ETH 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 ETH Zurich, Switzerland.
Eligible candidate may Apply as soon as possible.
(01) PhD Degree – Fully Funded
PhD position summary/title: Doctoral Position in Food Waste Supply Chains
You will work on the project “FLOWERS-Facilitating Local Organic Waste Exchange for Regenerative Systems”.
In rapidly urbanizing areas of Uganda and Malawi, organic waste from restaurants, food vendors and university canteens is often mismanaged (e.g., openly dumped or burnt), resulting in nutrient loss, environmental pollution, and missed opportunities for sustainable food systems. Meanwhile, smallholder farmers face declining soil fertility, low crop yields, and limited access to affordable soil amendments or livestock feed, increasing their vulnerability to climate stress and threatening food security. As the restaurant sector continues to grow, its higher waste volumes and easier supply chain potential compared to households make it a strategic intervention point. In Kampala, Uganda, informal waste supply chains already connect restaurants with traders and farms, demonstrating a resilient and efficient system. However, these flows remain understudied and undocumented. To strengthen this value chain, we must not only analyse how and why existing systems work but also map the waste flows of restaurants that do not participate. Understanding their motivations and operational barriers will help identify ways to expand the network and strengthen the value chain. By building on what works and tapping into unused potential, the project aims to co-design scalable, locally appropriate solutions. This approach will also be adapted to Malawi, where organic waste supply chains are less developed, allowing the project to generate comparative evidence on barriers and enablers across systems. The disconnect between nutrient-rich urban organic waste and nutrient-poor rural soils represents a critical and solvable food and nutrition challenge. The FLOWERS project directly targets this gap by mapping and analyzing waste flows, identifying supply chain intervention to increase trade and reuse of organic waste, and piloting scalable waste treatment solutions like composting, Black Soldier Fly (BSF) farming, or anaerobic digestion (AD). It will also generate insights into the scalability and replicability for other rapidly urbanizing areas.
Deadline : February 27, 2026
(02) PhD Degree – Fully Funded
PhD position summary/title: PhD Position in Computational Materials Discovery for Extreme Environments
- Develop and apply physics-based and data-driven methods to tackle fundamental challenges in materials design
- Projects span defect thermodynamics and kinetics, coarse-graining across time and length scales, machine learning from small and multi-fidelity datasets, and autonomous discovery workflows.
- You will collaborate with experimentalists at ETH Zurich and beyond, and play an active role in shaping a new research lab
Deadline : Open until filled
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(03) PhD Degree – Fully Funded
PhD position summary/title: Doctorate in Glaciology in Modelling firn changes at the glacier scale
deFIRN investigates how firn processes are transitioning in response to climate change, and to quantify how these changes accelerate glacier mass loss in the Swiss Alps and in Central Asia. By developing new, process-based parameterizations for firn and surfacealbedo, the project aims to improve the accuracy of regional-scale glacier models and better predict future water availability in a warming climate.
This 4-year PhD position is part of the deFIRN project, funded by the Swiss National Science Foundation. The project is a collaboration between the ETH Zurich (Evan Miles), University of Fribourg (Martina Barandun and Horst Machguth) and the WSL Institute for Snow and Avalanche Research SLF (Ruzica Dadic). The core team consists of the 4 Principle Investigators, 4 doctoral students, and 4 Postdocs and aims to quantify the impact of disappearing firn on mountain glaciers. The project also features a broad network of partners in Europe and Central Asia.
Deadline : Open until filled
(04) PhD Degree – Fully Funded
PhD position summary/title: PhD position in mechanochemical hydrogen production in natural silica-rich rocks
We are excited to announce an interdisciplinary PhD opportunity focused on mechanochemical processes driving radical formation and redox cycling in the deep subsurface, with implications for geochemistry, geophysics, biogeochemistry, planetary habitability, and sustainable energy resources. The successful candidate will join a dynamic research team investigating how crustal faulting, tectonics, and mineral fracturing generate reactive unpaired electron radical centers in silica-rich rocks. These silica radicals may react with water to form natural hydrogen, reactive oxygen species, unique silica surface moieties, and other products. These processes may fuel microbial metabolisms and shape subsurface ecosystems. The project may explore the formation, accumulation, migration, and potential exploitation of natural hydrogen as a clean energy source. This research addresses fundamental questions about mechanochemical reactions in natural materials and energy flow in Earth’s deep environments and its relevance to extraterrestrial environments and future energy strategies. For more information on this project, see: https://copl.ethz.ch/research/research-projects/2025-saar.html
Deadline : Open until filled
(05) PhD Degree – Fully Funded
PhD position summary/title: PhD position – Electrochemistry for Environmental Applications
The student will be involved in tasks such as:
- Designing innovative electrode materials with precisely engineered nanostructures;
- Fabricating the electrode materials using micro-nanofabrication technologies;
- Investigating the electrochemical mechanisms for sensing and catalytic applications;
- Developing applications in pollution mitigation and resource recovery.
