Journal article
A large interlaboratory electron diffraction study of monolayer graphene
- Abstract:
- Standardisation of data collection and analysis is essential to enable commercialisation of 2D materials in a wide range of technologies. Selected area electron diffraction (SAED) in the transmission electron microscope (TEM) is one of the key methods for distinguishing monolayer from bilayer and few-layer graphene by comparing the 1st and 2nd order diffraction spot intensities. Yet there are many factors that can affect the reliability of data collection and interpretation, causing the measurement of monolayer samples to deviate from the literature boundary condition of I{2¯110}/I{11¯00}< 1 for monolayer graphene (1LG). Here we present the results of a large interlaboratory SAED comparison study, where 15 international laboratories measured and analysed nominally identical samples of chemical vapour deposited graphene. Large variations were observed in the measured ratios of diffraction spot intensities, with the largest variance associated with poor quality SAED data resulting from inadequate specimen handling and storage. To inform the reliable determination of monolayer thickness from SAED patterns we provide a description of best practice for specimen handling, TEM operation, data collection and analysis. This work was undertaken within VAMAS Technical Working Area 41: Graphene and related 2D materials—Project 9, the results of which have been directly incorporated into ISO/TS 21356–2 for the characterisation of graphene sheets. We find that when this methodology is followed, 1LG can be distinguished from bilayer or thicker material with high confidence where analysis of a single SAED pattern gives I{2¯110}/I{11¯00}< 1.2, even in the absence of precise specimen tilting.
- Publication status:
- Published
- Peer review status:
- Peer reviewed
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(Preview, Version of record, pdf, 3.0MB, Terms of use)
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- Publisher copy:
- 10.1088/2053-1583/ae2ca1
Authors
+ National Natural Science Foundation of China
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- Funder identifier:
- https://ror.org/01h0zpd94
- Grant:
- 12474026
+ H2020 European Research Council
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- Funder identifier:
- 10.13039/100010663
- Grant:
- STGEvoluTEM-715502
+ Engineering and Physical Sciences Research Council
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- Funder identifier:
- https://ror.org/0439y7842
- Grant:
- EP/M010619/1
- Publisher:
- IOP Publishing
- Journal:
- 2D Materials More from this journal
- Volume:
- 13
- Issue:
- 2
- Pages:
- 025007
- Article number:
- 025007
- Publication date:
- 2026-02-20
- Acceptance date:
- 2025-12-15
- DOI:
- EISSN:
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2053-1583
- ISSN:
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2053-1583
- Language:
-
English
- Keywords:
- Pubs id:
-
2384587
- Local pid:
-
pubs:2384587
- Source identifiers:
-
3781168
- Deposit date:
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2026-02-20
- ARK identifier:
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Terms of use
- Copyright date:
- 2026
- Licence:
- CC Attribution (CC BY)
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