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Charge transfer dynamics in noble gas endofullerenes: intra-and extramolecular tunnelling

Charge transfer dynamics in noble gas endofullerenes: intra-and extramolecular tunnelling
Charge transfer dynamics in noble gas endofullerenes: intra-and extramolecular tunnelling
Core-level and tunnelling spectroscopies applied to noble gas endofullerenes offer complementary insights into electron transfer rates, addressing both intramolecular and extramolecular processes. Elastic and inelastic tunnelling spectroscopy of empty C60 and Kr@C60 on Pb/Cu(111) each show that the encapsulated atom is essentially invisible to scanning probes. We interpret the lineshape of the lowest unoccupied molecular orbital (LUMO) of Pb-adsorbed (endo)fullerenes in tunnelling spectra as a signature of the dynamic Jahn-Teller (DJ-T) effect. This effect persists in electronically decoupled second-layer molecules, which also display distinct vibronic progressions in on-resonance tunnelling. DFT calculations reproduce the LUMO alignment and low density of states at the Fermi level seen in experimental tunnelling spectra for (endo)fullerenes on Pb, and, in line with submolecular resolution STM images, also predict that an atom-down orientation of the fullerene cage is energetically most favourable (although other adsorption geometries differ only by tens of meV at most). In contrast to the tunnelling data, core-level-focussed techniques -namely, photoemission, X-ray absorption, and resonant Auger-Meitner electron spectroscopy -of Ar@C60/Pb(111) indicate that the encapsulated atom is heavily coupled to the molecular environment, with both a clear influence of substrate screening on the core-level lineshape and the absence of spectator signal in decay spectra.
2040-3372
Sufyan, Ali
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James, Tyler
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Fields, Connor
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Naseri, Shabnam
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Junqueira, Filipe
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Alonso Perez, Sofia
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Bloodworth, Sally
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Hoffman, Gabriela
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Walkey, Mark C
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Marsden, Elizabeth S
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Whitby, Richard J.
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Wang, Yitao
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Duncan, David A.
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Lee, Tien-Lin
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O’shea, James n.
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Larsson, J Andreas
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Kiraly, Brian
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Moriarty, Philip
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Sufyan, Ali
c7db09a1-3d78-4a91-a87e-41fbba19eb7d
James, Tyler
290fc0e0-51d9-433f-bca2-12e666b33f51
Fields, Connor
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Naseri, Shabnam
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Junqueira, Filipe
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Alonso Perez, Sofia
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Bloodworth, Sally
943160fc-1b70-4c29-b2e3-b7785cee8a0c
Hoffman, Gabriela
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Walkey, Mark C
432139de-52cb-4e28-9ad0-b254e0523775
Marsden, Elizabeth S
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Whitby, Richard J.
45632236-ab00-4ad0-a02d-6209043e818b
Wang, Yitao
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Duncan, David A.
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Lee, Tien-Lin
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O’shea, James n.
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Larsson, J Andreas
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Kiraly, Brian
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Moriarty, Philip
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Sufyan, Ali, James, Tyler, Fields, Connor, Naseri, Shabnam, Junqueira, Filipe, Alonso Perez, Sofia, Bloodworth, Sally, Hoffman, Gabriela, Walkey, Mark C, Marsden, Elizabeth S, Whitby, Richard J., Wang, Yitao, Duncan, David A., Lee, Tien-Lin, O’shea, James n., Larsson, J Andreas, Kiraly, Brian and Moriarty, Philip (2025) Charge transfer dynamics in noble gas endofullerenes: intra-and extramolecular tunnelling. Nanoscale Adv.. (doi:10.1039/D5NA00727E).

Record type: Article

Abstract

Core-level and tunnelling spectroscopies applied to noble gas endofullerenes offer complementary insights into electron transfer rates, addressing both intramolecular and extramolecular processes. Elastic and inelastic tunnelling spectroscopy of empty C60 and Kr@C60 on Pb/Cu(111) each show that the encapsulated atom is essentially invisible to scanning probes. We interpret the lineshape of the lowest unoccupied molecular orbital (LUMO) of Pb-adsorbed (endo)fullerenes in tunnelling spectra as a signature of the dynamic Jahn-Teller (DJ-T) effect. This effect persists in electronically decoupled second-layer molecules, which also display distinct vibronic progressions in on-resonance tunnelling. DFT calculations reproduce the LUMO alignment and low density of states at the Fermi level seen in experimental tunnelling spectra for (endo)fullerenes on Pb, and, in line with submolecular resolution STM images, also predict that an atom-down orientation of the fullerene cage is energetically most favourable (although other adsorption geometries differ only by tens of meV at most). In contrast to the tunnelling data, core-level-focussed techniques -namely, photoemission, X-ray absorption, and resonant Auger-Meitner electron spectroscopy -of Ar@C60/Pb(111) indicate that the encapsulated atom is heavily coupled to the molecular environment, with both a clear influence of substrate screening on the core-level lineshape and the absence of spectator signal in decay spectra.

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Accepted/In Press date: 9 October 2025
e-pub ahead of print date: 10 October 2025
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Identifiers

Local EPrints ID: 505970
URI: http://eprints.soton.ac.uk/id/eprint/505970
DOI: doi:10.1039/D5NA00727E
ISSN: 2040-3372
PURE UUID: b142ebbb-6007-4e31-ba71-070b06c710fb
ORCID for Sally Bloodworth: ORCID iD orcid.org/0000-0003-2219-3635
ORCID for Richard J. Whitby: ORCID iD orcid.org/0000-0002-9891-5502

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Date deposited: 24 Oct 2025 16:44
Last modified: 25 Oct 2025 01:39

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Contributors

Author: Ali Sufyan
Author: Tyler James
Author: Connor Fields
Author: Shabnam Naseri
Author: Filipe Junqueira
Author: Sofia Alonso Perez
Author: Sally Bloodworth ORCID iD
Author: Gabriela Hoffman
Author: Mark C Walkey
Author: Elizabeth S Marsden
Author: Richard J. Whitby ORCID iD
Author: Yitao Wang
Author: David A. Duncan
Author: Tien-Lin Lee
Author: James n. O’shea
Author: J Andreas Larsson
Author: Brian Kiraly
Author: Philip Moriarty

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