Additionally, our group performs research on nanomaterial engineering, micro-optics and microfluidics, which provides a wide range of opportunities for the PhD candidate.
Deadline : Open until filled
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(06) PhD Degree – Fully Funded
PhD position summary/title: PhD position: Modeling friction in colloidal suspensions
- You will conduct a computational and theoretical investigation of the influence of inter-particle friction on the rheology of concentrated suspensions
- The work will focus on applying physics-based models that connect behavior across scales, from the geometry of single colloidal particles to the macroscopic response of the suspension
- Your responsibilities include implementing coarse-grained molecular dynamics simulations and performing rigorous verification and validation using datasets provided by our collaborators
- The candidate will work in close collaboration with experimental researchers within the project, providing modeling insights and helping to interpret experimental observations
- The position provides a stimulating environment for scientific growth and collaboration
Deadline : Open until filled
(07) PhD Degree – Fully Funded
PhD position summary/title: Doctoral student in isotope-enabled evapotranspiration partitioning
The position is part of the project Isotope-enabled flux partitioning of evapotranspiration (ET) in five Swiss forest and grassland ecosystems (IsoFlux) supported by an ETH Research Grant. IsoFlux investigates ecosystem water and energy fluxes as well as ecosystem resilience against climate extremes. Using continuous, high-frequency water vapor isotope measurements (δ²H, δ¹⁸O) in combination with eddy-covariance ET fluxes, we will develop more robust, less assumption-dependent methods to partition ET into evaporation (E) and transpiration (T). Across five Swiss FluxNet sites spanning an elevational gradient, IsoFlux will (1) deploy a mobile in-situ isotope observation system, (2) quantify the water sources sustaining E and T using isotopes in precipitation, litter, and soil, and (3) compare isotope- and flux-based ET partitioning and identify drivers of ET, E, and T across seasons and years using machine learning approaches. Both groups will provide scientific and technical support for the project.
Deadline : 1 February 2026
(08) PhD Degree – Fully Funded
PhD position summary/title: PhD Position in AI and Strategy
The Chair of Strategic Management and Innovation provides an inspiring, team-based research environment with a dynamic and international group of researchers. Our team has a strong track record of publishing in leading journals such as Academy of Management Journal, Management Science, Organization Science, Strategic Management Journal, and Harvard Business Review.
You are expected to produce a dissertation project typically consisting of at least three high-quality papers intended for top-tier journals. The position offers close supervision and collaboration with leading faculty and senior researchers, as well as access to ETH Zurich’s excellent research infrastructure and strong international network of collaborators.
Deadline : Open until filled
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(09) PhD Degree – Fully Funded
PhD position summary/title: PhD Position: Computational Design and Digital Fabrication of high-performance timber plate structures
This PhD position is part of the interdisciplinary based at the Chair Gramazio Kohler Research research project “Connecting physical engineering and digital design: Enabling high-performance timber plate structures through simplified connections and planning processes”. The project is a collaboration between Gramazio Kohler Research (Chair for Architecture and Digital Fabrication) at ETH Zurich and the Chair for Timber Structures (Prof. Dr. Andrea Frangi).
Deadline : Open until filled
(10) PhD Degree – Fully Funded
PhD position summary/title: PhD Position: Molecular Thermodynamics Modeling for the Energy Transition
A sustainable supply of our energy and materials demands must be built on novel processes that feature renewable feedstocks, green energy supply, and improved energy efficiency. An efficient design of novel processes needs to account for the interactions of molecules and materials with the process performance that occur at interfaces: e.g., adsorbent materials, heat exchanger surfaces, or membranes.
