The Biosynthesis of Infrared-Emitting Quantum Dots in Allium Fistulosum

被引：0

作者：

M. Green

S. J. Haigh

E. A. Lewis

L. Sandiford

M. Burkitt-Gray

R. Fleck

G. Vizcay-Barrena

L. Jensen

H. Mirzai

R. J. Curry

L.-A. Dailey

机构：

[1] King’s College London,Department of Physics

[2] The Strand,School of Materials

[3] The University of Manchester,Department of Imaging Chemistry and Biology, Divisions of Imaging Science and Biomedical Engineering

[4] King’s College London,Department of Electronic Engineering

[5] St Thomas’ Hospital,Institute of Pharmaceutical Science

[6] The Centre for Ultrastructural Imaging,undefined

[7] King’s College London,undefined

[8] New Hunt’s House,undefined

[9] Advanced Technology Institute,undefined

[10] University of Surrey,undefined

[11] King’s College London,undefined

来源：

Scientific Reports | / 6卷

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摘要：

The development of simple routes to emissive solid-state materials is of paramount interest and in this report we describe the biosynthesis of infrared emitting quantum dots in a living plant via a mutual antagonistic reaction. Exposure of common Allium fistulosum to mercury and tellurium salts under ambient conditions resulted in the expulsion of crystalline, non-passivated HgTe quantum dots that exhibited emissive characteristics in the near-infrared spectral region, a wavelength range that is important in telecommunications and solar energy conversion.

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[1] The Biosynthesis of Infrared-Emitting Quantum Dots in Allium Fistulosum
Green, M.
Haigh, S. J.
Lewis, E. A.
Sandiford, L.
Burkitt-Gray, M.
Fleck, R.
Vizcay-Barrena, G.
Jensen, L.
Mirzai, H.
Curry, R. J.
Dailey, L. -A.
SCIENTIFIC REPORTS, 2016, 6
[2] Erratum: The Biosynthesis of Infrared-Emitting Quantum Dots in Allium Fistulosum
M. Green
S. J. Haigh
E. A. Lewis
L. Sandiford
M. Burkitt-Gray
R. Fleck
G. Vizcay-Barrena
L. Jensen
H. Mirzai
R. J. Curry
L.-A. Dailey
Scientific Reports, 6
[3] The Biosynthesis of Infrared-Emitting Quantum Dots in Allium Fistulosum (vol 6, 20480, 2016)
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