Multi-band luminescence from 340 - 1550 nm from a rare earth-based two-dimensional material AgErP<sub>2</sub>Se<sub>6</sub>

Oral-In-person

Abstract

Photoluminescence (PL) emission in two-dimensional (2D) materials is of great interest for nanophotonics applications. While excitonic emission has been observed in numerous 2D materials, tunable multi-band luminescence is rare. Here, we present single-crystalline AgErP2Se6, a 2D material that exhibits bright, multi-band PL emission from Er3+ ions within the lattice. The emission bands cover a wide range (350 - 1550 nm), with ultra-narrow (as low as 0.5 nm at room temperature) emission peaks and room temperature lifetimes up to 4 μs. The intensities of the PL emission bands from the single crystals depend strongly on temperature and pressure, enabling sensing over a wide temperature and pressure range. Furthermore, the PL persists in exfoliated flakes down to at least 11 nm thick and demonstrates thickness-dependent Purcell enhancement. 

Presenters

  • Michael Susner

    • Air Force Research Laboratory (AFRL)

Authors

  • Rahul Rao

    • Air Force Research Laboratory (AFRL)
  • Michael Susner

    • Air Force Research Laboratory (AFRL)
  • Ryan Siebenaller

  • Emmanuel Rowe

    • Air Force Research Laboratory
  • Adam Alfieri

  • Bongjun Choi

  • Deep Jariwala

  • Jie Jiang

  • Ruth Pachter

    • Air Force Institute of Tech - WPAFB
  • Christopher Stevens

  • Joshua Hendrickson

  • Ryan Selhorst

  • Thuc Mai

    • UES, Inc.
  • Andrea Giordano