The ProMote project establishes an integrated material and process design workflow that – for the first time – incorporates rigorous molecular models for interfacial phenomena directly into the evaluation and design of processes. To bridge the gap between the continuum world of process design and the stochastic nature of molecules, the ProMote project proposes the application of classical density functional theory – a molecular-scale continuum description of inhomogeneous systems – in process design and, therefore, to fuse the scales from molecules to processes.
To overcome the computational challenge of applying molecular models at process scales, the project combines efficient mathematical concepts like automatic differentiation with backpropagation – the same concept that powers machine learning and artificial intelligence everywhere – with rigorous physical models that are robust and interpretable due to their physical constraints. In the ProMote project, the integrated design workflow will be demonstrated for three emerging technologies: carbon capture, high-temperature heat pumps, and membrane separations.
Deadline : January 31st, 2026
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(11) PhD Degree – Fully Funded
PhD position summary/title: Doctoral Position in Earth Observation and Remote Sensing
- The research focuses on the retrieval of snow and ice parameters and their dynamics using multimodal Synthetic Aperture Radar (SAR) observations
- The aim is to explore two scientific topics within the cryosphere domain
- The first topic involves analyzing SAR interferometry to generate time series of digital elevation models, which will facilitate the quantification of changes in glaciers and ice sheets on a large scale for assessing and estimating mass balance
- The second topic centres on the characterization and identification of glacier crevasses and their dynamics over time through high-resolution SAR data
- For the first topic, the methodology is already well established; however, there is potential to extend the analysis to new regions and timeframes to investigate dynamic changes
- In contrast, the use of SAR for identifying and characterizing crevasses has seen limited research, necessitating the development of new methods
- The approach will involve utilizing high-resolution data (e.g., airborne acquisitions) and exploring various imaging modes, including polarimetry, interferometry, and tomography
Numerous snow and glacier test sites are available worldwide for these topics, providing valuable ground validation measurements and serving as reference data for satellite observations. All research topics will be assessed in relation to upcoming mission proposals and existing missions, with collaboration from a multidisciplinary and international team.
Deadline : Open until filled
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(12) PhD Degree – Fully Funded
PhD position summary/title: Doctoral Fellowship in Landscape and Urban Studies
The LUS Institute investigates landscapes, territories, and settlements—and the human and more-than-human relations that shape them—across scales and geographies, from Switzerland and Europe to diverse contexts throughout the so-called Global North and Global South.
Its research examines the spatial, environmental, political, (geo)historical, and more-than-human relations through which contemporary environments are produced, contested, and continually reshaped. The Institute engages with a broad set of interconnected themes that explore how these environments evolve. Core areas of inquiry include territorial and urban transformation; post-industrial and resource-affected territories; and the global–local entanglements that drive ongoing urbanisation processes. These interests are complemented by research into more-than-human and multispecies spatialities, foregrounding ecological interdependencies within changing landscapes.
Research projects address topics such as designed ecologies, energy transitions, housing, agroecology, hydrology, biodiversity and ecosystem processes, regenerative systems, and adaptive territorial infrastructures. Additional areas of focus include more-than-human landscapes, Indigenous territorialities, and socio-ecological and socio-economic transitions, and climate adaptation—together offering a comprehensive lens on the challenges and potentials of present and future development of landscapes, territories, and settlements.
Deadline : 2 March 2026,
(13) PhD Degree – Fully Funded
PhD position summary/title: Doctoral position in isotope geochemistry for marine authigenic clay formation and the silicon cycle
Your research will be situated at the interface between isotope geochemistry and the characterisation of small-scale authigenic minerals using advanced imaging techniques. You will work on a diversity of samples ranging from experimentally precipitated phyllosilicates to natural marine sediment. Your tasks will centre around:
- using isotope geochemical methods to process synthesised and natural samples for analysis of Si stable isotope composition by MC-ICP-MS
- characterising the nature and structure of experimental and naturally-occurring authigenic clay minerals using advanced microscopic analyses (FTIR, SEM-EDX, TEM-SAED)
- analysing the chemical composition of reactive silica pools in natural marine sediment by ICP-MS, and using statistical techniques to infer their nature
- interpreting your results in the context of the broader literature, and understanding their implications for the global silicon cycle
- presenting your results at international conferences and in peer-reviewed journals
While most samples have already been sourced, there are opportunities to participate in oceanographic sampling campaigns with project partners.
