Carbon and vacancy centers in hexagonal boron nitride
Physical review. B./Physical review. B 106(1)
Article 2022 English
Authors
PH
Pengru Huang
MG
Magdalena Grzeszczyk
KV
Kristina Vaklinova
Abstract
1 min read
The creation of defect with predetermined optical, chemical, and other characteristics is a powerful tool to enhance the functionalities of materials. Herewith, we utilize density functional theory to understand the microscopic mechanisms of formation of defects in hexagonal boron nitride based on vacancies and substitutional atoms. Through in-depth analysis of the defect-induced band structure and formation energy in varying growth conditions, we uncovered a dominant role of interdefect electron pairing in stabilization of defect complexes. The electron reorganization modifies the exchange component of the electronic interactions which dominates over direct Coulomb repulsion or structural relaxation effects making the combination of acceptor- and donor-type defect centers energetically favorable. Based on an analysis of a large number of defect complexes we develop a simple picture of the inheritance of the electronic properties when individual defects are combined together to form more complex centers.
Danis I. Badrtdinov, Carlos Rodríguez-Fernández, Magdalena Grzeszczyk, Zhizhan Qiu, Kristina Vaklinova, Pengru Huang, Alexander Hampel, Kenji Watanabe, Takashi Taniguchi, Jiong Lu, M. Potemski, Cyrus E. Dreyer, Maciej Koperski, Malte Rösner
Shekhar Das, Alex L. Melendez, I-Hsuan Kao, Janeth Alexandra García-Monge, Daniel Russell, Jiahan Li, Kenji Watanabe, Takashi Taniguchi, James H. Edgar, Jyoti Katoch, Fengyuan Yang, P. C. Hammel, Simranjeet Singh
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