Veinot Group

Veinot Group

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Thermally-Induced Dehydrogenative Coupling of Organosilanes and H-Terminated Silicon Quantum Dots onto Germanane Surfaces 02/16/2020

Here is another paper we are REALLY excited about that we submitted to ChemRxiv to get things rolling quickly.

Thermally-Induced Dehydrogenative Coupling of Organosilanes and H-Terminated Silicon Quantum Dots onto Germanane Surfaces Covalently bonded organic monolayers play important roles in defining the solution processability, ambient stability, and electronic properties of two-dimensional (2D) materials such as Ge nanosheets (GeNSs); they also hold promise of providing avenues for the fabrication of future generation electr...

A Tale of Seemingly “Identical” Silicon Quantum Dot Families: Structural Insight into Silicon Quantum Dot Photoluminescence 02/16/2020

This is a new contribution from Alyx that we have wanted to get out quickly so we submitted to ChemRxiv first!

A Tale of Seemingly “Identical” Silicon Quantum Dot Families: Structural Insight into Silicon Quantum Dot Photoluminescence Two quantum dots, both alike in composition, but differing in structure, where we lay our scene. From broader classes, to bring deeper understanding, to the crystalline core that drives the quantum dot's sheen. In this contribution we examine two families of silicon quantum dots (SiQDs) that bring t...

08/15/2019

This doesn't happen very often. Two papers...back to back...accepted the same day... Congrats to all the authors

05/03/2019

May the 4th be with (tomorrow)

May the 4th be with you: Yoda's Fluorescence Friday lightsaber is a solution of silicon nanocrystals dispersed in toluene.

By Alyx Aarbo of the Veinot Group at the University of Alberta.

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