All Stories

  1. Unified Approach for Uncovering the Structural Role of Mg in Amorphous Materials: Diopside Glass

    Article • January 2026, Elsevier

    Professor Philip S Salmon

  2. Titanium phosphate glasses: Beyond tetrahedral network structures

    Article • The Journal of Chemical Physics, December 2025, American Institute of Physics

    Professor Philip S Salmon

  3. Structure of alkali magnesium, zinc, and calcium metasilicate glasses

    Article • The Journal of Chemical Physics, November 2025, American Institute of Physics

    Professor Philip S Salmon

  4. Role of niobium in glass structures

    Article • The Journal of Chemical Physics, October 2025, American Institute of Physics

    Professor Philip S Salmon

  5. Impact of niobium on the structure of phosphate glasses

    Article • Journal of the American Chemical Society, August 2025, American Chemical Society (ACS)

    Professor Philip S Salmon

  6. Transformations to the aluminum coordination environment and network polymerization in amorphous aluminosilicates under pressure

    Article • The Journal of Chemical Physics, August 2024, American Institute of Physics

    Professor Philip S Salmon

  7. Pressure dependent structure of amorphous magnesium aluminosilicates: The effect of replacing magnesia by alumina at the enstatite composition

    Article • The Journal of Chemical Physics, February 2024, American Institute of Physics

    Professor Philip S Salmon

  8. Mapping the structural trends in zinc aluminosilicate glasses

    Article • The Journal of Chemical Physics, August 2023, American Institute of Physics

    Professor Philip S Salmon

  9. Erratum to “Pressure induced structural transformations in amorphous MgSiO3 and CaSiO3” [Journal of Non crystalline solids:X 3C (2019) 100024]

    Article • Journal of Non-Crystalline Solids X, June 2023, Elsevier

    Professor Philip S Salmon

  10. Structure of amorphous materials in the NASICON system Na_(1+x)Ti_2Si_xP_(3-x)O_12

    Article • Journal of Physics Condensed Matter, April 2023, Institute of Physics Publishing

    Professor Philip S Salmon

  11. Ring compaction as a mechanism of densification in amorphous silica

    Article • April 2023, American Physical Society (APS)

    Professor Philip S Salmon

  12. Structure and related properties of amorphous magnesium aluminosilicates

    Article • Physical Review Materials, December 2022, American Physical Society (APS)

    Professor Philip S Salmon

  13. Structure of silicate and aluminosilicate glasses

    Article • The Journal of Chemical Physics, December 2022, American Institute of Physics

    Professor Philip S Salmon

  14. Structure of magnesium silicate glasses by 25Mg NMR

    Article • Journal of Magnetic Resonance Open, December 2022, Elsevier

    Professor Philip S Salmon

  15. Structure of molten NaCl and the decay of the pair-correlations

    Article • The Journal of Chemical Physics, September 2022, American Institute of Physics

    Professor Philip S Salmon

  16. Structure of aluminosilicate glasses and magmas

    Article • The Journal of Chemical Physics, February 2022, American Institute of Physics

    Professor Philip S Salmon

  17. Structure and dynamics of aqueous NaCl solutions at high temperatures and pressures

    Article • The Journal of Chemical Physics, November 2021, American Institute of Physics

    Professor Philip S Salmon

  18. Uncovering the crystal nucleation and growth mechanisms in NASICON materials

    Article • The Journal of Chemical Physics, August 2021, American Institute of Physics

    Professor Philip S Salmon

  19. Persistent homology in two-dimensional atomic networks

    Article • The Journal of Chemical Physics, March 2021, American Institute of Physics

    Professor Philip S Salmon

  20. Structure and properties of densified silica glass: characterizing the order within disorder

    Article • NPG Asia Materials, December 2020, Springer Science + Business Media

    Professor Philip S Salmon

  21. Structure of As-Se chalcogenide glasses

    Article • The Journal of Chemical Physics, October 2020, American Institute of Physics

    Professor Philip S Salmon

  22. Many-body effects at the origin of structural transitions in B2O3

    Article • The Journal of Chemical Physics, December 2019, American Institute of Physics

    Professor Philip S Salmon

  23. Characterising the ordering in liquid and amorphous materials on different length scales

    Article • Journal of Statistical Mechanics Theory and Experiment, November 2019, Institute of Physics Publishing

