P
Peter H. Beton
Researcher at University of Nottingham
Publications - 272
Citations - 11056
Peter H. Beton is an academic researcher from University of Nottingham. The author has contributed to research in topics: Quantum tunnelling & Magnetic field. The author has an hindex of 53, co-authored 266 publications receiving 9576 citations. Previous affiliations of Peter H. Beton include University of Manchester & Queen Mary University of London.
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Journal ArticleDOI
Growth front nucleation of rubrene thin films for high mobility organic transistors
TL;DR: In this article, a cascade of platelet growth is observed, in which platelets growing outward from a central nucleation point impinge on neighboring amorphous islands and provide a seed for further nucleation.
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Natural optical activity as the origin of the large chiroptical properties in π-conjugated polymer thin films.
Jessica Wade,James N. Hilfiker,Jochen R. Brandt,Letizia Liirò-Peluso,Li Wan,Xingyuan Shi,Francesco Salerno,Seán T. J. Ryan,S. Schöche,Oriol Arteaga,Tamás Jávorfi,Giuliano Siligardi,Cheng Wang,David B. Amabilino,Peter H. Beton,Alasdair J. Campbell,Matthew J. Fuchter +16 more
TL;DR: It is shown that – under conditions relevant for device fabrication – the large chiroptical effects are caused by magneto-electric coupling, not structural chirality as previously assumed, and may occur because of local order in a cylinder blue phase-type organisation.
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Functionalized Supramolecular Nanoporous Arrays for Surface Templating
Luís M. A. Perdigão,Alex Saywell,Giselle N. Fontes,Giselle N. Fontes,Paul A. Staniec,Gudrun Goretzki,Anna G. Phillips,Neil R. Champness,Peter H. Beton +8 more
TL;DR: A new route of functionalisation for network pores is demonstrated, opening up the possibility of designing nanostructured surface structures with chemical selectivity and applications in nanostructure templating.
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Adsorption of cobalt phthalocyanine on Ag terminated Si(111)
TL;DR: In this article, the adsorption of cobalt phthalocyanine on the Ag/Si(111)-( 3 × 3 )R30° surface using scanning tunnelling microscopy was investigated.
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Strain-Engineered Graphene Grown on Hexagonal Boron Nitride by Molecular Beam Epitaxy
Alex Summerfield,Andrew Davies,Tin S. Cheng,Vladimir V. Korolkov,YongJin Cho,Christopher J. Mellor,C. Thomas Foxon,Andrei N. Khlobystov,Kenji Watanabe,Takashi Taniguchi,Laurence Eaves,Sergei V. Novikov,Peter H. Beton +12 more
TL;DR: This work demonstrates a new approach to the growth of epitaxial graphene and a means of generating and modifying strain in graphene.