Micro- and Nanotechnology

Controlled fabrication of ion track nanowires and channels. Reimar Spohr, Cristian Zet, Bernd Eberhard Fischer, Helge Kiesewetter, Pavel Apel, Igor Gunko, Lars Westerberg; Nuclear Instruments and Methods in Physics Research B 268 (2010) 676–686

Stroke Asymmetry of Tilted Superhydrophobic Ion Track Textures. Reimar Spohr, Gunjana Sharma, Pontus Forsberg, Mikael Karlsson, Anders Hallén, Lars Westerberg; Langmuir 26(9)(2010)6790-6796

Influence of a surfactant on single ion track etching. Preparing and manipulating individual cylindrical micro wires. Man, Leo C.T.; Apel, Pavel; Cheung, T.; Westerberg, Lars; Yu, Peter K.N.; Zet, Cristian; Spohr, Reimar. Nuclear Instruments and Methods in Physics Research B 265 (2007) 621–625.

Copper tubes prepared by electroless deposition in ion track templates. Bercu, B.; Enculescu, I.; Spohr, R.. Nuclear Instruments & Methods in Physics Research, Section B (Beam Interactions with Materials and Atoms), v 225, n 4, Oct. 2004, p 497-502.

Electrochemical deposition of PbSe1-xTex nanorod arrays using ion track etched membranes as template. Sima, M.; Enculescu, I.; Visan, T.; Spohr, R.; Trautmann, C.. Source: Molecular Crystals and Liquid Crystals, v 418, 2004, p 749-55.

Copper nanowires electrodeposited in etched single-ion track templates. Enculescu, I.; Siwy, Z.; Dobrev, D.; Trautmann, C.; Toimil Molares, M. E.; Neumann, R.; Hjort, K.; Westerberg, L.; Spohr, R.. Applied Physics A: Materials Science & Processing (2003), 77(6), 751-755.

Micromachining by ion track lithography. Thornell, Greger; Spohr, Reimar; Van Veldhuizen, Elbert Jan; Hjort, Klas . Sens. Actuators, A (1999), A73(1-2), 176-183.

Deep micromachining of insulating materials by etching of laterally constrained distributions of ion tracks. Thornell, G.; Bengtsson, H.; Spohr, R.; Van Veldhuizen, E. J.; Westerberg, L.; Schweitz, J.-A.; Studer, B.; Hjort, K. . Proc. - IEEE Annu. Int. Workshop Micro Electro Mech. Syst., 11th (1998), 211-217 Publisher: Institute of Electrical and Electronics Engineers, New York, N. Y.

Quartz micromachining by lithographic control of ion track etching. Klas Hjort, Greger Thornell, Jan-Åke Schweitz, Reimar Spohr. App. Phys. Lett., 69(22) (1996) 3435-3436.

Application of ion track membranes for preparation of metallic microstructures. J. Vetter, R. Spohr. Nucl. Instrum. Meth. Phys. Res. vol. B79(1993)691-694.

Manufacture, Observation, and Test of Membranes with Locatable Single Pores. R.E. Packard, J.P. Pekola, P.B. Price, R.N. R. Spohr, K.H. Westmacott, Zhu Yu-Qun. Rev. Sci. Instrum, vol. 57(8)(1986)1654 - 1660.

Heavy Ion Microlithography - A New Tool to Generate and Investigate Submicroscopic Structures. B.E. Fischer, R. Spohr. Nuclear Instruments and Methods, 168(1980)241 - 246.

Heavy Ion Lithography: A Tool for Investigation and Replication of Microscopic Objects. B.E. Fischer, B. Genswürger, R. Spohr. Int. J. Appl. Rad. Isotopes, 31(1980)297 -305.