# Chemical Vapor Deposition Growth of Boron-Carbon-Nitrogen layers from   Methylamine Borane Thermolysis Products

**Authors:** Fabrice Leardini, Eduardo Flores, Andr\'es R. Galvis, Isabel Jim\'enez, Ferrer, Jos\'e Ram\'on Ares, Carlos S\'anchez, Pablo Molina, Herko P. van der, Meulen, Cristina G\'omez Navarro, Guillermo L\'opez Polin, Fernando J., Urbanos, Daniel Granados, F. Javier Garc\'ia-Garc\'ia, Umit B. Demirci,, Pascal G. Yot, Filippo Mastrangelo, Maria Grazia Betti, Carlo Mariani

arXiv: 1902.07525 · 2019-02-21

## TL;DR

This study demonstrates the chemical vapor deposition growth of boron-carbon-nitrogen layers from methylamine borane thermolysis products, revealing domain segregation and C-N bonding, with detailed structural and optical characterizations.

## Contribution

It introduces a new method for growing B-C-N layers using methylamine borane as a precursor, analyzing its thermolysis products and resulting layer properties.

## Key findings

- Segregation of h-BN and graphene-like domains observed.
- Presence of B and N interactions with C at domain borders.
- Optical bandgap measurements discussed and compared with prior work.

## Abstract

This work investigates the growth of B-C-N layers by chemical vapor deposition using methylamine borane (MeAB) as single-source precursor. MeAB has been synthesized and characterized, paying particular attention to the analysis of its thermolysis products, which are the gaseous precursors for B-C-N growth. Samples have been grown on Cu foils and transferred onto different substrates for their morphological, structural, chemical, electronic and optical characterizations. The results of these characterizations indicate a segregation of h-BN and Graphene-like (Gr) domains. However, there is an important presence of B and N interactions with C at the Gr borders, and of C interacting at the h-BN-edges, respectively, in the obtained nano-layers. In particular, there is significant presence of C-N bonds, at Gr/h-BN borders and in the form of N doping of Gr domains. The overall B:C:N contents in the layers is close to 1:3:1.5. A careful analysis of the optical bandgap determination of the obtained B-C-N layers is presented, discussed and compared with previous seminal works with samples of similar composition.

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Source: https://tomesphere.com/paper/1902.07525