Publications

Journal Articles

  1. & Cluster Beam Deposition of Ultrafine Cobalt and Ruthenium Clusters for Efficient and Stable Oxygen Evolution Reaction. ACS Applied Energy Materials 1(7), 3013-3018.
  2. & Controlled Manipulation of Magic Number Gold–Fullerene Clusters Using Scanning Tunneling Microscopy. Langmuir 34(28), 8388-8392.
  3. & Synthesis without Solvents: The Cluster (Nanoparticle) Beam Route to Catalysts and Sensors. Accounts of Chemical Research 51(9), 2296-2304.
  4. & Exposure of mass-selected bimetallic Pt–Ti nanoalloys to oxygen explored using scanning transmission electron microscopy and density functional theory. RSC Advances 8(48), 27276-27282.
  5. & Ultrafast Heat Flow in Heterostructures of Au Nanoclusters on Thin Films: Atomic Disorder Induced by Hot Electrons. ACS Nano 12(8), 7710-7720.
  6. & High-selectivity palladium catalysts for the partial hydrogenation of alkynes by gas-phase cluster deposition onto oxide powders. Catalysis, Structure & Reactivity 4(2), 1-8.
  7. & Bridge-bonded methylthiolate on Au(111) observed with the scanning tunneling microscope. Physical Chemistry Chemical Physics 20(29), 19486-19491.
  8. & Orientational Epitaxy of van der Waals Molecular Heterostructures. Nano Letters 18(8), 5257-5261.
  9. & Hydrogen evolution enhancement of ultra-low loading, size-selected molybdenum sulfide nanoclusters by sulfur enrichment. Applied Catalysis B: Environmental 235, 84-91.
  10. & Unravelling the nucleation mechanism of bimetallic nanoparticles with composition-tunable core–shell arrangement. Nanoscale 10(14), 6684-6694.
  11. & MoS 2 and WS 2 nanocone arrays: Impact of surface topography on the hydrogen evolution electrocatalytic activity and mass transport. Applied Materials Today 11, 70-81.
  12. & Experimental determination of the energy difference between competing isomers of deposited, size-selected gold nanoclusters. Nature Communications 9(1)
  13. & Reduced sintering of mass-selected Au clusters on SiO2 by alloying with Ti: an aberration-corrected STEM and computational study. Nanoscale 10(5), 2363-2370.
  14. & Performance of Preformed Au/Cu Nanoclusters Deposited on MgO Powders in the Catalytic Reduction of 4-Nitrophenol in Solution. Small, 1703734
  15. & Formation and emission mechanisms of Ag nanoclusters in the Ar matrix assembly cluster source. Physical Review Materials 1(6)
  16. & A High Resolution Study of Dynamic Changes of Ce2O3 and CeO2 Nanoparticles in Complex Environmental Media. Environmental Science & Technology 51(14), 8010-8016.
  17. & Quantum chemical approach to atomic manipulation of chlorobenzene on the Si(111)-7×7 surface: Resonance localization, vibrational activation, and surface dynamics. Physical Review Materials 1(2)
  18. & Exploring the atomic structure of 1.8 nm monolayer-protected gold clusters with aberration-corrected STEM. Ultramicroscopy 176, 146-150.
  19. & A proximal retarding field analyzer for scanning probe energy loss spectroscopy. Nanotechnology 28(10), 105711
  20. & Tandem Site- and Size-Controlled Pd Nanoparticles for the Directed Hydrogenation of Furfural. ACS Catalysis 7(4), 2266-2274.
  21. & Modification of Deposited, Size-Selected MoS2 Nanoclusters by Sulphur Addition: An Aberration-Corrected STEM Study. Inorganics 5(1), 1
  22. & Development of scalable and versatile nanomaterial libraries for nanosafety studies: polyvinylpyrrolidone (PVP) capped metal oxide nanoparticles. RSC Advances 7(7), 3894-3906.
  23. & A new method to prepare colloids of size-controlled clusters from a matrix assembly cluster source. APL Materials 5(5), 053405
  24. & Towards production of novel catalyst powders from supported size-selected clusters by multilayer deposition and dicing. Nanotechnology 28(32), 325601
  25. & Crystallinity depends on choice of iron salt precursor in the continuous hydrothermal synthesis of Fe–Co oxide nanoparticles. RSC Advances 7(59), 37436-37440.
  26. & Tip-triggered Thermal Cascade Manipulation of Magic Number Gold–Fullerene Clusters in the Scanning Tunnelling Microscope. Nano Letters
  27. & Electrochemical sulfidation of WS 2 nanoarrays: Strong dependence of hydrogen evolution activity on transition metal sulfide surface composition. Electrochemistry Communications 81, 106-111.
  28. & Initiating and imaging the coherent surface dynamics of charge carriers in real space. Nature Communications 7, 12839
  29. & Performance of a high resolution chemically amplified electron beam resist at various beam energies. Microelectronic Engineering 155, 97-101.
  30. & The cluster beam route to model catalysts and beyond. Faraday Discussions 188, 39-56.
  31. & Surface-induced symmetry reduction in molecular switching: asymmetric cis–trans switching of CH3S-Au-SCH3on Au(111). Nanoscale 8(47), 19787-19793.
  32. & Site-Specific Assembly of Fullerene Nanorings Guided by Two-Dimensional Gold Clusters. The Journal of Physical Chemistry C 120(20), 10975-10981.
  33. & Note: Production of silver nanoclusters using a Matrix-Assembly Cluster Source with a solid CO2 matrix. The Journal of Chemical Physics 145(16), 166101
  34. & Morphology of the ferritin iron core by aberration corrected scanning transmission electron microscopy. Nanotechnology 27(46), 46LT02
  35. & High Resolution STEM-EELS Study of Silver Nanoparticles Exposed to Light and Humic Substances. Environmental Science & Technology 50(5), 2183-2190.
  36. & Enhancement of the Hydrogen Evolution Reaction from Ni-MoS2 Hybrid Nanoclusters. ACS Catalysis 6(9), 6008-6017.
  37. & Electrocatalytic regeneration of atmospherically aged MoS2 nanostructures via solution-phase sulfidation. RSC Advances 6(32), 26689-26695.
  38. & Note: Proof of principle of a new type of cluster beam source with potential for scale-up. Review of Scientific Instruments 87(4), 046103
  39. & Atomically resolved real-space imaging of hot electron dynamics. Nature Communications 6(1)
  40. & Variation of the Core Atomic Structure of Thiolated (AuxAg1–x)312±55 Nanoclusters with Composition from Aberration-Corrected HAADF STEM. The Journal of Physical Chemistry C 119(20), 11114-11119.
  41. & Using size-selected gold clusters on graphene oxide films to aid cryo-transmission electron tomography alignment. Scientific Reports 5(1)
  42. Transformations of citrate and Tween coated silver nanoparticles reacted with Na2S.
  43. & The size-dependent morphology of Pd nanoclusters formed by gas condensation. Nanoscale 7(46), 19647-19652.
