SURFACE DYNAMICS GROUP


Detlef Diesing

Detlef Diesing

Publications:

  1. Mario Marpe, Andreas Wucher and Detlef Diesing,
    "The influence of internal and external electric fields on the transport of energetic electrons in nanostructures,"
    J. Electron Spectrosc. Rel. Phenom. 227, 51 (2018) (online).

  2. Mario Marpe, Andreas Wucher and Detlef Diesing,
    "Transport of 75–1000 eV electrons in metal–insulator–metal devices,"
    J. Electron Spectrosc. Rel. Phenom. 223, 37 (2018) (online).

  3. Matthias Uebel, Ashokanand Vimalanandan, Abdelaziz Laaboudi, Stefan Evers, Martin Stratmann, Detlef Diesing and Michael Rohwerder,
    "Fabrication of robust reference tips and reference electrodes for Kelvin probe applications in changing atmospheres,"
    Langmuir 33, 10807 (2017) (online).

  4. Jan P. Meyburg and Detlef Diesing,
    "Teaching the growth, ripening, and agglomeration of nanostructures in computer experiments,"
    J. Chem. Educ. 94, 1225 (2017) (online).

  5. Alexandr Alekhin, Ilya Razdolski, Nikita Ilin, Jan P. Meyburg, Detlef Diesing, Vladimir Roddatis, Ivan Rungger, Maria Stamenova, Stefano Sanvito, Uwe Bovensiepen and Alexey Melnikov,
    "Femtosecond spin current pulses generated by the nonthermal spin-dependent Seebeck effect and interacting with ferromagnets in spin valves,"
    Phys. Rev. Lett. 119, 017202 (2017) (online).

  6. Ilya Razdolski, Alexandr Alekhin, Nikita Ilin, Jan P. Meyburg, Vladimir Roddatis, Detlef Diesing, Uwe Bovensiepen and Alexey Melnikov,
    "Nanoscale interface confinement of ultrafast spin transfer torque driving non-uniform spin dynamics,"
    Nature Commun. 8, 15007 (2017) (online).

  7. Ilya Razdolski, Alexandr Alekhin, U. Martens, Damian Bürstel, Detlef Diesing, M. Münzenberg, Uwe Bovensiepen and Alexey Melnikov,
    "Analysis of the time-resolved magneto-optical Kerr effect for ultrafast magnetization dynamics in ferromagnetic thin films,"
    J. Phys.: Condens. Matter 29, 174002 (2017) (online).

  8. D. Diesing and E. Hasselbrink,
    "Chemical energy dissipation at surfaces under UHV and high pressure conditions revealed using thin film devices,"
    Chem. Soc. Rev. 45, 3747 (2016) (online).

  9. Alexey Melnikov, Ilya Razdolski, Alexandr Alekhin, Nikita Ilin, Jan Meyburg, Detlef Diesing, Vladimir Roddatis, Ivan Rungger, Maria Stamenova, Stefano Sanvito and Uwe Bovensiepen,
    "Ultrafast spintronics roadmap: from femtosecond spin current pulses to terahertz non-uniform spin dynamics via nano-confined spin transfer torques,"
    Proc. SPIE 9931, 99311A (2016) (online).

  10. Alexey Melnikov, Alexandr Alekhin, Damian Bürstel, Detlef Diesing, Tim O. Wehling, I. Rungger, M. Stamenova, S. Sanvito and Uwe Bovensiepen,
    "Ultrafast non-local spin dynamics in metallic bi-layers by linear and non-linear magneto-optics,"
    In: Ultrafast Magnetism I: Proceedings of UMC 2013, Strasbourg, France, edt: Jean-Yves Bigot, Springer, 2015, pp. 34-36

  11. Alexandr Alekhin, Damian Bürstel, Alexey Melnikov, Detlef Diesing and Uwe Bovensiepen,
    "Ultrafast laser-excited spin transport in Au/Fe/MgO(001): Relevance of the Fe layer thickness,"
    In: Ultrafast Magnetism I: Proceedings of UMC 2013, Strasbourg, France, edt: Jean-Yves Bigot, Springer, 2015, pp. 241-243

  12. M. Scheele, I. Nedrygailov, E. Hasselbrink and D. Diesing,
    "Energy transfer in argon atom - surface interactions studied by Pt-SiO2-Si thin film chemoelectronic devices,"
    Vacuum 111, 137 (2015) (online).