    Professor Philip S Salmon

  24. Structure of the Intermediate Phase Glasses GeSe3 and GeSe4: The Deployment of Neutron Diffraction With Isotope Substitution

    Article • Frontiers in Materials, June 2019, Frontiers

    Professor Philip S Salmon

  25. Pressure induced structural transformations in amorphous MgSiO3 and CaSiO3

    Article • Journal of Non-Crystalline Solids X, May 2019, Elsevier

    Professor Philip S Salmon

  26. Partial vibrational density of states for amorphous solids from inelastic neutron scattering

    Article • August 2018, American Physical Society (APS)

    Professor Philip S Salmon

  27. Structure of semiconducting versus fast-ion conducting glasses in the Ag–Ge–Se system

    Article • Royal Society Open Science, January 2018, Royal Society Publishing

    Professor Philip S Salmon

  28. Densification Mechanisms of Oxide Glasses and Melts

    Article • January 2018, Elsevier

    Professor Philip S Salmon

  29. Topological Ordering and Viscosity in the Glass-Forming Ge–Se System

    Article • Frontiers in Materials, November 2017, Frontiers

    Professor Philip S Salmon

  30. High-pressure neutron diffraction apparatus for investigating the structure of liquids under hydrothermal conditions

    Article • High Pressure Research, October 2017, Taylor & Francis

    Professor Philip S Salmon

  31. Impact of pressure on the structure of glass and its material properties

    Article • MRS Bulletin, October 2017, Cambridge University Press

    Professor Philip S Salmon

  32. Structure of rare-earth chalcogenide glasses by neutron and x-ray diffraction

    Article • Journal of Physics Condensed Matter, April 2017, Institute of Physics Publishing

    Professor Philip S Salmon

  33. Optimizing the counting times for sample-in-container scattering experiments

    Article • Journal of Applied Crystallography, November 2016, International Union of Crystallography

    Professor Philip S Salmon

  34. Structure of amorphous GeSe9 by neutron diffraction and first-principles molecular dynamics: Impact of trajectory sampling and size effects

    Article • The Journal of Chemical Physics, August 2016, American Institute of Physics

    Professor Philip S Salmon

  35. Recent advances in identifying the structure of liquid and glassy oxide and chalcogenide materials under extreme conditions: a joint approach using diffraction and atomistic simulation

    Article • Advances in Physics X, July 2016, Taylor & Francis

    Professor Philip S Salmon

  36. Structure of liquids and glasses at high pressures and temperatures

    Article • Neutron News, July 2016, Taylor & Francis

    Professor Philip S Salmon

  37. Pressure-driven transformation of the ordering in amorphous network-forming materials

    Article • June 2016, American Physical Society (APS)

    Professor Philip S Salmon

  38. Structure of Glassy Ag–Ge–Se by Neutron Diffraction with Isotope Substitution

    Article • Zeitschrift für Physikalische Chemie, January 2016, De Gruyter

    Professor Philip S Salmon

  39. Pressure-induced structural changes in the network-forming isostatic glass GeSe 4 : An investigation by neutron diffraction and first-principles molecular dynamics

    Article • January 2016, American Physical Society (APS)

    Professor Philip S Salmon

  40. Pressure-dependent structure of the null-scattering alloy Ti0.676Zr0.324

    Article • High Pressure Research, May 2015, Taylor & Francis

    Professor Philip S Salmon

  41. Structure of liquid and glassy materials under pressure

    Article • Journal of Physics Condensed Matter, March 2015, Institute of Physics Publishing

    Professor Philip S Salmon

  42. Temperature dependent structure of a network glass-forming system

    Article • Journal of Non-Crystalline Solids, January 2015, Elsevier

    Professor Philip S Salmon

  43. Symbiotic relationship between experiment and simulation: A case example

    Article • January 2015, Springer Science + Business Media

    Professor Philip S Salmon

  44. Structure and properties of amorphous materials by molecular dynamics

    Article • January 2015, Springer Science + Business Media

    Professor Philip S Salmon

  45. Pressure induced transformation from a tetrahedral to octahedral network in glassy silica

    Article • Physical Review Letters, September 2014, American Physical Society (APS)

    Professor Philip S Salmon

  46. Structural change in glassy GeSe2 under pressure

    Article • Physical Review B, August 2014, American Physical Society (APS)