  44. & Tailoring Gold Nanoparticle Characteristics and the Impact on Aqueous-Phase Oxidation of Glycerol. ACS Catalysis 5(7), 4377-4384.
  45. & Structural analysis of a nanoparticle containing a lipid bilayer used for detergent-free extraction of membrane proteins. Nano Research 8(3), 774-789.
  46. & Simple metal under tensile stress: layer-dependent herringbone reconstruction of thin potassium films on graphite. Scientific Reports 5(1)
  47. & Real-space Wigner-Seitz Cells Imaging of Potassium on Graphite via Elastic Atomic Manipulation. Scientific Reports 5(1)
  48. & Pt Diffusion Dynamics for the Formation Cr–Pt Core–Shell Nanoparticles. Langmuir 31(24), 6917-6923.
  49. Protein immobilisation by size-selected metal nanoclusters for AFM imaging and biosensing.
  50. & Modular construction of size-selected multiple-core Pt–TiO2 nanoclusters for electro-catalysis. Physical Chemistry Chemical Physics 17(42), 28005-28009.
  51. & Metastability of the atomic structures of size-selected gold nanoparticles. Nanoscale 7(15), 6498-6503.
  52. & Mapping the site-specific potential energy landscape for chemisorbed and physisorbed aromatic molecules on the Si(1 1 1)-7 × 7 surface by time-lapse STM. Journal of Physics: Condensed Matter 27(5), 054003
  53. & Mapping the plasmon response of Ag nanoislands on graphite at 100 nm resolution with scanning probe energy loss spectroscopy. Applied Physics Express 8(12), 126601
  54. & Hybrid atomic structure of the Schmid cluster Au55(PPh3)12Cl6 resolved by aberration-corrected STEM. Nanoscale 7(3), 885-888.
  55. & Chromium inhibition and size-selected Au nanocluster catalysis for the solution growth of low-density ZnO nanowires. Scientific Reports 5(1)
  56. & Atomic Resolution Observation of a Size-Dependent Change in the Ripening Modes of Mass-Selected Au Nanoclusters Involved in CO Oxidation. Journal of the American Chemical Society 137(48), 15161-15168.
  57. & Alginate-Iron Speciation and Its Effect on In Vitro Cellular Iron Metabolism. PLOS ONE 10(9), e0138240
  58. & The effects of 1-pentyne hydrogenation on the atomic structures of size-selected AuNand PdN(N = 923 and 2057) nanoclusters. Phys. Chem. Chem. Phys. 16(48), 26631-26637.
  59. & Spin-on Carbon using Fullerene derivatives.
  60. & Size-dependent propagation of Au nanoclusters through few-layer graphene. Nanoscale 6(3), 1258-1263.
  61. & Quantum Chemical Cluster Models for Chemi- and Physisorption of Chlorobenzene on Si(111)-7×7. The Journal of Physical Chemistry A 118(33), 6699-6704.
  62. & Optimization of Fullerene-based Negative tone Chemically Amplified Fullerene Resist for Extreme Ultraviolet Lithography.
  63. & Non-Local Atomic Manipulation on Semiconductor Surfaces in the STM: The Case of Chlorobenzene on Si(111)-7×7. The Chemical Record 14(5), 841-847.
  64. & Fabrication and atomic structure of size-selected, layered MoS2clusters for catalysis. Nanoscale 6(21), 12463-12469.
  65. & Enhanced Immobilization of Gold Nanoclusters on Graphite. The Journal of Physical Chemistry A 118(37), 8182-8187.
  66. & Concerted Thermal-Plus-Electronic Nonlocal Desorption of Chlorobenzene from Si(111)-7 × 7 in the STM. The Journal of Physical Chemistry Letters 5(20), 3551-3554.
  67. & Chemically amplified phenolic fullerene electron beam resist. Journal of Materials Chemistry C 2(8), 1505
  68. Atomic structure and applications of supported, size-selected metal nanoclusters - and prospects for super-abundant production.
  69. & Atomic Structure Control of Size-Selected Gold Nanoclusters during Formation. Journal of the American Chemical Society 136(21), 7559-7562.
  70. & Synthesis and Characterization of Polyvinylpyrrolidone Coated Cerium Oxide Nanoparticles. Environmental Science & Technology 47(21), 12426-12433.
  71. & Spin-on-carbon hardmask based on fullerene derivatives for high-aspect ratio etching.
  72. & Spin-on carbon based on fullerene derivatives as hardmask materials for high-aspect-ratio etching. Journal of Micro/Nanolithography, MEMS, and MOEMS 12(3), 033003
  73. & Size and shape of industrial Pd catalyst particles using size-selected clusters as mass standards. Applied Physics Letters 102(16), 163103
  74. & Performance of negative tone chemically amplified fullerene resists in extreme ultraviolet lithography. Journal of Micro/Nanolithography, MEMS, and MOEMS 12(3), 033010
  75. & How Nanoscience Translates into Technology: The Case of Self-Assembled Monolayers, Electron-Beam Writing, and Carbon Nanomembranes. ACS Nano 7(8), 6416-6421.
  76. Gold doped cobalt oxide nanocatalysts: An in-situ-investigation using synchrotron radiation.
  77. & EUV lithography performance of negative-tone chemically amplified fullerene resist.
  78. & Catalytic oxidation of cyclohexane by size-selected palladium clusters pinned on graphite. Journal of Experimental Nanoscience 8(7-8), 993-1003.
  79. Towards nanostructured graphene through the deposition of size-selected clusters.
  80. & Synthesis of bimetallic Pt-Pd core-shell nanocrystals and their high electrocatalytic activity modulated by Pd shell thickness. Nanoscale 4(3), 845-851.
  81. & Preparing and regulating a bi-stable molecular switch by atomic manipulation. Journal of Physics: Condensed Matter 24(39), 394014
  82. & Positive tone chemically amplified fullerene resist.
  83. et. al. Oxidative Dehydrogenation of Cyclohexane on Cobalt Oxide (Co3O4) Nanoparticles: The Effect of Particle Size on Activity and Selectivity. ACS Catalysis 2(11), 2409-2423.
  84. & Novel Powder-Supported Size-Selected Clusters for Heterogeneous Catalysis under Realistic Reaction Conditions. The Journal of Physical Chemistry C 116(50), 26295-26299.
  85. & Mass Spectrometry and Dynamics of Gold Adatoms Observed on the Surface of Size-Selected Au Nanoclusters. Nano Letters 12(1), 91-95.
  86. & High aspect ratio etching using a fullerene derivative spin-on-carbon hardmask.
  87. & Fullerene-based spin-on-carbon hardmask. Microelectronic Engineering 98, 552-555.
  88. & Formation of bimetallic nanoalloys by Au coating of size-selected Cu clusters. Journal of Nanoparticle Research 14(10)
  89. & Experimental Evidence for Fluctuating, Chiral-Type Au55 Clusters by Direct Atomic Imaging. Nano Letters 12(11), 5510-5514.