  13. J. Meyburg, I. Nedrygailov, E. Hasselbrink and D. Diesing,
    "Thermal desorption spectroscopy from the surfaces of metal-oxide-semiconductor nanostructures,"
    Rev. Sci. Instrum. 85, 104102 (2014) (online).

  14. K. Stella, S. Franzka, D. Bürstel, D. Diesing, D. Mayer and V. Roddatis,
    "Electrochemical oxidation as vertical structuring tool for ultrathin (d < 10 nm) valve metal films,"
    ECS J. Solid State Sci. Technol. 3, P143 (2014) (reprint).

  15. M. A. Hashemian, E. Palacios, I. I. Nedrygailov, D. Diesing and E. Karpov,
    "Thermal properties of the stationary current in mesoporous Pt/TiO2 structures in oxyhydrogen atmosphere,"
    ACS Appl. Mater. Interfaces 5, 12375 (2013) (online).

  16. B. Schindler, D. Diesing and E. Hasselbrink,
    "Electronic excitations in the course of the reaction of H with coinage and noble metal surfaces: A comparison,"
    Z. Phys. Chem. 227, 1381 (2013) (online).

  17. S. Hanke, A. Duvenbeck, C. Heuser, B. Weidtmann, D. Diesing, M. Marpe and A. Wucher,
    "Computer simulation of internal electron emission in ion-bombarded metals,"
    Nucl. Instrum. Methods B 303, 55 (2013) (online).

  18. B. Schindler, D. Diesing and E. Hasselbrink,
    "Electronically non-adiabatic processes in the interaction of H with a Au surface revealed using MIM junctions: The temperature dependence,"
    J. Phys. Chem. C 117, 6337 (2013) (online).

  19. I. I. Nedrygailov, E.G. Karpov, E. Hasselbrink and D. Diesing,
    "On the significance of thermoelectric and thermionic emission currents induced by chemical reactions catalyzed on nanofilm metal-semiconductor heterostructures,"
    J. Vac. Sci. Technol. A 31, 021101 (2013) (online).

  20. D. Differt, W. Pfeiffer and D. Diesing,
    "Scanning internal photoemission microscopy for the identification of hot carrier transport mechanisms,"
    Appl. Phys. Lett. 101, 111608 (2012) (online).

  21. D. Bürstel and D. Diesing,
    "Electrochemically induced charge transfer in platinum–silicon heterosystems,"
    Phys. Status Solidi A 209, 805 (2012) (online).

  22. I.I. Nedrygailov, E. Hasselbrink, D. Diesing, S. K. Dasari, M. A. Hashemian and E. G. Karpov,
    "Non-invasive measurement and control of the temperature of Pt nanofilms on Si supports,"
    J. Vac. Sci. Technol. A 30, 030601 (2012) (online).

  23. M. L. Cummings, Te Yu Chien, C. Preissner, V. Madhavan, D. Diesing, M. Bode, J. W. Freeland and V. Rose,
    "Combining scanning tunneling microscopy and synchrotron radiation for high -resolution Imaging and spectroscopy with chemical, electronic, and magnetic contrast,"
    Ultramicroscopy 112, 22 (2011) (online).

  24. J. Hopster, D. Diesing, A. Wucher and M. Schleberger,
    "Comparison of ion beam and electron beam induced transport of hot charge carriers in metal-insulator-metal junctions,"
    Mater. Res. Soc. Proc. 1354, 7 (2011) (online).

  25. C. Heuser, M. Marpe, D. Diesing and A. Wucher,
    "The possible role of anisotropy in kinetic electronic excitation of solids by particle bombardment,"
    Nucl. Instrum. Methods B 269, 1185 (2011) (online).

  26. M. Marpe, Ch. Heuser, D. Diesing and A. Wucher,
    "Internal electron emission in metal-insulator-metal thin film tunnel devices bombarded with keV argon and gold-cluster projectiles,"
    Nucl. Instrum. Methods B 269, 972 (2011) (online).

  27. K. Stella, D. A. Kovacs, D. Diesing, W. Brezna and J. Smoliner,
    "Charge transport through thin amorphous titanium and tantalum oxide layers,"
    J. Electrochem. Soc. 158, P65 (2011) (reprint).

  28. B. Schindler, D. Diesing and E. Hasselbrink,
    "Electronic excitations induced by hydrogen surface chemical reactions on gold,"
    J. Chem. Phys. 134, 034705 (2011) (online).