Deadline : Open until filled
(14) PhD Degree – Fully Funded
PhD position summary/title: PhD position focused on Electrocatalysis
You will join a collaborative, inclusive, and intellectually stimulating environment that values scientific creativity and curiosity. This is a full-time position, tentatively starting on February 1st 2026, or later.
Deadline : Open until filled
(15) PhD Degree – Fully Funded
PhD position summary/title: PhD Position in Foundation Models for Medical Reasoning
Develop novel methods that advance the reasoning capabilities of medical foundation models (LLMs, MLLMs, and multi-agent systems).
Design multimodal retrieval-augmentation strategies integrating EHRs, clinical guidelines, imaging databases, and other structured knowledge sources.
Implement flexible memory and retrieval systems to support reasoning-chain generation and sequential decision-making in clinical tasks.
Develop approaches to reduce hallucinations and improve reliability and robustness of medical AI systems, including adversarial robustness (in collaboration with SHS).
Post-train and test-time scale multimodal foundation models at multiple scales.
Co-develop a new benchmark for multimodal clinical reasoning and explainable sequential decision-making.
Publish research results in top-tier ML venues (e.g., NeurIPS, ICML, ICLR) and top-tier biomedical journals (e.g., Nature Medicine, Nature Biomedical Engineering).
Participate in collaborations across the MLCARE consortium (including funded secondments to a Max Planck Institute and Siemens).
Engage in dissemination, open-source contributions, and knowledge-transfer activities.
Deadline : Open until filled
(16) PhD Degree – Fully Funded
PhD position summary/title: PhD position to study epigenomic diversity and altitude adaptation in Arabis alpina
High altitudes are generally associated with reduced atmospheric pressure, reduced temperature, increased radiation and extended periods of snow coverage. How do plants growing at these altitudes adapt to such environmental conditions?
Epigenome features such as DNA methylation and chromatin modifications can strongly influence gene expression in the absence of genetic changes, giving sessile plants the flexibility to cope with changing environments. Studying epigenomic landscapes across and within plant species can therefore tell us how plants fine-tune gene regulation and adapt to their local habitats.
The Epigenome Diversity lab will study the alpine plant Arabis alpina which grows in diverse ecological niches and altitudes (from 500 metres up to 2900 metres above sea level). Incidentally, this plant species is also abundantly found in the Swiss Alps. The lab’s research will focus on :
- Characterizing genomic, epigenomic and transcriptomic variation in natural populations of Arabis alpina from varying altitudes
- Investigating whether epigenome features are associated with local environments
- Investigating whether epigenome features can be stable across various growth environments and across generations
Deadline : Open until filled
(17) PhD Degree – Fully Funded
PhD position summary/title: PhD Position in Visual Computing and (Self-)calibration for XR devices
- You will be entrusted with designing, developing, and evaluating methods, algorithms, and systems for a novel online calibration framework that leverages deep learning to intelligently fuse data from multiple sensors (IMU, cameras, eye-trackers)
- By training models on a high-fidelity digital twin and exploring neural methods that can infer key attributes including camera parameters from in-the-wild sensor data, you will create a system that continuously and invisibly adapts to physical perturbations and changing user context, eliminating the need for manual setup and enabling a truly seamless, intuitive, and intelligent XR experience
- You will be responsible for the typical scientific research workflow: motivating the problem, identifying the main methodological shortcomings in the literature, designing and developing novel systems, planning and executing experiments, and reporting findings in articles to be published at top venues
- Periodic meetings and feedback will ensure the success of your degree and of the project overall
- The position is available from February 2026, with some flexibility
Deadline : Open until filled
(18) PhD Degree – Fully Funded
PhD position summary/title: PhD position in Smart Sensors & Energy Efficient Machine Learning
In this role, you will benefit from advanced training in various European universities and industry, participate in scientific discussions within the rich context of the Marie Skłodowska-Curie Action Doctoral Network (MSCA DN) DIAMOND.
Doctoral candidate position A-DC2 will be hosted and matriculated at ETH Zurich, with planned secondments at STMicroelectronics (Itay) and the University College Dublin. The doctoral candidate will work on designing novel Smart Sensors & Energy Efficient Machine Learning on Microcontrollers.