  90. & Direct atomic imaging and dynamical fluctuations of the tetrahedral Au20 cluster. Nanoscale 4(16), 4947
  91. & Determination of the Ground-State Atomic Structures of Size-Selected Au Nanoclusters by Electron-Beam-Induced Transformation. Physical Review Letters 108(24)
  92. Chemically amplified fullerene resists, spin-on fullerene hardmasks and high aspect ratio etching.
  93. & Au40(SR)24 Cluster as a Chiral Dimer of 8-Electron Superatoms: Structure and Optical Properties. Journal of the American Chemical Society 134(48), 19560-19563.
  94. & Ageing of mass-selected Cu/Au and Au/Cu core/shell clusters probed with atomic resolution. Journal of Experimental Nanoscience 7(6), 703-710.
  95. & Site- and Energy-Selective Intramolecular Manipulation of Polychlorinated Biphenyl (PCB) Molecules. Journal of the American Chemical Society 133(31), 11834-11836.
  96. & Real-Space Observation of Prolate Monolayer-Protected Au38 Clusters Using Aberration-Corrected Scanning Transmission Electron Microscopy. Small 7(11), 1542-1545.
  97. & Quantitative Z-contrast imaging in the scanning transmission electron microscope with size-selected clusters. Physical Review B 84(7)
  98. & Plasma Etching of High-resolution Features in a Fullerene Molecular Resist.
  99. New mechanism of atomic manipulation: Bond-selective molecular dissociation via thermally activated electron attachment.
  100. Heterogeneous catalysis by novel size-selected nanocluster powders.
  101. Counting the atoms in supported, monolayer-protected gold nanoclusters.
  102. & Controlled Formation of Mass-Selected Cu–Au Core–Shell Cluster Beams. Journal of the American Chemical Society 133(27), 10325-10327.
  103. & Communication: Suppression of sintering of size-selected Pd clusters under realistic reaction conditions for catalysis. The Journal of Chemical Physics 134(14), 141101
  104. & Scanning probe energy loss spectroscopy with microfabricated coaxial tips. Physical Review B 81(16)
  105. & Nonlocal Desorption of Chlorobenzene Molecules from theSi(111)−(7×7)Surface by Charge Injection from the Tip of a Scanning Tunneling Microscope: Remote Control of Atomic Manipulation. Physical Review Letters 105(4)
  106. & Fabrication of co-axial field emitter tips for scanning probe energy loss spectroscopy. Nanotechnology 21(15), 155304
  107. & Counting the Atoms in Supported, Monolayer-Protected Gold Clusters. Journal of the American Chemical Society 132(9), 2854-2855.
  108. & Charge transport in nanocrystal wires created by direct electron beam writing. Micro & Nano Letters 5(5), 274
  109. & Calibrating thermal and scanning tunnelling microscope induced desorption and diffusion for the chemisorbed chlorobenzene/Si(111)7 × 7 system. Journal of Physics: Condensed Matter 22(8), 084002
  110. & Acoustic Plasmon on the Au(111) Surface. Physical Review Letters 105(1)
  111. & A New Mechanism of Atomic Manipulation: Bond-Selective Molecular Dissociation via Thermally Activated Electron Attachment. ACS Nano 4(12), 7344-7348.
  112. & Ultrafast laser ablation of graphite. Physical Review B 79(18)
  113. & Plasmon Dispersion of the Au(111) Surface with and without Self-Assembled Monolayers. Physical Review Letters 102(21)
  114. & Low Activation Energy Fullerene Molecular Resist.
  115. & Local secondary-electron emission spectra of graphite and gold surfaces obtained using the Scanning Probe Energy Loss Spectrometer (SPELS). Journal of Physics: Condensed Matter 21(47), 474206
  116. & Direct Electron-Beam Writing of Highly Conductive Wires in Functionalized Fullerene Films. Small 5(23), 2750-2755.
  117. & Critical stability of gold nanofingers on a zero-gradient stepped surface. Journal of Physics: Condensed Matter 21(44), 445001
  118. & Bright Beaches of Nanoscale Potassium Islands on Graphite in STM Imaging. Physical Review Letters 102(10)
  119. & Bias-dependent scanning tunneling microscopy investigation of potassium adsorption on aSi(111)−7×7surface. Physical Review B 80(7)
  120. & Weighing Supported Nanoparticles: Size-Selected Clusters as Mass Standards in Nanometrology. Physical Review Letters 101(24)
  121. & Weak precursor state binding of protein molecules to size-selected gold nanoclusters on surfaces. Surface Science 602(4), 1006-1009.
  122. & Three-dimensional atomic-scale structure of size-selected gold nanoclusters. Nature 451(7174), 46-48.
  123. & The C60/Au(111) interface at room temperature: A scanning tunnelling microscopy study. Surface Science 602(4), 885-892.
  124. & Surface plasmon excitation of Au and Ag in scanning probe energy loss spectroscopy. Applied Physics Letters 93(21), 213109
  125. & Structures and optical properties of 4–5 nm bimetallic AgAu nanoparticles. Faraday Discuss. 138, 363-373.
  126. & Selective resonance population in high resolution electron energy loss spectroscopy of 4-ethylbenzenethiol self-assembled monolayers on Au(111). Surface Science 602(7), 1492-1496.
  127. & Seed induced growth of binary Ag/Au nanostructures on a graphite surface. Applied Physics Letters 93(12), 123107
  128. & Optical coupling of core-shell quantum dots to size-selected gold clusters. Journal of Applied Physics 104(9), 094316
  129. & Nonlinearity and time-resolved studies of ion emission in ultrafast laser ablation of graphite. Applied Physics A 92(4), 999-1004.
  130. & High-resolution detection of Au catalyst atoms in Si nanowires. Nature Nanotechnology 3(3), 168-173.
  131. & Fullerene Resist Materials for the 32 nm Node and Beyond. Advanced Functional Materials 18(13), 1977-1982.
  132. & Chemically amplified molecular resists for e-beam lithography. Microelectronic Engineering 85(5-6), 764-767.
  133. & Blue-shifted plasmon resonance of individual size-selected gold nanoparticles. Optics Communications 281(3), 480-483.
  134. & Anomalous acid diffusion in a triphenylene molecular resist with melamine crosslinker. Microelectronic Engineering 85(7), 1540-1544.
  135. & Adsorption of a model protein, the GroEL chaperonin, on surfaces. Journal of Physics: Condensed Matter 20(35), 353001
  136. & A high resolution water soluble fullerene molecular resist for electron beam lithography. Nanotechnology 19(27), 275308
  137. & Patterned films of size-selected Au clusters on optical substrates. Journal of Applied Physics 101(4), 044304
  138. & Nanoscopic Coulomb explosion in ultrafast graphite ablation. Applied Physics Letters 90(15), 153119
  139. & Immobilisation of proteins by atomic clusters on surfaces. Trends in Biotechnology 25(2), 48-55.
