
Professor of Physical & Computational Surface Chemistry
My research is centred upon the physics and chemistry of solid surfaces, explored predominantly through first-principles computational techniques (often in conjunction with ultra-high vacuum single-crystal experiments performed by colleagues and collaborators).
Past and present topics of particular interest include:
- surface structure and symmetry, with a focus on chirality at multiple length-scales;
- reaction dynamics of highly-oxidising species on semiconducting surfaces;
- electronic structure of half-metal surfaces, including states with non-trivial topology;
- non-trivial topology in bulk and surface phonon band structures;
- hydrogen and halogen bonding in adsorbed overlayers on graphite and gold;
- heterogeneous catalysis (ammonia synthesis, hydrocarbon combustion and synthesis, water gas shift, selective reduction).
In addition to my primary research, I am the author of two books - Chirality at Solid Surfaces (Wiley, 2018) and Foundations of Surface Science (Oxford University Press, 2023). I lecture undergraduate courses on the Electronic Structure and Properties of Solids; Surfaces and Interfaces; and the Electronic Structure of Solid Surfaces.
Professor Jenkins discusses his research
Publications
2D constraint modifies packing behaviour: a halobenzene monolayer with X3 halogen-bonding motif.
Molecular Physics
(2021)
119
e1900940
Halogen Bonding in Bicomponent Monolayers: Self-Assembly of a Homologous Series of Iodinated Perfluoroalkanes with Bipyridine.
Langmuir
(2021)
37
627
(doi: 10.1021/acs.langmuir.0c02126)
C-H...N hydrogen bonding in an overlayer of s-triazine physisorbed on a graphite surface
Mol Phys
(2019)
118
e1706777
Direct Correlation between Adsorption Energetics and Nuclear Spin Relaxation in a Liquid-saturated Catalyst Material.
Chemphyschem : a European journal of chemical physics and physical chemistry
(2018)
19
2472
(doi: 10.1002/cphc.201800513)
Direct Correlation between Adsorption Energetics and Nuclear Spin Relaxation in a Liquid‐saturated Catalyst Material
Chemphyschem
(2018)
19
2448
(doi: 10.1002/cphc.201800836)
Front Cover: Direct Correlation between Adsorption Energetics and Nuclear Spin Relaxation in a Liquid‐saturated Catalyst Material (ChemPhysChem 19/2018)
ChemPhysChem
(2018)
19
2445
(doi: 10.1002/cphc.201800837)
Adsorption of alcohols and hydrocarbons on nonstoichiometric cementite{010} surfaces.
Physical chemistry chemical physics : PCCP
(2018)
20
14133
(doi: 10.1039/c8cp01028e)
Diophantine Approach to the Classification of Two-Dimensional Lattices: Surfaces of Face-Centred Cubic Materials
Langmuir : the ACS journal of surfaces and colloids
(2018)
34
4095
(doi: 10.1021/acs.langmuir.8b00206)
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