The objectives of this thesis include:
- Design and prototype modular, low-cost sensor nodes integrating vibration, strain, and environmental sensors with MCU-class edge AI capabilities. Optimize sensing front-ends, power management, and communication interfaces for minimal standby and inference energy.
- On-chip AI and signal preprocessing: Implement on-node feature extraction (FFT, modal parameters, transmissibility metrics) and deploy quantized TinyML models co-developed with ADC1. Enable adaptive sensing and duty-cycling strategies responsive to structural dynamics.
- Energy harvesting and lifetime optimization. Integrate multi-source energy harvesting (vibration, solar, RF, etc.) and dynamic power management policies to achieve energy neutrality and autonomous operation in long-term deployments.
- Edge–cloud integration and field deployment. Deploy and validate sensor networks on representative assets (bridge testbeds, turbine rigs), interfacing seamlessly with ADC1’s graph analytics and hybrid digital twins. Quantify energy, latency, and data-rate improvements against cloud-based baselines.
Deadline : Open until filled
(19) PhD Degree – Fully Funded
PhD position summary/title: PhD Position in Meta-Structures with Autonomous Sensing Capacities
ESR15 will primarily focus on the development of metamaterials-based structures and devices that through vibration energy harvesting can exploit structural vibration to power sensors and data communication to the base. This objective will be addressed by:
- Elaborating on the vibration harvesting technology, depending on the vibration frequency and amplitude. This is highly application dependent, for instance wind turbine generate large amplitude long period vibration.
- Designing of a metamaterial that shall guide and amplify the vibrations where the harvesting device is located to increase the exploitable vibrational energy. The harvester for instance can be mounted on a device that exploits rainbow focusing properties. Several basic mechanical designs can obtain this, beams, frames and plates.
- Adapt to changing vibration conditions to maximize harvesting and sensing by autonomously change its position or its mechanical property through embedded actuation systems.
This doctoral student position is offered for 36 months with the earliest starting date as agreed upon recruitment. Primary advisor is Prof. Eleni Chatzi (ETH Zurich, DBAUG), co-advisors are Dr. Andrea Colombi (Zurich University of Applied Sciences, ZHAW) and Dr. Vasileios Ntertimanis (ETH Zurich).
Deadline : Open until filled
(20) PhD Degree – Fully Funded
PhD position summary/title: PhD position in Development of a microfluidic platform for diagnosis of sepsis
The project RadiantDx is a multidisciplinary, collaborative project that addresses the diagnosis of sepsis. Sepsis is a severe health condition, where patients typically suffer from unspecific symptoms like high fever. To support doctors in the decision how to treat the patient, we will develop a miniaturized system for rapid diagnosis of sepsis, which prevents unnecessary administration of antibiotic compounds and leads to improved survival and recovery of the patients. Together with researchers from the Institute of Medical Microbiology at the University of Zurich, the Department of Informatics at ETHZ and several further partners, we address the challenge by the combining microfluidic technology, sequencing and fast data analysis.
In the Bioanalytics Group, a PhD student and a postdoctoral fellow will work together on different aspects of the microfluidic platform and sample preparation.
Deadline : Open until filled
(21) PhD Degree – Fully Funded
PhD position summary/title: PhD in Active Meta-Structures for Enhanced Damage Detection and Localization on Wind Turbine Blades
ESR16 will elaborate on the damage detection and localization problem of wind turbine (WT) blades. WT blades are amenable to quite complex mechanical and environmental loading over their life cycle. Among other failure mechanisms (such as operational errors and manufacturing defects) surface damage and structural cracks are common. While they, in general, do not reduce the operating functionality of the blade, damaged/cracked surfaces certainly reduce the aerodynamic performance and, upon growing, may lead to structural damage. Therefore, early detection and localization is essential.
In this regard, the main objectives are:
- To classify the topology of damage on blades, by studying the extensive relevant literature. Indeed, often-observed damage mechanisms of blades include the root and the transition regions, as well as the leading and trailing edges.
- To design a class of surface-bonded metamaterials acting as meta-filters for guided waves.
- To perform numerical and experimental (both on a laboratory scale and on real blades) verification and validation.