  29. D. Diesing, D. Kovács, K. Stella and Ch. Heuser,
    "Characterization of atom and ion-induced ”internal” electron emission by thin film tunnel junctions,"
    Nucl. Instrum. Methods B 269, 1185 (2011) (online).

  30. K. Stella, D. Bürstel, E. Hasselbrink and D. Diesing,
    "Thin tantalum films on crystalline silicon - a metallic glass,"
    Phys. Status Solidi (RRL) 5, 68 (2011) (online).

  31. P. Thissen, B. Schindler, E. Hasselbrink and D. Diesing,
    "Optical response of metal–insulator–metal heterostructures and their application for the detection of chemicurrents,"
    New J. Phys. 12, 113014 (2010) (online).

  32. D. Kovács, A. Golczewski, G. Kowarik, F. Aumayr and D. Diesing,
    "Low-energy ion-induced electron emission in metal-insulator-metal sandwich structures,"
    Phys. Rev. B 81, 075411 (2010) (reprint).

  33. K. Stella, D. A. Kovács and D. Diesing,
    "Photosensitive metal–insulator–semiconductor devices with stepped insulating layer,"
    Electrochem. Solid-State Lett. 12, H453 (2009) (reprint).

  34. K. Stella, D. Bürstel, S. Franzka, D. Diesing and O. Posth,
    "Preparation and properties of thin amorphous tantalum films formed by small e-beam evaporators,"
    J. Phys. D 42, 135417 (2009) (reprint)

  35. Heuser, Ch., M. Marpe, D. Diesing and A. Wucher,
    "Kinetic excitation of solids induced by energetic particle bombardment: Influence of impact angle,"
    Nucl. Instrum. Methods B 267, 601 (2008) (online).

  36. Peters, T., C. Haake, D. Diesing, D. A. Kovács, A. Golczewski, G. Kowarik, F. Aumayr, A. Wucher and M. Schleberger,
    "Hot electrons induced by slow multiply charged ions,"
    New J. Phys. 10, 073019 (2008) (online).

  37. Meyer, S., Ch. Heuser, D. Diesing and A. Wucher,
    "Kinetic electronic excitation of solids by fast-particle bombardment,"
    Phys. Rev. B 78, 035428 (2008) (online).

  38. Kovács, D. A., T. Peters, C. Haake, A. Wucher, M. Schleberger, A. Golczewski, F. Aumayr and D. Diesing,
    "Potential electron emission induced by multiply charged ions in thin film tunnel junctions,"
    Phys. Rev. B 77, 245432 (2008) (online).

  39. Stella, K., and D. Diesing,
    "The field dependence of aging processes,"
    J. Electrochem. Soc. 154, C663 (2007) (reprint).

  40. Hassel, A. W., and D. Diesing,
    "Modification of trap distributions in anodic aluminum tunnel barriers,"
    J. Electrochem. Soc. 154, C558 (2007) (reprint).

  41. Kovács, D. A., J. Winter, S. Meyer, A. Wucher and D. Diesing,
    "Photo and particle induced transport of excited carriers in thin film tunnel junctions,"
    Phys. Rev. B 76, 235408 (2007) (online).

  42. Mildner, B., E. Hasselbrink and D. Diesing,
    "Electronic excitations induced by surface reactions of H and D on gold,"
    Chem. Phys. Lett. 432, 133-138 (2006) (online).

  43. Kovács, D. A., T. Babkina, T. Gans, U. Czarnetzki and D. Diesing,
    "Electronic excitation in metals through hyperthermal atoms,"
    J. Phys. D: Appl. Phys. 39, 5224-5229 (2006) (online).

  44. Jeliazova, Y., M. Kayser, B. Mildner, A. W. Hassel and D. Diesing,
    "Temperature stability of thin anodic oxide films in metal/insulator/metal structures: A comparison between tantalum and aluminium oxide,"
    Thin Solid Films 500, 330-335 (2006) (online).

  45. Meyer, S., D. Diesing and A. Wucher,
    "The use of MIM tunnel junctions to investigate kinetic electron excitation in atomic collision cascades,"
    Nucl. Instrum. Meth. B 230, 608-612 (2005) (online).

