All Stories

  1. Interfacial stress transfer in monolayer and few-layer MoS2 nanosheets in model nanocomposites

    Article • Composites Science and Technology, March 2023, Elsevier

    David Dunstan

  2. The strange shapes a twisted ribbon or strip of paper can adopt under tension

    Article • Applied Physics Letters, December 2022, American Institute of Physics

    David Dunstan

  3. Significant interlayer coupling in bilayer graphene and double-walled carbon nanotubes: A refinement of obtaining strain in low-dimensional materials

    Article • January 2022, American Physical Society (APS)

    David Dunstan

  4. Softening of the Euler Buckling Criterion under Discretization of Compliance

    Article • Physical Review Applied, November 2021, American Physical Society (APS)

    David Dunstan

  5. What we know–and don’t know–about the mechanical and thermal properties of graphene.

    Article • Applied Physics Reviews, June 2021, American Institute of Physics

    Colin Humphreys, David Dunstan, Denis Machon, Yiwei Sun

  6. Unexpected softness of bilayer graphene and softening of A-A stacked graphene layers

    Article • March 2020, American Physical Society (APS)

    David Dunstan

  7. Nanostrain sensitivity in a wire torsion experiment

    Article • Review of Scientific Instruments, January 2020, American Institute of Physics

    David Dunstan, WARIS ALI

  8. Spider dragline silk as torsional actuator driven by humidity

    Article • Science Advances, March 2019, American Association for the Advancement of Science

    David Dunstan

  9. Factors determining the magnitude of grain-size strengthening in polycrystalline metals

    Article • Materialia, December 2018, Elsevier

    David Dunstan

  10. Critical thickness phenomenon in single-crystalline wires under torsion

    Article • Acta Materialia, May 2018, Elsevier

    David Dunstan

  11. Peculiar torsion dynamical response of spider dragline silk

    Article • Applied Physics Letters, July 2017, American Institute of Physics

    David Dunstan

  12. The new high field photoexcitation muon spectrometer at the ISIS pulsed neutron and muon source

    Article • Review of Scientific Instruments, December 2016, American Institute of Physics

    Ms Rebeckah Aubertin, Prashantha Murahari, David Dunstan

  13. The Hall–Petch effect as a manifestation of the general size effect

    Article • Proceedings of the Royal Society A Mathematical Physical and Engineering Sciences, June 2016, Royal Society Publishing

    David Dunstan

  14. Resonance Raman spectroscopy of carbon nanotubes: pressure effects on G-mode

    Article • High Pressure Research, January 2014, Taylor & Francis

    David Dunstan

  15. New experimental test of strain-gradient plasticity theory: metal foil sandwich structures in flexure

    Article • Philosophical Magazine Letters, March 2012, Taylor & Francis

    David Dunstan

  16. Raman excitation spectroscopy of carbon nanotubes: effects of pressure medium and pressure

    Article • High Pressure Research, March 2012, Taylor & Francis

    David Dunstan

  17. Testing the Limits of Small Scale Plasticity with Thin Wires in Torsion

    Article • MRS Proceedings, January 2012, Springer Science + Business Media

    David Dunstan

  18. Micromechanical testing with microstrain resolution

    Article • Review of Scientific Instruments, September 2011, American Institute of Physics

    David Dunstan

  19. Raman G‐mode of single‐wall carbon nanotube bundles under pressure

    Article • Journal of Raman Spectroscopy, February 2011, Wiley

    David Dunstan

  20. High-pressure studies of carbon nanotubes

    Article • High Pressure Research, December 2009, Taylor & Francis

    David Dunstan

  21. Elastic Limit and Strain Hardening of Thin Wires in Torsion

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

    David Dunstan

  22. RamanGandDband in strongly photoexcited carbon nanotubes

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

    David Dunstan

  23. G‐mode behaviour of closed ended single wall carbon nanotubes under pressure

    Article • physica status solidi (b), February 2009, Wiley

    David Dunstan

  24. High-pressure Raman response of single-walled carbon nanotubes: Effect of the excitation laser energy

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

    David Dunstan

  25. Raman G band in double-wall carbon nanotubes combining p doping and high pressure

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

    David Dunstan

  26. Quantum molecular dynamics study of the pressure dependence of the ammonia inversion transition

    Article • Physical Review A, December 2007, American Physical Society (APS)

