Structure and surface properties of size-tuneable CsPbBr3 nanocrystals
Structure and surface properties of size-tuneable CsPbBr3 nanocrystals
This investigation has characterised the structure and surface chemistry of CsPbBr3 nanocrystals with controlled diameters between 6.4 to 12.8 nm. The nanocrystals were investigated via a thorough 133Cs solid state NMR and nuclear relaxation study, identifying and mapping radially-increasing nanoscale disorder. This work has formalised 133Cs NMR as a highly sensitive probe of nanocrystal size, which can conveniently analyse nanocrystals in solid forms, as they would be utilised in optoelectronic devices. A combined multinuclear solid state NMR and XPS approach, including 133Cs–1H heteronuclear correlation 2D (HETCOR) NMR, was utilised to study the nanocrystal surface and ligands, demonstrating that the surface is Cs–Br rich with vacancies passivated by didodecyldimethylammonium bromide (DDAB) ligands. Furthermore, it is shown that a negligible amount of phosphonate ligands remain on the powder nanocrystal surface, despite the key role of octylphosphonic acid (OPA) in controlling the colloidal nanocrystal growth. The CsPbBr3 NCs were shown to be structurally stable under ambient conditions for up to 6 months, albeit with some particle agglomeration.
15770-15780
Hooper, Thomas J.N.
ecfdf81c-ac2e-48d7-aea1-096555d0b917
Fang, Yanan
c6e3a89c-e47f-443f-9e27-25d4629c6cff
Brown, Alasdair A.M.
3107ea0b-bebd-4b75-802e-9b65e28fcacf
Pu, Suan Hui
8b46b970-56fd-4a4e-8688-28668f648f43
White, Tim J.
e9678e74-407d-4cec-84fa-47f56e67fe2c
13 September 2021
Hooper, Thomas J.N.
ecfdf81c-ac2e-48d7-aea1-096555d0b917
Fang, Yanan
c6e3a89c-e47f-443f-9e27-25d4629c6cff
Brown, Alasdair A.M.
3107ea0b-bebd-4b75-802e-9b65e28fcacf
Pu, Suan Hui
8b46b970-56fd-4a4e-8688-28668f648f43
White, Tim J.
e9678e74-407d-4cec-84fa-47f56e67fe2c
Hooper, Thomas J.N., Fang, Yanan, Brown, Alasdair A.M., Pu, Suan Hui and White, Tim J.
(2021)
Structure and surface properties of size-tuneable CsPbBr3 nanocrystals.
Nanoscale, 13 (37), .
(doi:10.1039/D1NR04602K).
Abstract
This investigation has characterised the structure and surface chemistry of CsPbBr3 nanocrystals with controlled diameters between 6.4 to 12.8 nm. The nanocrystals were investigated via a thorough 133Cs solid state NMR and nuclear relaxation study, identifying and mapping radially-increasing nanoscale disorder. This work has formalised 133Cs NMR as a highly sensitive probe of nanocrystal size, which can conveniently analyse nanocrystals in solid forms, as they would be utilised in optoelectronic devices. A combined multinuclear solid state NMR and XPS approach, including 133Cs–1H heteronuclear correlation 2D (HETCOR) NMR, was utilised to study the nanocrystal surface and ligands, demonstrating that the surface is Cs–Br rich with vacancies passivated by didodecyldimethylammonium bromide (DDAB) ligands. Furthermore, it is shown that a negligible amount of phosphonate ligands remain on the powder nanocrystal surface, despite the key role of octylphosphonic acid (OPA) in controlling the colloidal nanocrystal growth. The CsPbBr3 NCs were shown to be structurally stable under ambient conditions for up to 6 months, albeit with some particle agglomeration.
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Accepted/In Press date: 10 September 2021
Published date: 13 September 2021
Identifiers
Local EPrints ID: 487733
URI: http://eprints.soton.ac.uk/id/eprint/487733
ISSN: 2040-3364
PURE UUID: 01eba5ef-4096-46e1-a668-75a223c1fbae
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Date deposited: 04 Mar 2024 17:31
Last modified: 18 Mar 2024 03:47
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Contributors
Author:
Thomas J.N. Hooper
Author:
Yanan Fang
Author:
Alasdair A.M. Brown
Author:
Tim J. White
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