  140. & Emission of ions and charged clusters due to impulsive Coulomb explosion in ultrafast laser ablation of graphite. Physical Review B 76(7)
  141. & Combining Theory and Experiment to Characterize the Atomic Structures of Surface-Deposited Au309Clusters†. The Journal of Physical Chemistry C 111(48), 17846-17851.
  142. & Chemical Amplification of a Triphenylene Molecular Electron Beam Resist. Advanced Functional Materials 17(14), 2522-2527.
  143. & A Chemically Amplified Fullerene-Derivative Molecular Electron-Beam Resist. Small 3(12), 2076-2080.
  144. & Ultrathin Fullerene Films as High-Resolution Molecular Resists for Low-Voltage Electron-Beam Lithography. Small 2(8-9), 1003-1006.
  145. & Sintering of Passivated Gold Nanoparticles under the Electron Beam. Langmuir 22(6), 2851-2855.
  146. & Pinning of size-selected Pd nanoclusters on graphite. The Journal of Chemical Physics 125(8), 084704
  147. & Needles and clusters of zinc porphyrin molecules on mica. Surface Science 600(16), 3274-3279.
  148. & Nanostructured Gold Surfaces Fabricated with the Scanning Tunnelling Microscope. Japanese Journal of Applied Physics 45(3B), 2053-2055.
  149. & Nanoscale surface recrystallization driven by localized electric field. Physical Review B 73(7)
  150. & Modeling the pinning of Au and Ni clusters on graphite. Physical Review B 73(12)
  151. & Manipulation of polyatomic molecules with the scanning tunnelling microscope at room temperature: chlorobenzene adsorption and desorption from Si(111)-(7 × 7). Journal of Physics: Condensed Matter 18(33), S1873-S1885.
  152. & Local Secondary-Electron Emission Spectra via Scanning Probe Energy Loss Spectroscopy. Small 2(6), 744-746.
  153. & Immobilization of large size-selected silver clusters on graphite. Nanotechnology 17(3), 805-807.
  154. & Faceting of nanoscale fingers on the (111) surface of gold. Surface Science 600(7), 1504-1509.
  155. & Efficient vacuum ultraviolet light frequency downconversion by thin films of CdSe quantum dots. Applied Physics Letters 88(17), 171105
  156. & Co-deposition of Atomic Clusters of Different Size and Composition. Small 2(11), 1270-1272.
  157. & Chemically amplified molecular resists for electron beam lithography. Microelectronic Engineering 83(4-9), 1115-1118.
  158. COLL 557-Bond-selective single molecule manipulation at room temperature.
  159. & Bioluminescence of Monolayers of Firefly Luciferase Immobilized on Graphite. Langmuir 22(12), 5451-5454.
  160. & Two-electron dissociation of single molecules by atomic manipulation at room temperature. Nature 434(7031), 367-371.
  161. & Tip-State Control of Rates and Branching Ratios in Atomic Manipulation. Nano Letters 5(5), 835-839.
  162. & Structural dynamics induced by self-assembled monolayers on Au(111). Physical Review B 71(3)
  163. & Size-selected cluster beam source based on radio frequency magnetron plasma sputtering and gas condensation. Review of Scientific Instruments 76(4), 045103
  164. & Residue-specific immobilization of protein molecules by size-selected clusters. Journal of The Royal Society Interface 2(3), 169-175.
  165. & Pinning of size-selected gold and nickel nanoclusters on graphite. Physical Review B 72(7)
  166. New developments in nanotechnology: An overview.
  167. & Nanoparticle Arrays Patterned by Electron-Beam Writing:  Structure, Composition, and Electrical Properties. Langmuir 21(4), 1556-1559.
  168. & Local Three-Dimensional Visualization of Nanoparticle Assemblies. Advanced Materials 17(23), 2885-2888.
  169. & High-Temperature Stability of Size-Selected Gold Nanoclusters Pinned on Graphite. Advanced Materials 17(6), 731-734.
  170. & Giant contrast reversal in scanning tunnelling microscopy of zincporphyrin monolayers on graphite. Chemical Physics Letters 402(1-3), 121-125.
  171. & Electrostatically Stabilised Nanoparticles: Self-Organization and Electron-Beam Patterning. Journal of Nanoscience and Nanotechnology 5(11), 1826-1831.
  172. & Direct imaging of core-shell structure in silver-gold bimetallic nanoparticles. Applied Physics Letters 87(24), 243103
  173. & Beyond the Herringbone Reconstruction: Magic Gold Fingers. Small 1(1), 76-79.
  174. Special section on mass-selected clusters. Current Opinion in Solid State and Materials Science 8(3-4), 183-184.
  175. & Scanning probe energy loss spectroscopy below 50nm resolution. Applied Physics Letters 85(21), 5034-5036.
  176. Organizing atoms: manipulation of matter on the sub-10nm scale - Papers of a discussion meeting held at the Royal Society on 15 and 16 October 2003 - Preface.
  177. & Immobilization of Protein Molecules by Size-Selected Metal Clusters on Surfaces. Advanced Materials 16(3), 223-226.
  178. & Gold Nanoparticle Patterning of Silicon Wafers Using Chemical e-Beam Lithography. Langmuir 20(9), 3766-3768.
  179. & Fabrication of ordered arrays of silicon cones by optical diffraction in ultrafast laser etching with SF6. Applied Physics A 78(3), 381-385.
  180. & Fabrication of nanoscale vertical colloid device architectures. Microelectronic Engineering 73-74, 542-546.
  181. & Deposition of size-selected metal clusters generated by magnetron sputtering and gas condensation: a progress review. Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 362(1814), 117-124.
  182. Decoration of surfaces with size-selected clusters and molecular manipulation at room temperature: precision and uncertainty in organizing atoms.
  183. & Clusters for biology: immobilization of proteins by size-selected metal clusters. Applied Surface Science 226(1-3), 197-208.
  184. & Supramolecular Monolayers of Zinc Porphyrin Trimers on Graphite. The Journal of Physical Chemistry B 107(1), 209-216.
  185. & Scaling Relations for Implantation of Size-Selected Au, Ag, and Si Clusters into Graphite. Physical Review Letters 90(5)
  186. & Patterned arrays of porous InP from photolithography and electrochemical etching. Journal of Applied Physics 94(12), 7598
  187. & Nanostructures from nanoparticles. Journal of Physics: Condensed Matter 15(42), S3047-S3063.
  188. & Nanostructured surfaces from size-selected clusters. Nature Materials 2(7), 443-448.
  189. Nanostructured surfaces - Preface.
  190. & Metastable ordered arrays of size-selected Ag clusters on graphite. Applied Physics Letters 82(16), 2595-2597.
  191. & Mechanisms of Molecular Manipulation with the Scanning Tunneling Microscope at Room Temperature: Chlorobenzene/Si(111)−(7×7). Physical Review Letters 91(11)
  192. & Liquid phase deposition of supramolecular monolayers of zinc porphyrin molecules on graphite. Journal of Physics: Condensed Matter 15(42), S3127-S3138.
