Programming Recognition Arrays through Double Chalcogen-Bonding Interactions

In this work, we have programmed and synthesized a recognition motif constructed around a chalcogenazolo-pyridine scaffold (CGP) that, through the formation of frontal double chalcogen-bonding interactions, associates into dimeric EX-type complexes.

BN‐Patterning of Metallic Substrates through Metal Coordination of Decoupled Borazines

We report on the synthesis of pyridine‐terminated borazine derivatives, their molecular self‐assembly as well as the electronic properties investigated on silver and copper surfaces by means of scanning tunneling microscopy and X‐ray photoelectron spectroscopy.

Bonifazi Research Group

Welcome to the Bonifazi research group at Cardiff University, School of Chemistry. We do research in synthetic organic chemistry to develop supramolecular architectures that, through the exploitation of their peculiar physical and structural properties, can contribute to the demonstration of key functions or basic concepts at the intersection of physical organic chemistry, molecular recognition, materials science and recently biology.

Origin of the exclusive ternary electroluminescent behavior of BN-doped nanographenes in efficient single-component white light-emitting electrochemical cells

Origin of the exclusive ternary electroluminescent behavior of BN-doped nanographenes in efficient single-component white light-emitting electrochemical cells
White light-emitting electrochemical cells (WLECs) still represent a significant milestone, since only a few examples with moderate performances have been reported. Particularly, multi-emissive white emitters are highly desired, as a paradigm to circumvent phase separation and voltage-dependent...

Concurring Chalcogen- and halogen-bonding interactions in supramolecular polymers for crystal engineering applications

Concurring Chalcogen- and halogen-bonding interactions in supramolecular polymers for crystal engineering applications
The engineering of crystalline molecular solids through the simultaneous combination of distinctive non‐covalent interactions is an important field of research as it could allow chemist to prepare materials depicting multiresponsive properties. It is in this contest that, pushed by our will to...

Enantioselective Synthesis of N-Benzylic Heterocycles: a Nickel- and Photoredox-Dual Catalysis Approach

Enantioselective Synthesis of N-Benzylic Heterocycles: a Nickel- and Photoredox-Dual Catalysis Approach
Reported herein is a dual nickel- and photoredox-catalysed modular approach for the preparation of enantioenriched N-benzylic heterocycles. α-Heterocyclic carboxylic acids, easily obtainable from common commercial material, are reported as suitable substrates for a decarboxylative strategy...

Kinked silicon nanowires: Superstructures by metal assisted chemical etching

Kinked silicon nanowires: Superstructures by metal assisted chemical etching
We report on metal-assisted chemical etching of Si for the synthesis of mechanically stable, hybrid crystallographic orientation Si superstructures with high aspect ratio, above 200. This method sustains high etching rates and facilitates reproducible results. The protocol enables the control...

Welcome to Deborah & Andre!

Welcome to Deborah & Andre!
Welcome to Deborah Romito and André Sequeira! The last PhD students arrived in our group. She is from Italy and she will work on "Chalcogen Bonding as driving force to build an ordered 2D network". He is from Portugal and he will work on photoswitchable self-assembly system using Secondary-Bonding interactions.
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