    Professor Philip S Salmon

  47. Structural transformations in glassy B2O3 under pressure

    Article • Physical Review B, July 2014, American Physical Society (APS)

    Professor Philip S Salmon

  48. Packing and the structural transformations in liquid and amorphous oxides

    Article • Proceedings of the National Academy of Sciences, June 2014, Proceedings of the National Academy of Sciences

    Professor Philip S Salmon

  49. Identifying and characterising the different structural length scales in liquids and glasses: an experimental approach

    Article • Physical Chemistry Chemical Physics, January 2013, Royal Society of Chemistry

    Professor Philip S Salmon

  50. Structure of liquid alumina near its melting point

    Article • Physical Review B, January 2013, American Physical Society (APS)

    Professor Philip S Salmon

  51. Glass formation in aluminate materials

    Article • Physical Review Letters, December 2012, American Physical Society (APS)

    Professor Philip S Salmon

  52. Neutron scattering lengths of the oxygen isotopes

    Article • Journal of Physics Condensed Matter, November 2012, Institute of Physics Publishing

    Professor Philip S Salmon

  53. Structure of GeO2 glass under pressure

    Article • Journal of Physics Condensed Matter, November 2012, Institute of Physics Publishing

    Dr Dario Marrocchelli, Professor Philip S Salmon

  54. Erratum: Density-driven structural transformations in network forming glasses: a high-pressure neutron diffraction study of GeO 2 glass up to 17.5 GPa

    Article • Journal of Physics Condensed Matter, October 2012, Institute of Physics Publishing

    Dr Dario Marrocchelli, Professor Philip S Salmon

  55. Structure of GeO2 glass by neutron diffraction at pressures up to 17.5 GPa

    Article • Journal of Physics Condensed Matter, September 2012, Institute of Physics Publishing

    Dr Dario Marrocchelli, Professor Philip S Salmon

  56. Isotope effects in water as investigated by neutron diffraction and path integral molecular dynamics

    Article • Journal of Physics Condensed Matter, June 2012, Institute of Physics Publishing

    Professor Philip S Salmon

  57. Zeidler et al. Reply:

    Article • Physical Review Letters, June 2012, American Physical Society (APS)

    Professor Philip S Salmon

  58. Structure and triclustering in Ba-Al-O glass

    Article • Physical Review B, February 2012, American Physical Society (APS)

    Professor Philip S Salmon

  59. Structural properties of liquid Ge 2 Se 3 : A first-principles study

    Article • Physical Review B, October 2011, American Physical Society (APS)

    Professor Philip S Salmon

  60. Oxygen as a Site Specific Probe of the Structure of Water and Oxide Materials

    Article • Physical Review Letters, September 2011, American Physical Society (APS)

    Professor Philip S Salmon

  61. Structure of praseodymium and neodymium gallate glasses

    Article • Journal of Non-Crystalline Solids, July 2011, Elsevier

    Professor Philip S Salmon

  62. Barnes et al. Reply:

    Article • Physical Review Letters, March 2011, American Physical Society (APS)

    Professor Philip S Salmon

  63. Structure of eutectic liquids in the Au-Si, Au-Ge, and Ag-Ge binary systems by neutron diffraction

    Article • Physical Review B, January 2011, American Physical Society (APS)

    Professor Philip S Salmon

  64. Structure of liquid and glassy ZnCl 2

    Article • Physical Review B, September 2010, American Physical Society (APS)

    Professor Philip S Salmon

  65. Impact of the exchange-correlation functional on the structure of glassy GeSe2

    Article • Solid State Sciences, February 2010, Elsevier

    Professor Philip S Salmon

  66. Structure of GeO 2 glass at pressures up to 8.6 GPa

    Article • Physical Review B, January 2010, American Physical Society (APS)

    Professor Philip S Salmon

  67. Liquid-Liquid Phase Transition in Supercooled Yttria-Alumina

    Article • Physical Review Letters, November 2009, American Physical Society (APS)

    Professor Philip S Salmon

  68. Establishing the structure of GeS 2 at high pressures and temperatures: a combined approach using x-ray and neutron diffraction

    Article • Journal of Physics Condensed Matter, November 2009, Institute of Physics Publishing

    Professor Philip S Salmon

  69. Network Topology and the Fragility of Tetrahedral Glass-Forming Liquids

    Article • Physical Review Letters, October 2009, American Physical Society (APS)

