Are you holding Master’s degree and looking for fully funded PhD positions? Aalto University, Espoo, Finland invites online application for multiple funded PhD Programs / fully funded PhD positions in various research areas.
Candidates interested in fully funded PhD positions can check the details and may apply as soon as possible. Interested and eligible applicants may submit their online application for PhD programs via the University’s Online Application Portal.
1. Fully Funded PhD Position in Digital Waters (DIWA) Doctoral Pilot
Summary of PhD Program:
The doctoral pilot will contribute to all five Flagship research themes related to hydrosphere processes; new observational systems; integrated analysis and modelling; digital services, platforms, and business applications; and transformative water management. The relevant research areas in the pilot cover variety of contexts, including river systems, groundwater processes, agricultural systems, and pristine, rural and urban areas. Similarly important are the interactions and responses in the hydro-, atmo- and cryosphere as well as diverse linkages between water, climate, land, and ecosystems.
Application Deadline: 15.9.2024
2. 02 Fully Funded PhD Position in Photonics
Summary of PhD Program:
You will mainly be working in the Micronova facility. Micronova’s facilities allow flexible processing and integration of micro- and nanoelectronic, micromechanical, photonic and fluidic devices. Substrate materials include silicon, III-V semiconductors, glass and quartz. The main wafer size is 150 mm, but also 200 mm and 100mm are supported for some processes. For some purposes even smaller samples are used. All necessary main process technologies are available, including optical and nanolithography, CMOS and BiCMOS, dry and wet etching, focused ion beam milling, micropackaging, wafer bonding, thin film processing and epitaxial deposition.
Application Deadline: 15.9.2024
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3. Fully Funded PhD Position in Materials Engineering for Efficient Green Ammonia Production
Summary of PhD Program:
Join us in this challenging endeavour of developing the key materials and methods for green transition! Ammonia is one of the most produced compounds in the world (~150 million tons per year), and a vital raw material for various important substances, such as fertilizers. It is also a promising green hydrogen carrier and zero-carbon fuel. Currently, ammonia is produced by energy-hungry Haber-Bosch synthesis using fossil-originated hydrogen. Lithium-mediated nitrogen reduction (LiNR) has demonstrated significant promise in ambient-condition electrochemical ammonia synthesis.
Application Deadline: 15.9.2024
4. Fully Funded PhD Position in Electrically Driven Soft Matter
Summary of PhD Program:
Active Matter research group at the Department of Applied Physics in Aalto University (Finland) is looking for an outstanding Doctoral Researcher (PhD student) to pursue a degree in the field of soft matter physics. The goal of the doctoral researcher is to develop novel approaches to controlling colloidal dispersions using electric fields. The chosen doctoral researcher will utilize various experimental and computational methods and work closely with other members of the research group.
Application Deadline: 15.9.2024
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5. Fully Funded PhD Position in coherent interaction-free measurements using Superconducting Qubits and Circuit QED
Summary of PhD Program:
We have a four-year Doctoral Researcher position funded by the Research Council of Finland. The position is primarily focused on coherent interaction-free measurements for the efficient detection of microwave photons, which can have a wide range of applications in the indirect capturing of the signatures of axions, laying the foundation for a new type of microwave spectrometer, counterfactual quantum computation, and secure quantum communication. This project utilizes superconducting quantum circuits as an experimental platform – presently one of the most promising platforms for future quantum computers and quantum simulators.
Application Deadline: 14.9.2024
6. Fully Funded PhD Position in Field of Experimental Condensed Matter Physics (Low Dimensional Correlated Materials)
Summary of PhD Program:
The goal of the doctoral researcher is to study emergent electronic phenomena in artificial atomic lattice systems in monolayer van der Waals materials. Prototypical examples of these systems include transition metal atoms deposited on the surfaces of monolayer transition metal dichalcogenide superconductors, Mott insulators, ferromagnets etc. The doctoral researcher will utilize molecular beam epitaxy and atomic deposition techniques to synthesize these novel materials and the adatoms and characterize their atomic scale electronic properties using low-temperature scanning tunneling microscopy and spectroscopy.
Application Deadline: 13.9.2024
7. Fully Funded PhD Position in Characterization, aging and modelling of polymeric fire-stop materials
Summary of PhD Program:
Fire-stops are used in many industrial and residential buildings to ensure fire compartmentation within fire-resistant walls and floors with cable or pipe penetrations. Fire-stop materials range from cementitious, cast-in-place materials to functional polymers and modular systems that react and deform when heated. In the context of nuclear power plant fire safety, the aging of fire-stop materials is a concern when the working life of the operating plants is extended with tens of years. Numerical modelling capabilities are needed, when assessing the performance of fire-stops in non-tested applications.
Application Deadline: 6.9.2024
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8. Fully Funded PhD Position in audio and statistical signal processing
Summary of PhD Program:
The research will be in the framework of the project “AESIR – Acoustic Estimation and Interpolation fRamework”, focusing on the modeling of acoustic environments and their effect on audio signals. In particular, the research is concerned with the estimation, sampling, and interpolation of acoustic transfer functions and impulse responses that characterize an acoustic environment. The applications of the research range from noise reduction and speech enhancement in hearing aids to rendering of sound in augmented/virtual reality.
Application Deadline: 31.8.2024
9. Fully Funded PhD Position in wave-ice interaction through laboratory experiments
Summary of PhD Program:
Marginal ice zone (MIZ) is the transition from ice-free ocean to the pack ice, characterized by ice-ocean dynamics and discrete ice floes. In MIZ, waves have an effect on sea ice and sea ice effects the waves. We can assume that with global warming the MIZs of the oceans will grow in size, because the thinner ice of the future will break more easily than the thicker ice of yesterday. If earlier either thick ice or high waves were challenging for ships and offshore windfarms, we now need to consider also the situation where ice and waves occur at the same time. The sea ice landscape has changed: What was marginal, is now important.