Litcius/Paper detail

Construction of Boron‐ and Nitrogen‐Enriched Nanoporous π‐Conjugated Networks Towards Enhanced Hydrogen Activation

Meijia Li, Liqi Qiu, Ilja Popovs, Weiwei Yang, Alexander S. Ivanov, Takeshi Kobayashi, Bishnu P. Thapaliya, Debabrata Moitra, Xinbin Yu, Zili Wu, Zhenzhen Yang, Sheng Dai

2023Angewandte Chemie International Edition12 citationsDOIOpen Access PDF

Abstract

Abstract Boron‐enriched scaffolds have demonstrated unique features and promising performance in the field of catalysis towards the activation of small gas molecules. However, there is still a lack of facile approaches capable of achieving high B doping and abundant porous channels in the targeted catalysts. Herein, construction of boron‐ and nitrogen‐enriched nanoporous π‐conjugated networks (BN‐NCNs) was achieved via a facile ionothermal polymerization procedure with hexaazatriphenylenehexacarbonitrile [HAT(CN) 6 ] sodium borohydride as the starting materials. The as‐produced BN‐NCN scaffolds were featured by high heteroatoms doping (B up to 23 wt. % and N: up to 17 wt. %) and permanent porosity (surface area up to 759 m 2 g −1 mainly contributed by micropores). With the unsaturated bonded B species acting as the active Lewis acid sites and defected N species acting as the active Lewis base sites, those BN‐NCNs delivered attractive catalytic performance towards H 2 activation/dissociation in both gaseous and liquid phase, acting as efficient metal‐free heterogeneous frustrated Lewis pairs (FLPs) catalysts in hydrogenation procedures.

Topics & Concepts

CatalysisLewis acids and basesHeteroatomBoronNanoporousConjugated systemPolymerizationMaterials scienceChemistryHydrogenSodium borohydrideChemical engineeringInorganic chemistryCombinatorial chemistryNanotechnologyOrganic chemistryPolymerRing (chemistry)EngineeringMetal-Organic Frameworks: Synthesis and ApplicationsOrganoboron and organosilicon chemistryCovalent Organic Framework Applications