    Professor Philip S Salmon

  70. Atomic structure of the two intermediate phase glasses SiSe 4 and GeSe 4

    Article • Physical Review B, May 2009, American Physical Society (APS)

    Professor Philip S Salmon

  71. The structure of molten CuCl, CuI and their mixtures as investigated by using neutron diffraction

    Article • Journal of Physics Condensed Matter, January 2009, Institute of Physics Publishing

    Professor Philip S Salmon

  72. Structure of Cu–As–Se glasses investigated by neutron diffraction with copper isotope substitution

    Article • Physical Review B, August 2008, American Physical Society (APS)

    Professor Philip S Salmon

  73. Phase separation, crystallization and polyamorphism in the Y 2 O 3 –Al 2 O 3 system

    Article • Journal of Physics Condensed Matter, April 2008, Institute of Physics Publishing

    Professor Philip S Salmon

  74. Atomic Scale Modelling of Materials: A Prerequisite for any Multi-Scale Approach to Structural and Dynamical Properties

    Article • April 2008, CrossRef Test Account

    Professor Philip S Salmon

  75. Structure and thermal properties of yttrium alumino-phosphate glasses

    Article • Journal of Physics Condensed Matter, February 2008, Institute of Physics Publishing

    Professor Philip S Salmon

  76. Atomic Scale Modelling of Materials: A Prerequisite for any Multi-Scale Approach to Structural and Dynamical Properties

    Article • Solid State Phenomena, January 2008, Trans Tech Publications

    Professor Philip S Salmon

  77. The structure of tetrahedral network glass forming systems at intermediate and extended length scales

    Article • Journal of Physics Condensed Matter, October 2007, Institute of Physics Publishing

    Professor Philip S Salmon

  78. Structure of liquids and glasses in the Ge–Se binary system

    Article • Journal of Non-Crystalline Solids, October 2007, Elsevier

    Professor Philip S Salmon

  79. Structure of glassy GeO 2

    Article • Journal of Physics Condensed Matter, September 2007, Institute of Physics Publishing

    Professor Philip S Salmon

  80. Proceedings of the International Workshop on Current Challenges in Liquid and Glass Science, (The Cosener's House, Abingdon 10–12 January 2007)

    Article • Journal of Physics Condensed Matter, September 2007, Institute of Physics Publishing

    Professor Philip S Salmon

  81. Decay of the pair correlations and small-angle scattering for binary liquids and glasses

    Article • Journal of Physics Condensed Matter, November 2006, Institute of Physics Publishing

    Professor Philip S Salmon

  82. Topological changes in glassy Ge Se 2 at pressures up to 9.3 GPa determined by high-energy x-ray and neutron diffraction measurements

    Article • Physical Review B, July 2006, American Physical Society (APS)

    Professor Philip S Salmon

  83. Glass Fragility and Atomic Ordering on the Intermediate and Extended Range

    Article • Physical Review Letters, June 2006, American Physical Society (APS)

    Professor Philip S Salmon

  84. Structure of liquids and glasses by neutron and x-ray diffraction techniques

    Article • Reports on Progress in Physics, November 2005, Institute of Physics Publishing

    Professor Philip S Salmon

  85. Moments of the Bhatia–Thornton partial pair-distribution functions

    Article • Journal of Physics Condensed Matter, October 2005, Institute of Physics Publishing

    Professor Philip S Salmon

  86. Topological versus chemical ordering in network glasses at intermediate and extended length scales

    Article • May 2005, Nature

    Professor Philip S Salmon

  87. Structure of rare-earth phosphate glasses by neutron diffraction

    Article • Journal of Non-Crystalline Solids, October 2004, Elsevier

    Professor Philip S Salmon

  88. Structure of liquid lithium

    Article • Journal of Physics Condensed Matter, January 2004, Institute of Physics Publishing

    Professor Philip S Salmon

  89. Structure of dysprosium and holmium phosphate glasses by the method of isomorphic substitution in neutron diffraction

    Article • Journal of Physics Condensed Matter, November 2003, Institute of Physics Publishing

    Professor Philip S Salmon

  90. La structure des systèmes désordonnés et sa mesure par diffraction

    Article • Le Journal de Physique Colloques, September 2003, EDP Sciences

    Professor Philip S Salmon

  91. Structure of lanthanum and cerium phosphate glasses by the method of isomorphic substitution in neutron diffraction

    Article • August 2003, American Physical Society (APS)