Deadline : Open until filled
(22) PhD Degree – Fully Funded
PhD position summary/title: PhD Position in Reflection Seismology for Carbon Capture and Sequestration
Switzerland has committed to achieving net-zero greenhouse gas emissions by 2050. CCS technologies are a key component of this strategy, especially in sectors with hard-to-abate emissions, such as waste incineration, cement, and agriculture. CO₂ storage in the Swiss subsurface is considered an important option in the national roadmap, but its feasibility at a relevant scale remains to be demonstrated.
Leveraging the existence of a borehole in Northern Switzerland, an interdisciplinary initiative has been launched to design and execute a pilot CO₂ injection into a saline aquifer to test its behaviour and migration. This PhD project forms part of this study that aims to assess the feasibility, safety, and societal acceptance of CO₂ injection into Switzerland’s subsurface. Time-lapse seismic-reflection imaging is the primary tool to image the CO₂ plume and its migration through the subsurface. Therefore, a high-resolution, high-density 3D seismic survey was acquired in summer 2025 as a baseline for future monitoring.
Deadline : Open until filled
(23) PhD Degree – Fully Funded
PhD position summary/title: PhD Student Position in Public Economics
The PhD position is funded by the Swiss National Science Foundation (SNF), through the project “The Economics of Inheritance and Inter-Vivos Gifts”. The project is led by Dr. Isabel Z. Martínez at ETH and Prof. Marius Brülhart at University of Lausanne. Aurélien Eyquem (HEC Lausanne) and Enrico Rubolino (HEC Lausanne and CREST Paris) are further involved in the project as associated researchers.
The project will address questions regarding inheritance flows, inter-vivos gifts, bequest motives and taxation. You will be involved in all stages of research, from cleaning data to carrying out data analyses, visualizing results and drafting a final research paper.
The position will be based at KOF Institute at ETH Zurich. During the PhD, you will be well-integrated into the institutional activities and participate in regular team meetings. You will work closely with the project leaders and other team members. The goal is to produce high-quality research leading to academic publications. The position is intended for a duration of 4 years.
Deadline : Open until filled
(24) PhD Degree – Fully Funded
PhD position summary/title: PhD position in Environmental Chemistry of Biodegradable Polymers
The PhD project aims at advancing our understanding of the biodegradability of water-soluble polymers. These polymers are broadly used in cosmetics, home care, and agricultural formulations and have diverse input pathways into engineered systems (i.e., wastewater) and natural terrestrial and aquatic environments (soils, rivers, lakes). The project will study enzymatic and abiotic breakdown of these polymers, the uptake of breakdown products into microbial cells, and their intracellular metabolic conversion to carbon dioxide and biomass. To elucidate these steps, the research will account for both polymer chemistry and the characteristics of the receiving environments (e.g., soil, aquatic systems, and sludge). The project is part of a larger academic–industry collaboration and will be conducted with academic partners at both ETH and the Swiss Federal Institute of Aquatic Science and Technology (Eawag).
Deadline : Open until filled
About ETH Zurich, Switzerland- Official Website
ETH Zürich is a public research university in the city of Zürich, Switzerland. Founded by the Swiss Federal Government in 1854 with the stated mission to educate engineers and scientists, the school focuses exclusively on science, technology, engineering and mathematics. Like its sister institution EPFL, it is part of the Swiss Federal Institutes of Technology Domain, part of the Swiss Federal Department of Economic Affairs, Education and Research.
In the 2021 edition of QS World University Rankings, ETH Zurich was ranked 6th in the world, placing it as the second-best European university after the University of Oxford. In the 2020 QS World University Rankings by subject, it ranked 4th in the world for engineering and technology (2nd in Europe) and 1st for earth & marine science. Also, ETH was rated 8th in the world in the Times Higher Education World University Rankings of 2020.
The university is an attractive destination for international students thanks to low tuition fees of 809 CHF per semester, PhD and graduate salaries that are amongst the world’s highest, and a world-class reputation in academia and industry. There are currently 22,200 students from over 120 countries, of which 4,180 are pursuing doctoral degrees.
As of November 2019, 21 Nobel laureates, 2 Fields Medalists, 2 Pritzker Prize winners, and 1 Turing Award winner have been affiliated with the Institute, including Albert Einstein. Other notable alumni include John von Neumann and Santiago Calatrava. It is a founding member of the IDEA League and the International Alliance of Research Universities (IARU) and a member of the CESAER network.
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