Atomically thin quantum light-emitting diodes
- Submitting institution
-
University of Exeter
- Unit of assessment
- 12 - Engineering
- Output identifier
- 6021
- Type
- D - Journal article
- DOI
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10.1038/ncomms12978
- Title of journal
- Nature Communications
- Article number
- ARTN 12978
- First page
- -
- Volume
- 7
- Issue
- 1
- ISSN
- 2041-1723
- Open access status
- Compliant
- Month of publication
- September
- Year of publication
- 2016
- URL
-
-
- Supplementary information
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https://static-content.springer.com/esm/art%3A10.1038%2Fncomms12978/MediaObjects/41467_2016_BFncomms12978_MOESM183_ESM.pdf
- Request cross-referral to
- -
- Output has been delayed by COVID-19
- No
- COVID-19 affected output statement
- -
- Forensic science
- No
- Criminology
- No
- Interdisciplinary
- No
- Number of additional authors
-
11
- Research group(s)
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E - Nano Engineering Science and Technology
- Proposed double-weighted
- No
- Reserve for an output with double weighting
- No
- Additional information
- These results demonstrate layered materials as platforms for fully integral and atomically precise devices for quantum photonics technologies. It led to the award of prizes (Springer PhD thesis award 2018, IoP Jocelyn Bell Burnell Medal 2018) and invited talks at international conferences (Graphene Week, Graphene, APS March meeting 2017). This work has produced press releases (Nature, Physorg, Nanowerk, IEEE Spectrum Nanoblast Blog). It was funded by EU Graphene Flagship (no. 604391), ERC Grants (Hetero2D, PHOENICS), and the EPSRC Cambridge NanoDTC (EP/G037221/1).
- Author contribution statement
- -
- Non-English
- No
- English abstract
- -