  193. & Insight into the Partial Oxidation of Propene:  The Reactions of 2-Propen-1-ol on Clean and O-Covered Mo(110). Journal of the American Chemical Society 125(43), 13252-13257.
  194. & Growth of Densely Packed Gold Nanoparticles on Graphite Using Molecular Templates. Advanced Materials 15(13), 1084-1087.
  195. & Colloidal Lines and Strings. Langmuir 19(23), 9669-9671.
  196. & Chemisorption of benzene and STM dehydrogenation products on Cu(100). Physical Review B 68(15)
  197. & Characterization of size-selected metal clusters implanted below the surface of graphite. Journal of Applied Physics 93(8), 4820-4823.
  198. & Annealing effects on the microstructure of sputtered gold layers on oxidized silicon investigated by scanning electron microscopy and scanning probe microscopy. Philosophical Magazine 83(9), 1137-1142.
  199. & Vacuum ultraviolet surface photochemistry of water adsorbed on graphite. The Journal of Chemical Physics 117(14), 6667-6672.
  200. & Surface photochemistry induced by ultrafast pulses of vacuum ultraviolet light: Physisorbed oxygen on graphite. Physical Review B 66(23)
  201. & Scanning probe energy loss spectroscopy. Surface Science 502-503, 224-231.
  202. & Scaling behavior of the penetration depth of energetic silver clusters in graphite. Physical Review B 65(16)
  203. & Pinning and implantation of size-selected metal clusters: a topical review. Vacuum 66(2), 167-173.
  204. New directions in nanoscience: new challenges for surface analysis. Surface and Interface Analysis 34(1), 3-9.
  205. & Microfabrication of silicon tip structures for multiple-probe scanning tunneling microscopy. Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures 20(1), 364
  206. & Mechanisms of visible photoluminescence from nanoscale silicon cones. Journal of Applied Physics 91(5), 3294-3298.
  207. & Layer by layer removal of Au atoms from passivated Au(111) surfaces using the scanning tunneling microscope: Nanoscale “paint stripping”. The Journal of Chemical Physics 116(16), 7151-7157.
  208. & Implantation depth of size-selected silver clusters into graphite. Journal of Physics: Condensed Matter 14(8), L185-L191.
  209. & Imaging thin films of organic molecules with the scanning tunnelling microscope. Physical Chemistry Chemical Physics 4(18), 4275-4284.
  210. & HREELS studies of gold nanoparticles with dialkyl sulphide ligands. Surface Science 502-503, 208-213.
  211. & Fabrication of ordered arrays of silicon nanopillars at selected sites. Journal of Physics D: Applied Physics 35(5), L11-L14.
  212. & Fabrication of Ordered Arrays of InP Microstructures by Wet Chemical Etching with Au Masks. Journal of Nanoscience and Nanotechnology 2(6), 627-630.
  213. & Dialkyl Sulfides:  Novel Passivating Agents for Gold Nanoparticles. Langmuir 18(5), 1791-1795.
  214. & Design and fabrication of colloid-based vertical nanoscale devices. Microelectronic Engineering 61-62, 681-686.
  215. & Controlling the formation of Au nanoparticles using functionalized molecular buffer layers. Surface Science 497(1-3), 269-274.
  216. & Amorphous structures of Cu, Ag, and Au nanoclusters from first principles calculations. The Journal of Chemical Physics 117(21), 9548-9551.
  217. X-ray/UV source by generation of high-order harmonics: Potential applications to the physics of surfaces.
  218. & Vibrational spectroscopy of cinnamaldehyde on graphite and supported Pd islands. Applied Surface Science 178(1-4), 1-6.
  219. & Tunable pulsed vacuum ultraviolet light source for surface science and materials spectroscopy based on high order harmonic generation. Review of Scientific Instruments 72(4), 1977-1983.
  220. & Quantitative evaluation of electron beam writing in passivated gold nanoclusters. Applied Physics Letters 78(13), 1921-1923.
  221. & Mechanism of electron-beam writing in passivated gold nanoclusters. Applied Physics Letters 78(14), 2061-2063.
  222. & Measuring the implantation depth of silver clusters in graphite. The European Physical Journal D 16(1), 115-118.
  223. & Low energy deposition of size-selected Si clusters onto graphite. Chemical Physics Letters 333(3-4), 304-307.
  224. Laser etching processes: Towards sub-picosecond X-UV irradiation.
  225. & Interaction of passivated clusters in solution with micro-patterned surfaces: guided flow versus defect pinning. Nanotechnology 12(1), 6-10.
  226. & Implantation of Pt3-and Ag3-clusters into graphite: an STM study. Journal of Physics: Condensed Matter 13(9), 1869-1872.
  227. & Imaging surfaces with reflected electrons from a field emission scanning tunnelling microscope: image contrast mechanisms. Journal of Physics D: Applied Physics 34(12), 1849-1852.
  228. & Guided Assembly of Colloidal Particles on Patterned Substrates. Langmuir 17(22), 7150-7155.
  229. & Fabrication of ordered arrays of silicon nanopillars in silicon-on-insulator wafers. Microelectronic Engineering 57-58, 919-924.
  230. & Electron beam lithography in passivated gold nanoclusters. Microelectronic Engineering 57-58, 837-841.
  231. & Deep plasma etching of piezoelectric PZT with SF[sub 6]. Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures 19(6), 2020
  232. The effect of etchant composition on film structure during laser-assisted porous Si growth.
  233. Structural properties of self-organized organo-silicon macromolecular films investigated by scanning tunneling microscopy and X-ray diffraction.
  234. & Shallow Implantation of “Size-Selected” Ag Clusters into Graphite. Physical Review Letters 84(12), 2654-2657.
  235. & Scanning probe energy loss spectroscopy: Angular resolved measurements on silicon and graphite surfaces. Applied Physics Letters 77(25), 4223-4225.
  236. & STM studies of passivated Au nanocrystals immobilised on a passivated Au(111) surface: ordered arrays and single electron tunnelling. Chemical Physics Letters 330(1-2), 1-6.
  237. & Polysubstituted derivatives of triphenylene as high resolution electron beam resists for nanolithography. Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures 18(6), 2730
  238. & Pinning of size-selected Ag clusters on graphite surfaces. The Journal of Chemical Physics 113(18), 7723-7727.
  239. & Orientational and translational ordering of sub-monolayer films of passivated multiply-twinned gold clusters. Journal of Physics D: Applied Physics 33(2), L23-L26.
  240. & On the role of the pore filling medium in photoluminescence from photochemically etched porous silicon. Journal of Applied Physics 88(5), 2472-2479.
  241. & Nucleation and growth of C60 thin films on graphite. Surface Science 447(1-3), 126-132.
  242. & Negative ion resonances of O2adsorbed on Ag surfaces. Journal of Physics: Condensed Matter 12(6), R53-R82.