    David Dunstan

  27. Solvation pressure in ethanol by molecular dynamics simulations

    Article • Physical Review B, September 2007, American Physical Society (APS)

    David Dunstan

  28. Effect of chemical environment on high-pressure Raman response of single-walled carbon nanotubes

    Article • High Pressure Research, December 2006, Taylor & Francis

    David Dunstan

  29. High pressure Raman spectroscopy of single-walled carbon nanotubes: Effect of chemical environment on individual nanotubes and the nanotube bundle

    Article • Journal of Physics and Chemistry of Solids, December 2006, Elsevier

    David Dunstan

  30. Nanoscale pressure effects in individual double-wall carbon nanotubes

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

    David Dunstan

  31. Solvation pressure in chloroform

    Article • The Journal of Chemical Physics, May 2006, American Institute of Physics

    David Dunstan

  32. Determination of ordering effects on GaInP pressure coefficients

    Article • physica status solidi (b), October 2004, Wiley

    David Dunstan

  33. III-V semiconductors solve mechanical riddle

    Article • III-Vs Review, December 2003, Elsevier

    David Dunstan

  34. PRACTICAL NON-LINEAR ELASTICITY THEORY FOR LARGE STRAINS

    Article • High Pressure Research, September 2003, Taylor & Francis

    David Dunstan

  35. NEGATIVE EFFECTIVE PRESSURES IN LIQUID MIXTURES

    Article • High Pressure Research, September 2003, Taylor & Francis

    David Dunstan

  36. Solvation pressure as real pressure: I. Ethanol and starch under negative pressure

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

    David Dunstan

  37. Accurate determination of (AlxGa1–x)0.5In0.5P alloy pressure coefficients

    Article • physica status solidi (b), January 2003, Wiley

    David Dunstan

  38. Measurement and interpretation of strain by high-resolution X-ray diffraction

    Article • Applied Surface Science, March 2002, Elsevier

    David Dunstan

  39. High Pressure Instrumentation: Low and Negative Pressures

    Article • High Pressure Research, January 2002, Taylor & Francis

    David Dunstan

  40. A Theory of Non-Linear Elasticity Compatible With the Murnaghan Equation of State

    Article • High Pressure Research, January 2002, Taylor & Francis

    David Dunstan

  41. Determination of the Mode Grüneisen Parameter of AlN using different Fits on Experimental High Pressure Data

    Article • High Pressure Research, January 2002, Taylor & Francis

    David Dunstan

  42. Photoluminescence of (111) In x Ga 1 − x As / GaAs strained-layer quantum wells under hydrostatic pressure

    Article • May 2001, American Physical Society (APS)

    David Dunstan

  43. Theory of the Anomalous Low Band-Gap Pressure Coefficients of Semiconductor Strained Layers

    Article • physica status solidi (b), January 2001, Wiley

    David Dunstan

  44. Theory of the anomalously low band-gap pressure coefficients in strained-layer semiconductor alloys

    Article • November 2000, American Physical Society (APS)

    David Dunstan

  45. Zen diamond-anvil low-pressure cell

    Article • Review of Scientific Instruments, November 2000, American Institute of Physics

    David Dunstan

  46. Carbon nanotubes: From molecular to macroscopic sensors

    Article • September 2000, American Physical Society (APS)

    David Dunstan

  47. Identity of molecular and macroscopic pressure on carbon nanotubes

    Article • High Pressure Research, September 2000, Taylor & Francis

    David Dunstan

  48. Coherency Strain and a New Yield Criterion

    Article • MRS Proceedings, January 2000, Springer Science + Business Media

    David Dunstan

  49. Control of plasticity with coherency strain

    Article • Philosophical Magazine Letters, June 1999, Taylor & Francis

    David Dunstan

  50. Investigations of Semiconductor Band Structure Using High Pressure.

    Article • January 1999, Springer Science + Business Media

    David Dunstan

  51. Experimental Techniques in the Diamond Anvil Cell

    Article • January 1999, Springer Science + Business Media

    David Dunstan

  52. Comparability and Reliability of High-Pressure Band-Gap Data in Tetrahedral Semiconductors

    Article • physica status solidi (b), January 1999, Wiley

    David Dunstan

  53. Raman spectroscopy of GaAs and InGaAs under pressure

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

    David Dunstan

  54. Comparability and Reliability of High-Pressure Band-Gap Data in Tetrahedral Semiconductors

    Article • physica status solidi (b), January 1999, Wiley

    David Dunstan

  55. Pressure dependence of the direct band gap in tetrahedral semiconductors

    Article • November 1998, American Physical Society (APS)