    Professor Philip S Salmon

  92. Identification of the Relative Distribution of Rare-Earth Ions in Phosphate Glasses

    Article • Physical Review Letters, May 2003, American Physical Society (APS)

    Professor Philip S Salmon

  93. Structure of glassy and liquid GeSe 2

    Article • Journal of Physics Condensed Matter, April 2003, Institute of Physics Publishing

    Professor Philip S Salmon

  94. Preface

    Article • Journal of Physics Condensed Matter, April 2003, Institute of Physics Publishing

    Professor Philip S Salmon

  95. La diffraction des neutrons et des rayons X pour l'étude structurale des liquides et des verres

    Article • Le Journal de Physique Colloques, February 2003, EDP Sciences

    Professor Philip S Salmon

  96. Structure of molten TbCl 3 measured by neutron diffraction

    Article • Journal of Physics Condensed Matter, October 2002, Institute of Physics Publishing

    Professor Philip S Salmon

  97. Order within disorder

    Article • Nature Materials, October 2002, Springer Science + Business Media

    Professor Philip S Salmon

  98. Chalcohalide glasses: The effect of covalent versus ionic bonding in (CuI)0.6(Sb2Se3)0.4

    Article • January 2002, American Physical Society (APS)

    Professor Philip S Salmon

  99. A neutron diffraction study of glassy GeS2

    Article • Journal of Non-Crystalline Solids, November 2001, Elsevier

    Professor Philip S Salmon

  100. Structure of glassy AsTe: the effect of adding a small quantity of Cu or Ag

    Article • Journal of Physics Condensed Matter, June 2001, Institute of Physics Publishing

    Professor Philip S Salmon

  101. First Solvation Shell of the Cu(II) Aqua Ion: Evidence for Fivefold Coordination

    Article • Science, February 2001, American Association for the Advancement of Science

    Professor Philip S Salmon

  102. Structure of molten trivalent metal bromides studied by using neutron diffraction: the systems DyBr 3 , YBr 3 , HoBr 3 and ErBr 3

    Article • Journal of Physics Condensed Matter, October 2000, Institute of Physics Publishing

    Professor Philip S Salmon

  103. Defects in a Disordered World: The Structure of Glassy GeSe 2

    Article • Physical Review Letters, March 2000, American Physical Society (APS)

    Professor Philip S Salmon

  104. Structure of molten holmium and erbium trichlorides and tribromides

    Article • Physica B Condensed Matter, March 2000, Elsevier

    Professor Philip S Salmon

  105. Change in the topology of the glass forming liquid GeSe 2 with increasing temperature

    Article • Journal of Physics Condensed Matter, December 1999, Institute of Physics Publishing

    Professor Philip S Salmon

  106. Structure of molten trivalent metal chlorides studied by using neutron diffraction: the systems TbCl 3 , YCl 3 , HoCl 3 and ErCl 3

    Article • Journal of Physics Condensed Matter, November 1999, Institute of Physics Publishing

    Professor Philip S Salmon

  107. Structure of the liquid semiconductor GeSe

    Article • Journal of Physics Condensed Matter, September 1999, Institute of Physics Publishing

    Professor Philip S Salmon

  108. Structure of molten GeSe by neutron diffraction: the Ge coordination environment

    Article • Journal of Non-Crystalline Solids, August 1999, Elsevier

    Professor Philip S Salmon

  109. Structure of molten MCl3 systems from a polarizable ion simulation model

    Article • The Journal of Chemical Physics, August 1999, American Institute of Physics

    Professor Philip S Salmon

  110. Structure of molten ScCl 3 and ScI 3 studied by using neutron diffraction

    Article • Journal of Physics Condensed Matter, January 1999, Institute of Physics Publishing

    Professor Philip S Salmon

  111. Structure of molten lanthanum and cerium tri-halides by the method of isomorphic substitution in neutron diffraction

    Article • Journal of Physics Condensed Matter, January 1999, Institute of Physics Publishing

    Professor Philip S Salmon

  112. Structure of ionic glasses by neutron diffraction

    Article • Journal of Physics Condensed Matter, September 1998, Institute of Physics Publishing