  46. Meyer, S., D. Diesing and A. Wucher,
    "Kinetic electron excitation in atomic collision cascades,"
    Phys. Rev. Lett. 93, 137601 (2004) (online).

  47. Wandlowski, Th., K. Ataka, S. Pronkin and D. Diesing,
    Surface enhanced infrared spectroscopy - Au(111 - 20 nm)/sulphuric acid - New aspects and challenges,"
    Electrochimica Acta 49, 1233-1247 (2004).

  48. Diesing, D., M. Merschdorf, A. Thon and W. Pfeiffer,
    "Identification of multiphoton induced photocurrents in metal-insulator-metal junctions,"
    Appl. Phys. B: Lasers and Optics 78, 443-446 (2004) (online).

  49. Thon, A., M. Merschdorf, W. Pfeiffer, T. Klamroth, P. Saalfrank and D. Diesing,
    "Photon-assisted tunneling versus tunneling of excited electrons in metal-insulator-metal junctions,"
    Appl. Phys. A: Materials Science and Processing 78, 189-199 (2004) (online).

  50. Diesing, D., G. Kritzler, M. Stermann, D. Nolting and A. Otto,
    "Metal/insulator/metal junctions for electrochemical surface science,"
    J. Solid-State Electrochem. 7, 389-415 (2003).

  51. Diesing, D., J. Berndt, D. Douai and J. Winter, "Reversible resistivity change of thin silver films in the spatial afterglow of a nitrogen discharge,"
    Thin Solid Films 409, 243 (2002).

  52. Hassel, A. W. and D. Diesing,
    "Trapping of transient processes in aluminium oxide thin films in a voltage pulse experiment,"
    Electrochem. Comm. 4, 1 (2002).

  53. Hassel, A. W. and D. Diesing,
    "Breakdown of ultrathin anodic valve metal oxide films in metal-insulator- metal-contacts compared with metal-insulator-electrolyte contacts,"
    Thin Solid Films 414, 296-303 (2002).

  54. Schatteburg, S., D. Diesing, and A. Otto,
    "Optical surface adsorbate charge transfer excitations,"
    Appl. Phys. B, 70, 573–577 (2000) (online).

  55. Otto, A., D. Diesing, S. Schatteburg, and H. Janssen,
    "Sensitive linear surface optics with metal / insulator / metal tunnel contacts,"
    Phys. Status Solidi A 175, 297 (1999) (online).

  56. Diesing, D., A. W. Hassel and M. M. Lohrengel,
    "Aluminium oxide tunnel junctions: Influence of preparation technique, sample geometry and oxide thickness,"
    Thin Solid Films 342, 282 (1999) (online).

  57. Otto, A. D. Diesing, S. Schatteburg and H. G. Janssen,
    "Sensitive linear surface optics with metal-insulator-metal tunnel contacts,"
    Phys. Status Solidi A 175, 297 (1999).

  58. Futamata, M., and D. Diesing,
    "Adsorbed state of pyridine, uracil and water on gold electrode surfaces,"
    Vibrational Spectrosc. 19, 187 (1999) (online).

  59. Otto, A., and D. Diesing,
    "The role of atomic scale roughness in hot electron chemistry,"
    J. Phys. Chem. B 103, 2696 (1999) (online).

  60. Diesing, D., G. Kritzler, and A. Otto,
    "Reply to: Comments on: Time resolved charge transfer with hot electrons at the silver / electrolyte interface,"
    Ber. Bunsenges. Phys. Chem. 101, 762 (1997)

  61. Diesing, D., H. Winkes, and A. Otto,
    "Time resolved investigation of the hydrogen evolution reaction on Ag(111), Ag(100), smooth polycrystalline and activated polycrystalline silver surfaces,"
    Phys. Status Solidi A 159, 243 (1997) (online).

  62. Diesing, D., S. Rüße, A. Otto, and M. M. Lohrengel,
    "Time resolved charge transfer with hot electrons at the silver/electrolyte interface,"
    Ber. Bunsenges. Phys. Chem. 99, 1402 (1995).

  63. Diesing, D., H. Janssen and A. Otto,
    "Surface reactions with hot electrons and hot holes in metals,"
    Surf. Sci. 331/3, 289 (1995) (online).

  64. Janssen, H., D. Diesing and A. Otto,
    "Enhanced inverse photoemission by hot electrons at strongly charged silver surfaces,"
    Surf. Sci. 331/3, 1267 (1995) (online).