Optical identification of sulfur vacancies: Bound excitons at the edges of monolayer tungsten disulfide

Victor Carôzo; Yuanxi Wang; Kazunori Fujisawa; Bruno R. Carvalho; Amber McCreary; Simin Feng; Zhong Lin; Chanjing Zhou; Néstor Perea‐López; Ana Laura Elías; B. Kabius; Vincent H. Crespi; Mauricio Terrones

doi:10.1126/sciadv.1602813

Optical identification of sulfur vacancies: Bound excitons at the edges of monolayer tungsten disulfide

Victor Carôzo(Pennsylvania State University), Yuanxi Wang(Pennsylvania State University), Kazunori Fujisawa(Pennsylvania State University), Bruno R. Carvalho(Universidade Federal de Minas Gerais), Amber McCreary(Pennsylvania State University), Simin Feng(Pennsylvania State University), Zhong Lin(Pennsylvania State University), Chanjing Zhou(Pennsylvania State University), Néstor Perea‐López(Pennsylvania State University), Ana Laura Elías(Pennsylvania State University), B. Kabius(Pennsylvania State University), Vincent H. Crespi(Pennsylvania State University), Mauricio Terrones(Pennsylvania State University)

Science Advances

April 7, 2017

10.1126/sciadv.1602813

Cited by 304Open Access

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Abstract

). Temperature-dependent PL measurements found a thermal activation energy of ~36 meV; surprisingly, this is much smaller than the bound-exciton binding energy of ~300 meV. We show that this apparent inconsistency is related to a thermal dissociation of the bound exciton that liberates the neutral excitons from negatively charged point defects. First-principles calculations confirm that sulfur monovacancies introduce midgap states that host optical transitions with finite matrix elements, with emission energies ranging from 200 to 400 meV below the neutral-exciton emission line. These results demonstrate that bound-exciton emission induced by monosulfur vacancies is concentrated near the edges of as-grown monolayer tungsten disulfide.

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