    Professor Philip S Salmon

  113. Structure of the glassy fast-ion conductor AgPS 3 by neutron diffraction

    Article • September 1998, American Physical Society (APS)

    Professor Philip S Salmon

  114. Structure of molten trivalent metal chlorides

    Article • Physica B Condensed Matter, December 1997, Elsevier

    Professor Philip S Salmon

  115. Structure in liquid KTl investigated by means of neutron diffraction using 205Tl isotope substitution

    Article • Physica B Condensed Matter, December 1997, Elsevier

    Professor Philip S Salmon

  116. Structural ordering in Ag-based ternary chalcogenide glasses

    Article • EPL (Europhysics Letters), September 1997, Institute of Physics Publishing

    Professor Philip S Salmon

  117. A determination of the structure of liquid using neutron diffraction and isotopic substitution

    Article • Journal of Physics Condensed Matter, July 1997, Institute of Physics Publishing

    Professor Philip S Salmon

  118. Preface

    Article • Journal of Physics Condensed Matter, November 1996, Institute of Physics Publishing

    Professor Philip S Salmon

  119. The coordination environment of Ag and Cu in ternary chalcogenide glasses

    Article • Journal of Non-Crystalline Solids, October 1996, Elsevier

    Professor Philip S Salmon

  120. Neutron diffraction studies of fast-ion conducting chalcogenide and related glasses

    Article • Acta Crystallographica Section A Foundations of Crystallography, August 1996, International Union of Crystallography

    Professor Philip S Salmon

  121. The Jahn-Teller effect in solutions of flexible molecules: a neutron diffraction study on the structure of a Cu2+solution in ethylene glycol

    Article • Molecular Physics, August 1995, Taylor & Francis

    Professor Philip S Salmon

  122. The solvation of cations in hydrogen-bonded molecular solvents: a neutron diffraction study on the structure of Ni2+ solutions in ethylene glycol and in glycerol

    Article • Molecular Physics, February 1995, Taylor & Francis

    Professor Philip S Salmon

  123. Structure of Fast Ion Conducting and Semiconducting Glassy Chalcogenide Alloys

    Article • Physical Review Letters, July 1994, American Physical Society (APS)

    Professor Philip S Salmon

  124. A neutron diffraction study on the structure of Cl - solutions in hydrogen-bonded molecular solvents

    Article • Journal of Physics Condensed Matter, May 1994, Institute of Physics Publishing

    Professor Philip S Salmon

  125. Real Space Manifestation of the First Sharp Diffraction Peak in the Structure Factor of Liquid and Glassy Materials

    Article • Proceedings of the Royal Society A Mathematical Physical and Engineering Sciences, May 1994, Royal Society Publishing

    Professor Philip S Salmon

  126. Microvoids in chalcogenide glasses studied by positron annihilation

    Article • Journal of Non-Crystalline Solids, May 1994, Elsevier

    Professor Philip S Salmon

  127. The relation between the melt topology and glass-forming ability for liquid Ge-Se alloys

    Article • Journal of Physics Condensed Matter, February 1994, Institute of Physics Publishing

    Professor Philip S Salmon

  128. Structure of fast-ion conducting chalcogenide glasses: the AgAsSe system

    Article • Journal of Non-Crystalline Solids, May 1993, Elsevier

    Professor Philip S Salmon

  129. The ion to water-proton binding time in aqueous ionic solution

    Article • Physica B Condensed Matter, December 1992, Elsevier

    Professor Philip S Salmon

  130. Preface

    Article • Physica B Condensed Matter, December 1992, Elsevier

    Professor Philip S Salmon

  131. The Structure of Molten and Glassy 2:1 Binary Systems: An Approach Using the Bhatia-Thornton Formalism

    Article • Proceedings of the Royal Society A Mathematical Physical and Engineering Sciences, June 1992, Royal Society Publishing

    Professor Philip S Salmon

  132. The structure of Cl - solutions in ethylene glycol studied by neutron diffraction

    Article • Journal of Physics Condensed Matter, June 1992, Institute of Physics Publishing

    Professor Philip S Salmon

  133. Penfold and Salmon reply

    Article • Physical Review Letters, January 1992, American Physical Society (APS)

    Professor Philip S Salmon

  134. Structure of nickel(2+) solutions in ethylene glycol by neutron diffraction: an observed hydrogen bond between the solvent ligands in the first and second cation coordination shells

