Antoine Tissot (ENS, Paris)

Functional Metal-Organic Frameworks for catalysis and sensing applications

 

Sujing WANG, Florian MOREAU, Farid NOUAR, Christian SERRE, Antoine TISSOT
 Institut des Matériaux Poreux de Paris, FRE 2000, CNRS - Ecole Normale Supérieure – ESPCI, PSL Research University
 E-mail: antoine.tissot@ens.fr

 

Structure of MIL-177(HT), an ultrastable Ti(IV) based MOF - © .

Metal-Organic Frameworks (MOFs) are ideal materials for the modular design of complex assemblies. They possess a long-range ordered hybrid structure associated with well-organized micro- or mesoporous channels and/or cages.[1] Their chemical composition (metal cation, ligand) can be easily tuned, through direct or post-synthetic methods, as well as the presence of Lewis, redox, photoactive or acid/base Brönsted centers within the framework. This large chemical versatility combined with the large structural diversity, offers a unique opportunity to generate a diversity of structures and compositions, making them of great interest for various applications such as gas storage, separation, catalysis, drug delivery, etc. In this presentation, I will describe some recent developments concerning the design of (a) Ti(IV) based photo-conductive porous hybrid solids,[2]  (b) conductive porous hybrid solids for application in electrocatalytic O2 reduction and (c) MOF @ spin crossover complexes hybrid solids for sensing applications.[3] 

References :
[1] a) G. Férey et al., Science 2005, 309, 2040; b) C. Serre et al., Chem. Soc. Rev. 2014, 43, 6097.
[2] S. Wang et al., Nature. Comm. 2018, 9, 1660.
[3] A. Tissot et al., submitted.