NIRLICC Project

© Ella Maru Studio

Near Infra-Red Light-Induced Chirality and Catalysis

Coordinator

CNRS

Keywords

Light Conversion to Chiral Information ; Chiral Photocatalysis ; Near Infra-Red ; Metallaphotoredox ; Solid/Liquid Phase ; Synthesis ; Mechanisms ; Heterochemistry ; Single Electron and Energy Transfer ; Cyanines ; Squaraines

Summary

The NIRLICC project aims to harness near-infrared (NIR) light for the synthesis of chiral molecules. By bringing together a consortium of teams with recognized and complementary expertises, the project focuses on developing novel chiral NIR photocatalysts, exploring their photophysical properties, and applying them in asymmetric photocatalysis. It also encompasses mechanistic and kinetic studies of the targeted transformations, alongside process optimization using advanced methodologies such as flow chemistry and solid-phase techniques like mechanochemistry. This interdisciplinary initiative seeks to establish innovative tools for sustainable and selective chemical synthesis, driving advancements in both academic and industrial research.

Consortium

LIMA • Mulhouse
^{Laboratoire d’Innovation Moléculaire et Applications}
^{Jean-Philippe Goddard, Morgan Cormier}

COLL.DE FRANCE • Paris
^{Chaire Activations en chimie moléculaire}
^{Louis Fensterbank, Camille Lescot}

IPCM • Paris
^{Institut Parisien de Chimie Moléculaire}
^{Cyril Ollivier, Virginie Mouri.s-Mansuy}

LHFA • Toulouse
^{Laboratoire Hétérochimie Fondamentale et Appliquée}
^{Sami Lakhdar}

Publications

0 documents

Les autres projets PEPR

CHIREXCO

Induced Chirality by Excitonic Coupling on Chiral Surfaces: A Multiscale Computational Approach

OPERANDO/PROTOTYPAGE

National infrastructure of operando and prototyping platforms

TORNADO

Multiscale, multidimensional approach to chiral light-matter interactions for enhanced chiroptical responses

SYNFLUX-LUMICALS

Synchronization of photon, charge and molecule flows molecules for optimized conversion of sunlight into fuels and chemicals

LUMINESS

Light-based understanding of magneto-chiral interactions and chirality-induced spin selectivity

CLAMP

Mutual interplay between magnetic particles and photoactive ligands

BERNARDO

Bridging the chirality of light between near- and far-fields with nanophotonics

SUNRISE

Surpassing intrinsic shortcomings of excited states to improve the efficiency and spatial resolution of photoinduced processes

PACTE

Plasmon Activated molecular catalysis: application to orthogonal relay catalysis

ULTRAFAST

National infrastructure of platforms for ultrafast photoscience and nano-engineering

PROSECO

PROcessing of SEmi-COnductors with advanced light control

PHORTUNA

Photothermal nanosystems with regulated optical, tunable photothermal/photodynamic and targeting properties to combat multifaceted bacterial resistance

VISIBLE

Revealing Photocatalysis by Electrogenerated Chemiluminescence

MANDALA

Machine Learning Powered Non Adiabatic Dynamics in Complex Systems. Multiscale Modeling of Nucleosomal DNA Lesions

HELIOPHORE

Hemiindigoids as visible-light-induced optical switches for photopharmacological regulation

SIMULACTOR

Multi-Scale Simulations of Polymeric PhotoActuators

FLASH

From laser-excited-states to heterogeneous material dynamics

OPTICSKIN

Multi-modality and multi-scale optical characterization and modelling of human skin applied to cancer diagnosis

NIRLICC Project

Near Infra-Red Light-Induced Chirality and Catalysis

Coordinator

Keywords

Summary

Consortium

Publications

Contact

Domains

Keywords

Authors

Affiliated authors

Journals

Year of production

Institutions

Laboratories

Departments

Research team

Les autres projets PEPR