Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
The Multiscale Materials Modelling Group at Maynooth University invites applications for three fully funded PhD positions focused on the design of advanced polymer-hybrid anion-exchange membranes using multiscale
-
, multiscale, high-fidelity simulations that emulate in real-time the state of a corresponding physical twin based on historical and real-time sensor data. The comparison of physical and virtual data throughout
-
? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description The research aims to advance multiscale modelling of photo-electro-catalytic (PEC
-
Website https://aunicalogin.polimi.it/aunicalogin/getservizio.xml?id_servizio=1079 Requirements Additional Information Eligibility criteria quality, originality, and innovation of the research proposal
-
resources (super-resolution microscopy, nanosensors, microfluidics, etc.), combined with systematic multimodal and multiscale exploration supported by AI-driven analysis. These innovative methodologies
-
. Academic Disciplines: Materials: Smart Materials,Atomic-level Manufacturing,Multiscale Representations,Energy Materials and Devices Physics:Condensed Matter Physics, Computational Physics, Photonics Science
-
function are causally linked to neurodegeneration and age-related pathology. We use integrative multiscale approaches to define the mechanistic interplay between autophagy and metabolism and determine how
-
mapping and structural data acquisition in field. - Geological 3D modelling. - Multiscale geological data analysis Experience working in crystalline basement terranes is considered a strong merit
-
. - Multiscale geological data analysis Experience working in crystalline basement terranes is considered a strong merit. Experience in geochronology is a merit. Experience from geological fieldwork in northern
-
of Rome Tor Vergata. Deadline for EOI applications: 21 February 2026. The PhD project will focus on the development of fully atomistic multiscale theoretical and computational approaches to describe light