  243. & Negative ion resonance states of SF6 physisorbed on the graphite surface investigated by high-resolution electron energy loss spectroscopy. Surface Science 465(1-2), 76-80.
  244. In situ photoluminescence studies of photochemically grown porous silicon.
  245. & Implantation of size-selected Si clusters into graphite. Applied Physics Letters 77(19), 3003-3005.
  246. & HREELS study of alkanethiol passivated gold clusters on graphite. Surface Science 454-456, 963-967.
  247. & Dissociation and desorption of ferrocene on graphite by low energy electron impact. Surface Science 451(1-3), 250-254.
  248. & Direct electron beam writing of nanostructures using passivated gold clusters. Microelectronic Engineering 53(1-4), 187-190.
  249. & Desorption of organic species from the GaAs (100) surface at low temperatures using low energy electron irradiation in a hydrogen ambient. Applied Physics Letters 76(21), 3034-3036.
  250. & A triphenylene derivative as a novel negative/positive tone resist of 10 nanometer resolution. Microelectronic Engineering 53(1-4), 425-428.
  251. & Surface plasmon dispersion of a cluster-assembled silver nanoparticle film. Physical Review B 59(15), 9874-9877.
  252. & Self-assembly of size-selected colloidal metal clusters: Crystalline descriptions of non-close-packed arrangements. Philosophical Magazine Letters 79(8), 569-574.
  253. & Selective area oxide desorption by electron irradiation in a H2 ambient on GaAs (100). Applied Physics Letters 74(7), 950-952.
  254. & Reactive ion etching of piezoelectric Pb(ZrxTi1−x)O3 in a SF6 plasma. Journal of Vacuum Science & Technology A: Vacuum, Surfaces, and Films 17(5), 2467-2469.
  255. & Indirect Band Gap of Light-EmittingBC2N. Physical Review Letters 83(12), 2406-2408.
  256. & Fabrication of silicon cones and pillars using rough metal films as plasma etching masks. Applied Physics Letters 74(11), 1627-1629.
  257. & Fabrication of ordered arrays of silicon nanopillars. Journal of Physics D: Applied Physics 32(24), L129-L132.
  258. & Exposure mechanism of fullerene derivative electron beam resists. Chemical Physics Letters 312(5-6), 469-474.
  259. & Electron-beam-induced fragmentation in ultrathinC60films onSi(100)−2×1−H:Mechanisms of cage destruction. Physical Review B 60(8), 5927-5937.
  260. & Deposition of passivated gold nanoclusters onto prepatterned substrates. Applied Physics Letters 74(19), 2833-2835.
  261. & Depletion of Molecular Vibrational Modes through Electron Impact and Evidence for Resonance Dissociation to Neutrals in CondensedCH3Cl/Graphite. Physical Review Letters 83(16), 3332-3335.
  262. & Adsorption and decomposition of ethylene (C2H4) on GaAs(100). Surface Science 441(1), 192-198.
  263. A new high transmission infinite range mass selector for cluster and nanoparticle beams.
  264. 10 nm scale electron beam lithography using a triphenylene derivative as a negative/positive tone resist.
  265. & Weak adsorption of ethylene on GaAs(100). Physical Review B 58(3), 1177-1180.
  266. & Two Chemisorbed Species ofO2on Ag(110). Physical Review Letters 80(23), 5224-5227.
  267. & Trapping of size-selected Ag clusters at surface steps. Applied Physics Letters 72(3), 305-307.
  268. & The development of metallic behaviour in clusters on surfaces. Philosophical Transactions of the Royal Society of London. Series A: Mathematical, Physical and Engineering Sciences 356(1735), 231-247.
  269. & Room temperature manipulation of self-organised supramolecular nanostructures with a scanning tunnelling microscope. Chemical Physics Letters 294(1-3), 229-232.
  270. & Photodissociation of condensed carbon dioxide below the gas phase thresholds. Chemical Physics Letters 287(5-6), 742-746.
  271. & Nano-machining of silicon phthalocyanine dichloride films on H-passivated Si(111). Journal of Physics D: Applied Physics 31(9), L37-L40.
  272. & Microfabrication of nanoscale cluster chains on a patterned Si surface. Applied Physics Letters 73(14), 2030-2032.
  273. & Manipulation of passivated gold clusters on graphite with the scanning tunneling microscope. Applied Physics Letters 72(2), 176-178.
  274. & Hydrogen radical cleaning and low energy electron stimulated desorption of surface contaminants for MBE regrowth of GaAs. Applied Surface Science 123-124, 308-312.
  275. & Formation of 10 nm Si structures using size-selected metal clusters. Journal of Physics D: Applied Physics 31(7), L21-L24.
  276. Fabrication of size-controlled 10-nm scale Si pillars using metal clusters as formation nuclei.
  277. & Energetic impact of small Ag clusters on graphite. Journal of Applied Physics 83(2), 733-737.
  278. & Energetic Impact of Size-Selected Metal Cluster Ions on Graphite. Physical Review Letters 81(17), 3715-3718.
  279. & Electron-stimulated reaction of C60 with a model etching gas, SF6. Journal of Applied Physics 84(8), 4603-4610.
  280. & Electron-beam damage of C60 films on hydrogen-passivated Si(100). Applied Physics Letters 72(3), 323-325.
  281. & Electron beam induced fragmentation of fullerene derivatives. Chemical Physics Letters 289(5-6), 586-590.
  282. & Deposition and diffusion of size-selected (Ag 400 + ) clusters on a stepped graphite surface. Applied Physics A: Materials Science & Processing 67(6), 613-619.
  283. & Compact ultrahigh vacuum sample exchange device with wide temperature range. Review of Scientific Instruments 69(1), 313-314.
  284. & Adsorption and decomposition of ferrocene on graphite studied by HREELS and STM. Surface Science 400(1-3), 277-280.
  285. & A Fullerene derivative as an electron beam resist for nanolithography. Applied Physics Letters 72(11), 1302-1304.
  286. & Building supramolecular nanostructures on surfaces: the influence of the substrate. Chemical Physics Letters 279(3-4), 209-214.
  287. & A comparative study of the photodissociation of physisorbed on Pt(111) and graphite. Journal of Physics: Condensed Matter 9(27), 5815-5822.
  288. Welcome to clusterworld.
  289. & VUV photochemistry of oriented molecules: methylchloride on highly oriented pyrolytic graphite. Surface Science 390(1-3), 237-242.
  290. & Scanning tunneling microscopy of ordered coated cluster layers on graphite. Applied Physics Letters 71(20), 2940-2942.
  291. & Orientational ordering of a 2D molecular gas. Chemical Physics Letters 277(4), 321-325.
  292. & Nano-machining of films deposited on H-passivated Si(111). Journal of Physics D: Applied Physics 30(24), 3307-3311.
  293. Large deviation from Matthiessen's rule in chemical vapour deposited copper films and its correlation with nanostructure - Foreword.
