Professor Stephen Jenkins | Surface Science Group

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.

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Professor Jenkins discusses his research

Publications

The Limits to Spin-Polarization in Finite-Temperature Half-Metallic Ferromagnets

PA Dowben, SJ Jenkins

(2005)

295

(doi: 10.1007/3-540-27284-4_11)

Ternary half-metallics and related binary compounds: Stoichiometry, surface states, and spin

SJ Jenkins

Physical Review B Condensed Matter and Materials Physics

(2004)

70

1

(doi: 10.1103/physrevb.70.245401)

Car Exhaust Catalysis from First Principles: Selective NO Reduction under Excess O2 Conditions on Ir.

Z Liu, SJ Jenkins, DA King

ChemInform

(2004)

35

no

(doi: 10.1002/chin.200445018)

Role of nanostructured dual-oxide supports in enhanced catalytic activity: Theory of CO oxidation over Au/IrO2/TiO2

ZP Liu, SJ Jenkins, DA King

Physical Review Letters

(2004)

93

1

(doi: 10.1103/PhysRevLett.93.156102)

Role of nanostructured dual-oxide supports in enhanced catalytic activity: Theory of CO oxidation over Au/IrO₂/TiO₂ - art. no. 156102

Z-P Liu, SJ Jenkins, DA King

Phys Rev Lett

(2004)

93

156102

(doi: 10.1103/physrevlett.93.156102)

Car exhaust catalysis from first principles: Selective NO reduction under excess O2 conditions on Ir

ZP Liu, SJ Jenkins, DA King

Journal of the American Chemical Society

(2004)

126

10746

(doi: 10.1021/ja0481833)

Driving forces for self-organized coadsorption: C6H 6/2O and C6H6/2CO on Ni{111}

S Yamagishi, SJ Jenkins, DA King

Journal of the American Chemical Society

(2004)

126

10962

(doi: 10.1021/ja048589y)

Why is silver catalytically active for NO reduction? A unique pathway via an inverted (NO)2 dimer

ZP Liu, SJ Jenkins, DA King

Journal of the American Chemical Society

(2004)

126

7336

(doi: 10.1021/ja049126c)

Theory of Methane Dehydrogenation on Pt{110}(1 × 2). Part I: Chemisorption of CH_x(x= 0 −3)

MA Petersen, SJ Jenkins, DA King

The Journal of Physical Chemistry B

(2004)

108

5909

(doi: 10.1021/jp037880z)

Theory of Methane Dehydrogenation on Pt{110}(1 × 2). Part II: Microscopic Reaction Pathways for CH x → CH x - 1 (x = 1−3)

MA Petersen, SJ Jenkins, DA King

The Journal of Physical Chemistry B

(2004)

108

5920

(doi: 10.1021/jp037881r)