Bipolaron Dynamics in Graphene Nanoribbons

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作者
Gesiel Gomes Silva
Luiz Antonio Ribeiro Junior
Marcelo Lopes Pereira Junior
Antonio Luciano de Almeida Fonseca
Rafael Timóteo de Sousa Júnior
Geraldo Magela e Silva
机构
[1] Goiás Federal Institute of Education,Department of Physics, Chemistry and Biology (IFM)
[2] Science and Technology,International Center for Condensed Matter Physics
[3] Linköping University,Institute of Physics
[4] University of Brasília,Department of Electrical Engineering
[5] University of Brasília,undefined
[6] PPG-CIMA,undefined
[7] Campus Planaltina,undefined
[8] University of Brasília,undefined
[9] Brasília,undefined
[10] University of Brasília,undefined
[11] CP04455,undefined
来源
Scientific Reports | / 9卷
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摘要
Graphene nanoribbons (GNRs) are two-dimensional structures with a rich variety of electronic properties that derive from their semiconducting band gaps. In these materials, charge transport can occur via a hopping process mediated by carriers formed by self-interacting states between the excess charge and local lattice deformations. Here, we use a two-dimensional tight-binding approach to reveal the formation of bipolarons in GNRs. Our results show that the formed bipolarons are dynamically stable even for high electric field strengths when it comes to GNRs. Remarkably, the bipolaron dynamics can occur in acoustic and optical regimes concerning its saturation velocity. The phase transition between these two regimes takes place for a critical field strength in which the bipolaron moves roughly with the speed of sound in the material.
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