Triplet excitation and electroluminescence from a supramolecular monolayer embedded in a boron nitride tunnel barrier
Description
We show that ordered monolayers of organic molecules stabilized by hydrogen bonding on the surface of exfoliated few-layer hexagonal boron nitride (hBN) flakes may be incorporated into van der Waals heterostructures with integral few-layer graphene contacts forming a molecular/2D hybrid tunneling diode. Electrons can tunnel from through the hBN/molecular barrier under an applied voltage VSD and we observe molecular electroluminescence from an excited singlet state with an emitted photon energy > eVSD, indicating up-conversion by energies up to ~ 1 eV. We show that tunnelling electrons excite embedded molecules into singlet states in a two-step process via an intermediate triplet state through inelastic scattering and also observe direct emission from the triplet state. These heterostructures provide a solid-state device in which spin-triplet states, which cannot be generated by optical transitions, can be controllably excited and provide a new route to investigate the physics, chemistry and quantum spin-based applications of triplet generation, emission and molecular photon up-conversion.
External URI
Subjects
- Monomolecular films
- Heterostructures
- Tunnel diodes
- Electroluminescence, Van der Waas Heterostructure, Up-conversion, Molecular Self-Assembly
- Physical sciences
- Q Science::QD Chemistry::QD450 Physical and theoretical chemistry
- T Technology::TK Electrical engineering. Electronics Nuclear engineering::TK7800 Electronics
- Q Science::QC Physics::QC501 Electricity and magnetism
Divisions
- University of Nottingham, UK Campus::Faculty of Science::School of Physics and Astronomy
Deposit date
2020-01-07Data type
Raw data files: AFM images (.ibw), photoluminescence and electroluminescence spectra (.ls6 and .txt), current vs. voltage measurement files (.txt), optical microscopy images (.jpg)Contributors
- Kerfoot, James
- Nizovtsev, Anton S.
- Summerfield, Alex
- Korolkov, Vladimir V.
- Taniguchi, Takashi
- Watanabe, Kenji
- Antolín, Elisa
- Besley, Elena
Funders
- Engineering & Physical Sciences Research Council
- Leverhulme Trust
- MEXT
Grant number
- EP/N033906/1
- RPG-2016-104
- JPMJCR15F3
- EP/P020232/1
Collection dates
- 01.02.2019 - 01.07.2019
Data collection method
Optical microscopy, Fluorescence microscopy, Atomic force microscopy, probe station current-voltage measurementsProvenance / lineage
arXiv:1909.08488Resource languages
- en