Advanced Materials Interfaces (Jan 2023)

Cataloguing MoSi2N4 and WSi2N4 van der Waals Heterostructures: An Exceptional Material Platform for Excitonic Solar Cell Applications

  • Che Chen Tho,
  • Chenjiang Yu,
  • Qin Tang,
  • Qianqian Wang,
  • Tong Su,
  • Zhuoer Feng,
  • Qingyun Wu,
  • C. V. Nguyen,
  • Wee‐Liat Ong,
  • Shi‐Jun Liang,
  • San‐Dong Guo,
  • Liemao Cao,
  • Shengli Zhang,
  • Shengyuan A. Yang,
  • Lay Kee Ang,
  • Guangzhao Wang,
  • Yee Sin Ang

DOI
https://doi.org/10.1002/admi.202201856
Journal volume & issue
Vol. 10, no. 2
pp. n/a – n/a

Abstract

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Abstract 2D materials van der Waals heterostructures (vdWHs) provide a revolutionary route toward high‐performance solar energy conversion devices beyond the conventional silicon‐based pn junction solar cells. Despite tremendous research progress accomplished in recent years, the searches of vdWHs with exceptional excitonic solar cell conversion efficiency and optical properties remain an open theoretical and experimental quest. Here, this study shows that the vdWH family composed of MoSi2N4 and WSi2N4 monolayers provides a compelling material platform for developing high‐performance ultrathin excitonic solar cells and photonics devices. Using first‐principle calculations, 51 types of MoSi2N4 and WSi2N4‐based [(Mo,W)Si2N4] vdWHs composed of various metallic, semimetallic, semiconducting, insulating, and topological 2D materials are constructed and classified. Intriguingly, MoSi2N4/(InSe, WSe2) are identified as Type II vdWHs with exceptional excitonic solar cell power conversion efficiency reaching well over 20%, which are competitive to state‐of‐the‐art silicon solar cells. The (Mo,W)Si2N4 vdWH family exhibits strong optical absorption in both the visible and UV regimes. Exceedingly large peak UV absorptions over 40%, approaching the maximum absorption limit of a freestanding 2D material, can be achieved in (Mo,W)Si2N4/α2‐(Mo,W)Ge2P4 vdWHs. The findings unravel the enormous potential of (Mo,W)Si2N4 vdWHs in designing ultimately compact excitonic solar cell device technology.

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