Search for public opportunitiesRegister now and browse all open positions. It's free!Profit from a great search interface and directly apply to the position of your choice. SiROP - Excellence in Science! Profit from a great search interface and directly apply to the position of your choice. SiROP - Excellence in Science! Notify me when new projects of my interest are advertized!You define what you are interested in and we will send you an Email when a new project matches your criteria, it's that easy. You define what you are interested in and we will send you an Email when a new project matches your criteria, it's that easy. Results |
|---|
Our goal is to establish a heterocellular 3D printed bone organoid model comprising all major bone cell types (osteoblasts, osteocytes, osteoclasts) to recapitulate bone remodeling units in an in vitro system. The organoids will be produced with the human cells, as they could represent human pathophysiology better than animal models, and eventually could replace them. These in vitro models could be used in the advancement of next-generation personalised treatment strategies. Our tools are different kinds of 3D bioprinting platforms, bio-ink formulations, hydrogels, mol-bioassays, and time-lapsed image processing of micro-CT scans. - Biomaterials, Biomechanical Engineering, Cell Development (incl. Cell Division and Apoptosis), Cellular Interactions (incl. Adhesion, Matrix, Cell Wall), Polymers
- Bachelor Thesis, ETH Zurich (ETHZ), Internship, Master Thesis, Semester Project
| Design and build dexterous human-like robotic hands with us at the Soft Robotics Lab and the ETH spin-off mimic. We will explore different possibilities of developing design features and sub-systems. The developed features shall be integrated into a fully functional robotic hand and applied to solve practical manipulation challenges. - Electrical Engineering, Mechanical Engineering
- Master Thesis, Semester Project
| The Chair of Structural Mechanics and Monitoring at ETH Zurich is seeking a prospective PhD student with expertise in areas such as knowledge engineering, knowledge management, knowledge grounding, or graph databases, and a strong interest in wind energy. - Engineering and Technology
- ETH Zurich (ETHZ), PhD Placement
| The IDEA league combines the strength of five of Europe’s leading technical universities to provide unique opportunities. A fellowship call is now open to provide TU Delft assistant professors with the opportunity to spend 2 to 6 months (in total) in one or preferably more partner universities. - Engineering and Technology
- IDEA League Fellowship (IDL), Internship, Lab Practice
| In over 100 years, the remarkable ability of bone to adapt to its mechanical environment has been a source of scientific fascination. Bone regeneration has been shown to be highly dependent on the mechanical environment at the fracture site. It has been demonstrated that mechanical stimuli can either accelerate or impede regeneration. Despite the fundamental importance of the mechanical environment in influencing bone regeneration, the molecular mechanisms underlying this phenomenon are complex and poorly understood. - Biomedical Engineering, Medical Physiology
- Bachelor Thesis, Internship, Master Thesis, Semester Project
| The aim of this project is to develop a database, app- and web-interface for the X-ray micro-fabrication team at PSI and ETHZ to track realized pieces, fabrication protocols and characterization of the products. - Database Management, Interfaces and Presentation
- Internship, Master Thesis
| Das Praktikum bietet Einblicke in folgende Themen:
• Personalrekrutierung von Doktorierende und Postdoktorierende (inkl. Bewerbungsmanagement)
• Unterstützung von Mitarbeitenden und Führungskräften in HR-operativen Themen
• Employee Lifecycle (ohne Lohnverarbeitung)
• Personaladministration
• HR-Prozesse sowie HR-Projekte - Human Resources Management
- Internship
| Black carbon (BC) is a critical component of atmospheric aerosols, with significant implications for climate change, air quality, and public health. Affordable monitoring of black carbon is essential for advancing research and policy in under-monitored settings. Currently, commercial black carbon monitors are expensive, limiting their accessibility and deployment. Open-source black carbon monitors offer a promising alternative, providing a low-cost and customizable solution. However, existing open-source black carbon monitors typically measure light absorption at only a single wavelength, which restricts their ability to differentiate between BC from various sources.
A previous master’s student conducted an extensive literature review on the components required to develop a low-cost black carbon monitor and conducted a preliminary cost analysis. This proposal seeks to build on that foundational research by developing a low-cost, dual-wavelength black carbon monitor in the laboratory. - Environmental Engineering, Mechanical and Industrial Engineering
- ETH for Development (ETH4D) (ETHZ), Master Thesis
| The increasing integration of distributed renewable energy sources into electric power grids has highlighted the critical need for demand-side energy flexibility to balance intermittent power generation and ensure grid stability. Buildings, as major energy consumers, present a promising source of flexibility by adjusting their energy consumption to support grid requirements while maintaining occupants' thermal comfort. To achieve this, each building must manage its room temperatures to minimize cost while adhering to technical and operational constraints, as well as fulfilling flexibility provisions. Our preliminary studies indicate that reinforcement learning (RL) is a promising control strategy that can effectively meet these objectives \cite{svetozarevic2022data}. However, in practice, aggregators often prefer to provide flexibility targets to groups of buildings rather than to individual units, making direct implementation of RL-based control challenging.
This project aims to develop a mechanism for distributing flexibility provisions from a central system to individual buildings within a designated group. The goal is to allocate flexibility efficiently while maximizing social and economic welfare across all buildings in the category.
- Engineering and Technology
- Master Thesis
| Global Navigation Satellite System (GNSS) is a well-recognized technique for ionosphere monitoring as additional signal contributions, that GNSS signals experience while traversing the ionosphere, are proportional to the total electron content (TEC). Currently, the operational and publicly available GNSS-based global ionosphere maps are exclusively derived from slant TEC (STEC) acquired using geodetic-grade receivers. GNSS observations that are potentially available at large scale from affordable smart devices, such as smartphones, could form an attractive source of information to improve the spatio-temporal resolution of GNSS data sets that are available for the analysis in this subject. Since 2016, Android phone users can access the raw GNSS data within smartphones. In addition, modern smartphones can track nowadays dual-frequency multi-GNSS signals, which makes extraction of carrier-phase-based VTEC possible. The Space Geodesy group at ETH Zurich initialized a crowdsourcing campaign in March 2022 for collecting smartphone observations from interested participants. Up to now, several TBs of smartphone GNSS data has been collected globally, which provides a great opportunity to study the potential of ionosphere modelling using smartphones. - Earth Sciences, Geodesy
- ETH Zurich (ETHZ), Master Thesis
|
|