    Article • Journal of the American Chemical Society, August 1991, American Chemical Society (ACS)

    Professor Philip S Salmon

  135. Structure of covalently bonded glass-forming melts: A full partial-structure-factor analysis of liquid GeSe 2

    Article • Physical Review Letters, July 1991, American Physical Society (APS)

    Professor Philip S Salmon

  136. Dynamics of water protons in concentrated gallium(3+), aluminum(3+), iron(3+) and dysprosium(3+) aqueous solutions: a study using incoherent quasi-elastic neutron scattering

    Article • Journal of the American Chemical Society, April 1991, American Chemical Society (ACS)

    Professor Philip S Salmon

  137. A neutron diffraction study on the structure of molten GeSe 2 : the Ge coordination environment

    Article • Journal of Physics Condensed Matter, December 1990, Institute of Physics Publishing

    Professor Philip S Salmon

  138. The dynamics of aqueous Zn2+ solutions: a study using incoherent quasi-elastic neutron scattering

    Article • Journal of Physics Condensed Matter, August 1990, Institute of Physics Publishing

    Professor Philip S Salmon

  139. The dynamics of aqueous Zn 2+ solutions: a study using incoherent quasi-elastic neutron scattering

    Article • Journal of Physics Condensed Matter, May 1990, Institute of Physics Publishing

    Professor Philip S Salmon

  140. Glass formation and short-range order in chalcogenide materials: The ( Ag 2 S ) x ( As 2 S 3 ) 1 − x (0≤ x ≤1) pseudobinary tie line

    Article • Physical Review Letters, April 1990, American Physical Society (APS)

    Professor Philip S Salmon

  141. The co-ordination environment of Ag in glassy AgAsS2. A neuron diffraction study

    Article • Journal of Non-Crystalline Solids, December 1989, Elsevier

    Professor Philip S Salmon

  142. The coordination of Cu(II) in a concentrated copper nitrate solution

    Article • Journal of Physics Condensed Matter, August 1989, Institute of Physics Publishing

    Professor Philip S Salmon

  143. An incoherent quasi-elastic neutron scattering study on the dynamics of aqueous Cr 3+ perchlorate solutions

    Article • Journal of Physics Condensed Matter, June 1989, Institute of Physics Publishing

    Professor Philip S Salmon

  144. Hydration of complexed chloride ions in aqueous zinc(II) chloride solution

    Article • The Journal of Physical Chemistry B, February 1989, American Chemical Society (ACS)

    Professor Philip S Salmon

  145. The dynamics of water molecules in ionic solution as studied by incoherent quasi-elastic neutron scattering

    Article • Physica B Condensed Matter, January 1989, Elsevier

    Professor Philip S Salmon

  146. A neutron diffraction study on the structure of liquid germanium

    Article • Journal of Physics F Metal Physics, November 1988, Institute of Physics Publishing

    Professor Philip S Salmon

  147. The structure of Cu 2+ aqueous solutions

    Article • Journal of Physics C Solid State Physics, March 1988, Institute of Physics Publishing

    Professor Philip S Salmon

  148. General discussion

    Article • Faraday Discussions of the Chemical Society, January 1988, Royal Society of Chemistry

    Professor Philip S Salmon

  149. The hydration structure around chloride ions in aqueous solution

    Article • Faraday Discussions of the Chemical Society, January 1988, Royal Society of Chemistry

    Professor Philip S Salmon

  150. The dynamics of water molecules in ionic solution. II. Quasi-elastic neutron scattering and tracer diffusion studies of the proton and ion dynamics in concentrated Ni 2+ , Cu 2+ and Nd 3+ aqueous solutions

    Article • Journal of Physics C Solid State Physics, December 1987, Institute of Physics Publishing

    Professor Philip S Salmon

  151. Diffraction and the study of aqua ions

    Article • The Journal of Physical Chemistry B, November 1987, American Chemical Society (ACS)

    Professor Philip S Salmon

  152. The dynamics of water molecules in ionic solution. I. The application of quasi-elastic neutron scattering to the study of translational diffusive proton motion

    Article • Journal of Physics C Solid State Physics, April 1987, Institute of Physics Publishing

    Professor Philip S Salmon

  153. The Classification of Isotropic Points in Stress Fields∗

    Article • Journal of Structural Mechanics, January 1983, Taylor & Francis

    Professor Philip S Salmon