    David Dunstan

  56. Raman and absorption spectroscopy of InP under high pressure

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

    David Dunstan

  57. Combined Raman and transmission spectroscopy of ZnTe under pressure

    Article • Solid State Communications, July 1998, Elsevier

    David Dunstan

  58. High Pressure Techniques in Chemistry and Physics: A Practical Approach

    Article • Measurement Science and Technology, April 1998, Institute of Physics Publishing

    David Dunstan

  59. Coherency Strain as an Athermal Strengthening Mechanism

    Article • Physical Review Letters, May 1997, American Physical Society (APS)

    David Dunstan

  60. Determination of the Linear Pressure Coefficients of Semiconductor Bandgaps

    Article • physica status solidi (b), November 1996, Wiley

    David Dunstan

  61. High Pressure Experimental Methods

    Article • Measurement Science and Technology, September 1996, Institute of Physics Publishing

    David Dunstan

  62. Mathematical model for strain relaxation in multilayer metamorphic epitaxial structures

    Article • Philosophical Magazine A, May 1996, Taylor & Francis

    David Dunstan

  63. Pressure dependence of the photoluminescence of strained (001) and (111) In x Ga 1 − x As quantum wells

    Article • April 1996, American Physical Society (APS)

    David Dunstan

  64. Coherency Strain and High Strength at High Temperature

    Article • MRS Proceedings, January 1996, Springer Science + Business Media

    David Dunstan

  65. Strain and interdiffusion in semiconductor heterostructures

    Article • September 1994, American Physical Society (APS)

    David Dunstan

  66. Plastic relaxation of metamorphic single layer and multilayer InGaAs/GaAs structures

    Article • Applied Physics Letters, August 1994, American Institute of Physics

    David Dunstan

  67. Excited-state excitons in strained quantum wells under pressure

    Article • Journal de Physique IV (Proceedings), October 1993, EDP Sciences

    David Dunstan

  68. Electronic structure of (In,Ga) As(Ga, Al) As strained-layer quantum wells

    Article • Materials Science and Engineering B, June 1993, Elsevier

    David Dunstan

  69. Interdiffusion in InGaAs/GaAs quantum well structures as a function of depth

    Article • Journal of Applied Physics, April 1993, American Institute of Physics

    David Dunstan

  70. Recent Developments in Diamond-Anvil Cells

    Article • January 1993, Springer Science + Business Media

    David Dunstan

  71. Applications of Diamond-Anvil Cells to Materials Science

    Article • January 1993, Springer Science + Business Media

    David Dunstan

  72. Strain in semiconductor structures and devices

    Article • February 1992, SPIE

    David Dunstan

  73. Plastic relaxation of InGaAs grown on GaAs

    Article • Applied Physics Letters, December 1991, American Institute of Physics

    David Dunstan

  74. Investigation of the band structure of the strained systems InGaAs/GaAs and InGaAs/AIGaAs by high-pressure photoluminescence

    Article • Journal of Electronic Materials, August 1991, Springer Science + Business Media

    David Dunstan

  75. High-pressure investigation of GaSb and Ga 1 − x In x Sb/GaSb quantum wells

    Article • February 1991, American Physical Society (APS)

    David Dunstan

  76. Analysis and design of low-dimensional structures and devices using strain: II. Strained layer systems

    Article • Semiconductor Science and Technology, December 1990, Institute of Physics Publishing

    David Dunstan

  77. Analysis and design of low-dimensional structures and devices using strain: I. Hydrostatic pressure effects

    Article • Semiconductor Science and Technology, December 1990, Institute of Physics Publishing

