On-surface chemistry using local high electric fields

Thomas Leoni; Tony Lelaidier; Anthony Thomas; Alain Ranguis; Olivier Siri; Claudio Attaccalite; Conrad Becker

Journal ArticleOPEN ACCESS

On-surface chemistry using local high electric fields

Leoni T
Lelaidier T
Thomas A
et al.

Nanoscale Advances (2021) 3(19) 5565-5569

DOI: 10.1039/d1na00383f

3Citations

5Readers

Abstract

Dihydrotetraazapentacene (DHTAP) molecules can be dehydrogenated on the surface to form tetraazapentacene (TAP), by applying a high electric field between the tip of a scanning tunnelling microscope (STM) and a metallic substrate in the zero-current limit. The method can be applied either to single molecules or more extended layers by successively scanning a selected area using an STM tip. This journal is

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Leoni, T., Lelaidier, T., Thomas, A., Ranguis, A., Siri, O., Attaccalite, C., & Becker, C. (2021). On-surface chemistry using local high electric fields. Nanoscale Advances, 3(19), 5565–5569. https://doi.org/10.1039/d1na00383f

On-surface chemistry using local high electric fields

Abstract

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