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Dimensionality Engineering of Lead Organic Chalcogenide Semiconductors.

Hanjun YangSagarmoy MandalYoon Ho LeeJee Yung ParkHan ZhaoChongli YuanLibai HuangMing ChenLetian Dou
Published in: Journal of the American Chemical Society (2023)
Two-dimensional (2D) metal organic chalcogenides (MOCs) such as silver phenylselenolate (AgSePh) have emerged as a new class of 2D materials due to their unique optical properties. However, these materials typically exhibit large band gaps, and their elemental and structural versatility remain significantly limited. In this work, we synthesize a new family of 2D lead organic chalcogenide (LOC) materials with excellent structural and dimensionality tunability by designing the bonding ability of the organic molecules and the stereochemical activity of the Pb lone pair. The introduction of electron-donating substituents on the benzenethiol ligands results in a series of LOCs that transition from 1D to 2D, featuring reduced band gaps (down to 1.7 eV), broadband emission, and strong electron-phonon coupling. We demonstrated a prototypical single crystal photodetector with 2D LOC that showed the dimensionality engineering on the transport property of LOC semiconductors. This study paves the way for further development of the synthesis and optical properties of novel organic-inorganic hybrid 2D materials.
Keyphrases
  • water soluble
  • high resolution
  • ionic liquid
  • electron transfer
  • electron microscopy
  • high efficiency