    David Dunstan

  78. Thermal quenching of the photoluminescence of InGaAs/GaAs and InGaAs/AlGaAs strained-layer quantum wells

    Article • Applied Physics Letters, November 1990, American Institute of Physics

    David Dunstan

  79. Hydrostatic pressure coefficients of the photoluminescence of In x Ga 1 − x As/GaAs strained-layer quantum wells

    Article • August 1990, American Physical Society (APS)

    David Dunstan

  80. Miniature cryogenic diamond anvil cell

    Article • High Pressure Research, April 1990, Taylor & Francis

    David Dunstan

  81. Magneto-optical studies of CdTe/CdMnTe semimagnetic semiconductor superlattices under high pressure

    Article • High Pressure Research, April 1990, Taylor & Francis

    David Dunstan

  82. CdTe/ZnTe strained layer superlattices under high pressure

    Article • High Pressure Research, April 1990, Taylor & Francis

    David Dunstan

  83. The pressure dependence of the valence band discontinuity in quantum well structures

    Article • High Pressure Research, April 1990, Taylor & Francis

    David Dunstan

  84. Theory of the gasket in diamond anvil high-pressure cells

    Article • Review of Scientific Instruments, December 1989, American Institute of Physics

    David Dunstan

  85. The technology of diamond anvil high-pressure cells: II. Operation and use

    Article • Journal of Physics E Scientific Instruments, November 1989, Institute of Physics Publishing

    David Dunstan

  86. Technology of diamond anvil high-pressure cells: I. Principles, design and construction

    Article • Journal of Physics E Scientific Instruments, November 1989, Institute of Physics Publishing

    David Dunstan

  87. Electronic structure of cadmium-telluride – zinc-telluride strained-layer superlattices under pressure

    Article • September 1989, American Physical Society (APS)

    David Dunstan

  88. The pressure dependence of methyl tunnelling in MDBP from field-cycling NMR spectroscopy

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

    David Dunstan

  89. Hydrostatic pressure dependence of CdTe

    Article • Semiconductor Science and Technology, April 1989, Institute of Physics Publishing

    David Dunstan

  90. Diamond anvil cell high-pressure techniques for semiconductor research

    Article • Semiconductor Science and Technology, April 1989, Institute of Physics Publishing

    David Dunstan

  91. Pressure dependence of the valence-band discontinuity in GaAs/AlAs and GaAs/ Al x Ga 1 − x As quantum-well structures

    Article • March 1989, American Physical Society (APS)

    David Dunstan

  92. The pressure dependence of the photoluminescence intensity in hydrogenated amorphous silicon

    Article • Philosophical Magazine Letters, January 1989, Taylor & Francis

    David Dunstan

  93. Hydrostatic and uniaxial pressure coefficients of CdTe

    Article • October 1988, American Physical Society (APS)

    David Dunstan

  94. The hydrostatic pressure dependence of the band-edge photoluminescence of GaInAs

    Article • Solid State Communications, August 1988, Elsevier

    David Dunstan

  95. Miniature cryogenic diamond-anvil high-pressure cell

    Article • Review of Scientific Instruments, April 1988, American Institute of Physics

    David Dunstan

  96. The pressure dependence of the band offsets in a GaInAs/InP multiple quantum well structure

    Article • Journal of Crystal Growth, January 1988, Elsevier

    David Dunstan

  97. On the preparation dependence of the Staebler-Wronski effect in a-Si:H

    Article • Journal of Non-Crystalline Solids, January 1985, Elsevier

    David Dunstan

  98. Photoluminescence in hydrogenated amorphous silicon

    Article • November 1984, American Physical Society (APS)

    David Dunstan

  99. Geminate and distant-pair recombination in amorphous silicon: The metastable excited carrier population

    Article • Solid State Communications, January 1984, Elsevier

    David Dunstan

  100. Luminescence and magnetic resonance in post-hydrogenated microcrystalline silicon

    Article • Solid State Communications, October 1983, Elsevier

    David Dunstan

  101. Kinetics of distant-pair recombination: Application to amorphous silicon

    Article • Physica B+C, March 1983, Elsevier

    David Dunstan

  102. Non-geminate recombination in amorphous silicon

    Article • Solid State Communications, November 1982, Elsevier

    David Dunstan