Search for a funded project
InnovAI: Co-Creating with Artificial Intelligence – InnovAI
This project examines the transformative potential of generative AI technologies in the creativity processes. While research has discussed the potential uses of AI in creative processes, empirical studies are scarce. Our research addresses three questions: (1) How can we work with AI to foster crea
Multifractal and AI Approaches for Coherent and Resilient Energy Networks in Urban Territories – FRACNET-CITY
Urban areas increasingly face the challenge of integrating renewable energy sources while simultaneously managing the demands of high population density, land spare and resilience to extreme climate events. Traditional urban planning methods often lack the capacity to fully address the intricate, mu
Inside Artificial Improvisation – InAI
Artificial Improvisation is the subfield of Artificial Intelligence devoted to designing musical agents capable of participating in collectively improvised musical performances with other agents (humans or artificial). It is well-known that the understanding of artificial agents is plagued by the op
Between Art History and Artificial Intelligence: Identity and Anonymity in Portraiture from 1600 to 1800 – IDANOPO
The IDANOPO project aims to use facial recognition, generated by Artificial Intelligence (AI), on art portraits produced in the 17th and 18th century, in order to identify the people portrayed and place them in their historical context. It brings together researchers in art history and digital image
Homogeneous and heterogeneous catalytic CO2 Reduction Mechanisms wIth Neural networks and Enhanced sampling – HERMINE
This project aims to develop advanced artificial intelligence (AI)-driven molecular simulations to uncover the mechanisms governing carbon dioxide (CO2) reduction, a critical process in the fight against climate change. Converting CO2 into valuable chemical products requires efficient catalysts, yet
Computational-Experimental Synergy for Innovative Optoelectronic Molecule design – CESIOM
This project focuses on developing new methodologies to generate, synthesize and use new red and near infrared-absorbing or emitting molecules for diverse applications, including OLEDs, organic solar cells and for bio-related applications such as photodynamic therapy within the therapeutic window. C
spin-Filtering indUced by chirality in SIngle-moLecule junctIons – FuSili
Molecular electronics, also called molecular-scale electronics, is the discipline that studies nano-electronic devices in which the charge transport occurs across a single molecule or a single layer of molecules, in order to perform simple or complex electronic functions. In recent years, the advent
A deeper insight on water use in plants thanks to portable MRI – DISRUPTOR
Terrestrial ecosystems play a key role in carbon sequestration. To trap carbon, plants need water. To do so, plants absorb water through their roots, which is then transported through the xylem to the leaves where sugars are synthesized from carbon dioxide during the photosynthesis. A tight coupling
Eco-friendly Light-Initiated Polymerization for SustainablE Materials – ECLIPSE
ECLIPSE is an industrial chair project of the Institut des Sciences des Matériaux de Mulhouse (IS2M) and Arkema. Arkema aims for leadership in high-performance specialty materials through innovation and sustainability. The future of photochemistry research will focus on improving chemical systems f
Unravelling rust fungi genetic programs through life cycle transcriptomics – RustCyclomics
Rust fungi (Pucciniales) are plant pathogens causing rust diseases in many crops and trees and are a serious threat to agriculture. They are obligate biotrophs and as such, they are particularly hard to study in laboratory conditions. The Pucciniales have unique biological features compared to other