  294. Injection of mass-selected ions into a quadrupole ion trap.
  295. & Gas condensation source for production and deposition of size-selected metal clusters. Review of Scientific Instruments 68(9), 3327-3334.
  296. & Film growth and surface reactions ofC60onSi(100)H(2×1). Physical Review B 56(15), 9918-9924.
  297. & Fabrication of 10-nm Si pillars with self-formed etching masks. Microelectronic Engineering 35(1-4), 293-296.
  298. & Preface. Surface Science 390(1-3), vii-viii.
  299. & Compact sputter source for deposition of small size-selected clusters. Review of Scientific Instruments 68(9), 3335-3339.
  300. Vibrations at surfaces 8 - Proceedings of the 8th International Conference on Vibrations at Surfaces - The University of Birmingham, UK, 23-27, June 1996 - Preface.
  301. & THE STRUCTURAL AND VIBRATIONAL PROPERTIES OF C60 ADSORBED ON THE GRAPHITE(0001) SURFACE. Surface Review and Letters 03(01), 937-942.
  302. & The impact of size-selected Ag clusters on graphite: an STM study. Journal of Physics: Condensed Matter 8(41), L617-L624.
  303. & The gas sensitivity of device and emission currents in an electroformed MIM device. Journal of Physics D: Applied Physics 29(3), 837-842.
  304. & Surface Enhanced Photodissociation of Physisorbed Molecules. Physical Review Letters 76(11), 1960-1963.
  305. & Regeneration of electroformed metal - insulator - metal devices: a new model. Journal of Physics: Condensed Matter 8(3), 329-338.
  306. & Plasmon Dispersion and Damping at the Surface of a Semimetal. Physical Review Letters 76(11), 1952-1955.
  307. & Photon stimulated ion desorption from polyatomic molecules in the VUV: - graphite. Journal of Physics: Condensed Matter 8(10), L153-L158.
  308. & Orientation in molecule - surface interactions. Journal of Physics: Condensed Matter 8(19), 3245-3269.
  309. O- ESD from O-2 monolayers physisorbed on graphite: A surface mediated mechanism.
  310. Influence of island mobility on island size distributions in surface growth.
  311. & Growth and electronic excitations of layered structures on graphite. Surface Science 352-354, 442-446.
  312. & Evidence for field emission in electroformed metal-insulator-metal devices. Thin Solid Films 288(1-2), 164-170.
  313. & Electronic excitation ofO2molecules physisorbed on Ag(110). Physical Review B 53(3), 1099-1102.
  314. & Electronic and geometric structure of Cs on graphite (0001). Surface Science 364(3), 266-272.
  315. & Electron stimulated desorption from selected phases of physisorbed CO/graphite: evidence for structure sensitive desorption dynamics. Journal of Physics: Condensed Matter 8(6), L71-L78.
  316. & Diffusion controlled growth of metallic nanoclusters at selected surface sites. Journal of Applied Physics 79(6), 2942-2947.
  317. & Diffusion and aggregation of size‐selected silver clusters on a graphite surface. Applied Physics Letters 69(19), 2819-2821.
  318. & Deposition and growth of noble metal clusters on graphite. Journal of the Chemical Society, Dalton Transactions(5), 665
  319. & Angular distributions in resonance electron scattering by oriented physisorbed molecules:. Surface Science 368(1-3), 43-48.
  320. & ‘‘Concerted’’ regeneration of electroformed metal‐insulator‐metal devices. Journal of Applied Physics 79(11), 8565-8570.
  321. & The electronic catalyst: dissociation of chlorinated hydrocarbons by metal-insulator-metal electron emitters. Chemical Physics Letters 234(4-6), 354-358.
  322. & Selective ion desorption in ESD from physisorbed CO/graphite. Chemical Physics Letters 246(1-2), 79-84.
  323. & Negative-ion resonances in vibrational excitation and photochemistry of chemisorbed molecules: a critical case study of O2/Pt(111). Journal of the Chemical Society, Faraday Transactions 91(20), 3633
  324. & LEED and resonance EELS study of the (NO)2 dimer on graphite. Surface Science 329(3), 184-192.
  325. & Energy and lifetime of the σ resonance of orientedO2physisorbed on Ag(110). Physical Review B 52(16), 12395-12401.
  326. ELECTRON AND PHOTON-STIMULATED DESORPTION FROM PHYSISORBED CO FILMS.
  327. Competing photodissociation pathways for physisorbed O2/graphite investigated using Ar spacer layers. Chemical Physics Letters 247(4-6), 348-354.
  328. & Charge transfer and structure inC60adsorption on metal surfaces. Physical Review B 51(15), 10039-10047.
  329. & Possibility of coherent multiple excitation in atom transfer with a scanning tunneling microscope. Physical Review B 49(15), 10655-10662.
  330. MECHANISTIC STUDIES OF THE PHOTODISSOCIATION OF PHYSISORBED O-2/GRAPHITE.
  331. & Electron stimulated desorption of F+ ions from MBE grown. Surface Science 307-309, 372-376.
  332. Electron-molecule scattering and photodynamics at surfaces. Surface Science 307-309, 335-343.
  333. & X-ray and UV photoemission studies of mono-, bi- and multilayers of physisorbed molecules: O2 and N2 on graphite. Surface Science 295(1-2), 1-12.
  334. & Temperature dependent behaviour in the adsorption of submonolayer potassium on graphite. Surface Science 284(3), 349-360.
  335. RESONANT EXCITATION OF LOW-FREQUENCY MODES IN ELECTRON-SCATTERING BY PHYSISORBED O2 ON PT(111).
  336. & Resonance electron scattering by physisorbed and chemisorbed O2 on Pt(111). Chemical Physics Letters 210(1-3), 15-20.
  337. RESONANCE ELECTRON-SCATTERING BY ADSORBED MOLECULES - SIGMA-ASTERISK RESONANCE ENERGY VERSUS BOND LENGTH.
  338. & New resonances in high resolution EELS of adsorbed molecules: electronic excitation of physisorbed O2. Surface Science 291(1-2), 139-144.
  339. Negative ion resonances and surface vibrations. Journal of Electron Spectroscopy and Related Phenomena 64-65, 39-49.
  340. Nanofabrication of metal structures in gold films deposited on mica. Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures 11(6), 1992
  341. INTERCALATION OF POTASSIUM FROM THE SURFACE OF GRAPHITE.
  342. et. al. General discussion. Faraday Discussions 96, 189
  343. ELECTRON-STIMULATED ION-MOLECULE REACTIONS IN O2 FILMS ON GRAPHITE.
  344. & Electron-driven dynamics at the gas/solid interface: dissociation, desorption and reaction of adsorbed molecules. Faraday Discussions 96, 117
  345. & Core level spectroscopy of physisorbed molecules on graphite. Surface Science 287-288, 758-769.
  346. COMPETING ROUTES FOR CHARGE-TRANSFER IN COADSORPTION OF K AND O2 ON GRAPHITE.
  347. & Selective resonance population in EELS of physisorbed O2. Surface Science 269-270, 420-424.
