range have remained a fundamental scientific challenge. The reason for this is that the photoluminescence quantum yield of organic dyes decreases exponentially as the emission shifts to longer wavelengths – the so-called energy gap law. In this project, we aim to circumvent the emission limitations of NIR dyes by employing a fine-tuned plasmonic enhancement strategy. The project takes place in a highly interdisciplinary environment and involves partner laboratories dedicated to chemical synthesis and theoretical calculations. The potential impact of high-performing NIR-OLEDs is huge, with untapped next generation applications in through-space optical communications, machine vision or medical imaging.
About Swiss Federal Laboratories for Materials Science and Technology (EMPA), Zurich, Switzerland – Official Website
The Swiss Federal Laboratories for Materials Science and Technology is an interdisciplinary Swiss research institute for applied materials sciences and technology. As part of the Swiss Federal Institutes of Technology Domain, it is an institution of the Swiss federation. For most of the period since its foundation in 1880, it concentrated on classical materials testing. Since the late 1980s it has developed into a modern research and development institute.
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