Dr Alexandra Ramadan [she/her]

Film formation of non-planar phthalocyanines on copper( i ) iodide

RSC Advances Royal Society of Chemistry (RSC) 6:97 (2016) 95227-95231

Authors:

AJ Ramadan, S Fearn, TS Jones, S Heutz, LA Rochford

Organic/inorganic epitaxy: commensurate epitaxial growth of truxenone on Cu (111)

RSC Advances Royal Society of Chemistry (RSC) 6:21 (2016) 17125-17128

Authors:

AJ Ramadan, CB Nielsen, S Holliday, TS Jones, I McCulloch, LA Rochford

The effect of fluorination on the surface structure of truxenones

RSC Advances Royal Society of Chemistry (RSC) 6:71 (2016) 67315-67318

Authors:

LA Rochford, AJ Ramadan, S Holliday, TS Jones, CB Nielsen

The morphology and structure of vanadyl phthalocyanine thin films on lithium niobate single crystals

Journal of Materials Chemistry C Royal Society of Chemistry (RSC) 4:2 (2016) 348-351

Authors:

Alexandra J Ramadan, Luke A Rochford, Jonathan Moffat, Chris Mulcahy, Mary P Ryan, Tim S Jones, Sandrine Heutz

Ordered growth of vanadyl phthalocyanine (VOPc) on an iron phthalocyanine (FePc) monolayer.

Physical chemistry chemical physics : PCCP 17:44 (2015) 29747-29752

Authors:

Luke A Rochford, Alexandra J Ramadan, D Phil Woodruff, Sandrine Heutz, Tim S Jones

Abstract:

The growth and characterisation of a non-planar phthalocyanine (vanadyl phthalocyanine, VOPc) on a complete monolayer (ML) of a planar phthalocyanine (Iron(II) phthalocyanine, FePc) on an Au(111) surface, has been investigated using ultra-high vacuum (UHV) scanning tunnelling microscopy (STM) and low energy electron diffraction (LEED). The surface mesh of the initial FePc monolayer has been determined and shown to correspond to an incommensurate overlayer, not commensurate as previously reported. Ordered islands of VOPc, with (1 × 1) epitaxy, grow on the FePc layer at submonolayer coverages. The individual VOPc molecules occupy sites directly atop the underlying FePc molecules, indicating that significant intermolecular bonding must occur. It is proposed that this interaction implies that the V[double bond, length as m-dash]O points down into the surface, allowing a Fe-O bond to form. The detailed appearance of the STM images of the VOPc molecules is consistent with previous studies in other VOPc growth studies in which this molecular orientation has been proposed.