Enhanced spectral purity of WSe 2 quantum emitters via conformal organic adlayers

Riddhi Ananth; M. Iqbal Bakti Utama; David D. Xu; Albert F. Vong; Tumpa Sadhukhan; Hongfei Zeng; Rafael López‐Arteaga; Wei Wang; Seok Daniel Namgung; S. Carin Gavin; Anushka Dasgupta; Andy Bennett; Fateme Mahdikhanysarvejahany; Kenji Watanabe; Takashi Taniguchi; Vinod K. Sangwan; Chad A. Mirkin; Tobin J. Marks; Xuedan Ma; Nathaniel P. Stern; George C. Schatz; Emily A. Weiss; Mark C. Hersam

doi:10.1126/sciadv.ady7557

Abstract

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Quantum emitters in solid-state materials are typically embedded in the bulk of their hosts, making their electronic transitions inaccessible to surface modification. In contrast, two-dimensional materials, with their all-surface nature, offer a platform for tuning quantum emitters via chemical functionalization. Because of its semiconducting properties that enable electrical addressability, monolayer WSe2 is a promising candidate for quantum emission, although the complex interplay between point defects and the localized strain needed to activate quantum emission leads to poor spectral purity. Here, we demonstrate that functionalizing monolayer WSe2 with conformal adlayers of 3,4,9,10-perylenetetracarboxylic dianhydride (PTCDA) improves quantum emission spectral purity. Optical spectroscopy reveals that PTCDA functionalization lowers defect activation energies by 10 meV and induces a 30 nm redshift in quantum emission wavelength, while preserving the bright and dark exciton energies of monolayer WSe2. First-principles calculations corroborate these findings, thus providing molecular-level insight into the underlying mechanism of enhanced spectral purity.

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Enhanced spectral purity of WSe <sub>2</sub> quantum emitters via conformal organic adlayers

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