  348. & Resonant substrate-mediated photodissociation of adsorbed molecules: O2/graphite. Chemical Physics Letters 198(1-2), 241-245.
  349. & Resonant electron-stimulated desorption of O− ions from oriented O2 on graphite. Surface Science 272(1-3), 313-317.
  350. & Resonances in electron scattering by molecules on surfaces. Reviews of Modern Physics 64(2), 383-440.
  351. & Resonance electron scattering by oriented O2, N2, and CO and application to physisorption on graphite. The Journal of Chemical Physics 97(11), 8736-8747.
  352. & Orientation-dependent final-state effects in photoelectron spectra of physisorbed molecules. Physical Review Letters 68(7), 982-985.
  353. & Orientation of a molecular precursor: a NEXAFS study of O2/Ag(110). Surface Science 278(3), 239-245.
  354. NEXAFS STUDY OF MOLECULAR-ORIENTATION IN PHYSISORBED OXYGEN ON GRAPHITE.
  355. & Electronic structure and phase transitions of submonolayer potassium on graphite. Physical Review B 46(23), 15484-15489.
  356. Electron-molecule dynamics at surfaces. Progress in Surface Science 41(1), 51-108.
  357. & Temperature-dependent plasmon frequency and linewidth in a semimetal. Physical Review Letters 66(4), 492-495.
  358. POTASSIUM-ADSORPTION-INDUCED PLASMON FREQUENCY-SHIFT IN GRAPHITE.
  359. PHASE-TRANSITIONS AND EXCITATION SPECTRUM OF SUBMONOLAYER POTASSIUM ON GRAPHITE.
  360. & Transient negative ions in the Spectroscopy and dynamics of molecules on surfaces: orientational effects. Journal of Electron Spectroscopy and Related Phenomena 54-55, 519-527.
  361. & Selective resonance population in electron scattering by adsorbed molecules. Physical Review Letters 64(11), 1301-1304.
  362. & Selection rules in resonance electron scattering from adsorbed molecules. Physical Review B 41(7), 4793-4796.
  363. & Resonant electronic excitation of O2 on graphite. Chemical Physics Letters 169(3), 204-208.
  364. RESONANCE ELECTRON-SCATTERING BY O2 MONOLAYERS ON GRAPHITE.
  365. & A resonance EELS study of CO monolayers on graphite. Surface Science 233(3), 269-275.
  366. THE INTERPRETATION OF ANGULAR-DISTRIBUTIONS IN RESONANCE ELECTRON-SCATTERING - MULTIPLE-SCATTERING AND SELECTION-RULES.
  367. & Resonance electron scattering from adsorbed molecules: Angular distribution of inelastically scattered electrons and application to physisorbedO2on graphite. Physical Review B 39(11), 7552-7560.
  368. & High-order periodicity of physisorbed CO on graphite. Journal of Physics: Condensed Matter 1(SB), SB7-SB11.
  369. & Adsorbate resonant states: Resonance energy shifts due to elastic multiple electron scattering. Physical Review Letters 63(22), 2496-2499.
  370. & A high‐sensitivity low‐energy electron diffractometer. Review of Scientific Instruments 60(9), 3065-3067.
  371. INITIAL STATE EFFECTS IN THE INVERSE PHOTOEMISSION SPECTRUM OF CO/PD(111).
  372. & Determination of Adsorbate Molecular Orientation from Resonance Electron-Scattering Angular Distributions. Physical Review Letters 60(4), 329-332.
  373. & An electron energy loss spectroscopy study of O2 and H2 physisorbed on graphite. Vacuum 38(4-5), 271-274.
  374. & Surface dielectric response of a semimetal: Electron-energy-loss spectroscopy of graphite. Physical Review B 37(5), 2408-2414.
  375. & UHV sample mount for the temperature range 10–1300 K. Review of Scientific Instruments 58(6), 1118-1120.
  376. ROTATIONAL STATES OF PHYSISORBED HYDROGEN ON GRAPHITE.
  377. & Resonance scattering of electrons from orientated O2 physisorbed on graphite. Journal of Electron Spectroscopy and Related Phenomena 44(1), 229-237.
  378. & Phonons in graphite studied by eels. Journal of Electron Spectroscopy and Related Phenomena 44(1), 355-360.
  379. & New loss features in the EELS spectrum of semimetallic graphite. Surface Science 189-190, 1009-1014.
  380. & Loss structure in the electron-energy-loss excitation continuum of a semimetal. Physical Review Letters 58(23), 2490-2493.
  381. & Lifetimes of molecular negative ion resonances on surfaces. Journal of Electron Spectroscopy and Related Phenomena 38, 317-318.

Books

  1. Chemically amplified molecular resists for e-beam lithography.
  2. & TEMPERATURE-INDUCED SURFACE STRUCTURE TRANSFORMATION OF SELF-ASSEMBLED MONOLAYERS ON Au(111): A VARIABLE TEMPERATURE STM STUDY.
  3. ELECTRON-SCATTERING BY ORIENTED MOLECULES ON SURFACES.

Book Chapters

  1. ENERGY-LOSS AND (E,2E) STUDIES OF MOLECULES ON SURFACES. In
  2. Deposition of size-selected clusters and application in silicon nanofabrication. In
  3. Transmission electron microscopy studies of photochemically etched porous silicon. In
  4. HRTEM studies of the aggregation of size-selected Ag clusters deposited onto graphite. In
  5. Fullerene derivatives as novel resist materials for fabrication of MEMS devices by electron beam lithography. In
  6. Systematic studies of fullerene derivative electron beam resists. In
  7. New high resolution liquid crystal electron beam resists. In
  8. TEM investigations of industrial platinum on graphite catalyst systems: Image processing and particle morphology. In
  9. Scanning transmission electron microscopy studies of the deposition of size-selected sub-nanometre platinum clusters. In
  10. & Fabrication of micro/nano-structured surfaces using self-organised processes. In
  11. & Excited states of surfaces and nanostructures in the VUV. In
  12. & Processing and Characterization of Gold Nanoparticles for Use in Plasmon Probe Spectroscopy and Microscopy of Biosystems. In Annals of the New York Academy of Sciences. (pp. 201-206).
  13. Chemically amplified fullerene resists for e-beam lithography - art. no. 69230M. In
  14. & Characterization of the Effects of Base Additives on a Fullerene Chemically Amplified Resist. In
  15. & Intensity calibration and atomic imaging of size-selected Au and Pd clusters in aberration-corrected HAADF-STEM. In Journal of Physics: Conference Series. (pp. 012010
  16. & Towards 11 nm half-pitch Resolution for a Negative-tone Chemically Amplified Molecular Resist Platform for EUV Lithography. In
  17. & Organic Hard Masks Utilizing Fullerene Derivatives. In

Other Research Outputs

  1. (2016). From plasmons to plankton: the wonderful world of physics. (Advances in Physics: X No. 1).