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Nanostrukturierung und Reinraumzentrum-Infrastruktur

Arbeitsgruppe 2.44

Publikationen

 

 

2015

Schukfeh, M. I.; Storm, K.; Hansen, A.  G.; Thelander, C.; Hinze; Beyer, A.; Weimann, Th.; Samuelson, L.; Tornow, M.; Formation of nanogaps in InAs nanowires by selectively etching embedded InP segments; Nanotechnology 25 (2014), 46, 465306-1-465306-6; dx.doi.org/10.1088/0957-4484/25/46/465306;

Bechstein, S.; Rüde, F.; Drung, D.; Storm, J.; Köhn, C.; Kieler, O.; Kohlmann, J.; Weimann, Th.; Patel, T.; Li, Bo; Cox, D.; Gallop, J.C.; Hao, L.; Schurig, Th; Design and fabrication of coupled nanoSQUIDs and NEMs; IEEE Transactions on Applied Superconductivity 25 (2015), 3, 1602604; dx.doi.org/10.1109/TASC.2014.2371696

2014 - 2013

Fricke, L.; Wulf, M.; Kästner, B.; Hohls, F.; Mirovsky, P.; Mackrodt, B.; Dolata, R.; Weimann, Th.; Pierz, K.; Siegner, U.; Schumacher, H. W.; Self-referenced single-electron quantized current source; Physical Review Letters 112 (2014), 226803-1-226803-5; dx.doi.org/10.1103/PhysRevLett.112.226803; http://xxx.lanl.gov/abs/1312.5669 

Woszczyna, M.; Winter, A.; Grothe, M.; Willunat, A.; Wundrack, S.; Stosch, R.; Weimann, Th.; Ahlers, F. J.; Turchanin, A.; All-carbon vertical van der Waals heterostructures: Non-destructive functionalization of graphene for electronic applications; Advanced Materials 26 (2014), 28, 4831-4837; dx.doi.org/10.1002/adma.201400948 

Fricke, L.; Wulf, M.; Kästner, B.; Kashcheyevs, V.; Timoshenko, J.; Nazarov, P.; Hohls, F.; Mirovsky, P.; Mackrodt, B.;  Dolata, R.; Weimann, Th.; Pierz, K.; Schumacher, H. W.; Counting statistics for electron capture in a dynamic quantum dot; Physical Review Letters 110 (2013), 12, 126803-1-126803-5; dx.doi.org/10.1103/PhysRevLett.110.126803

Nagel, J.; Buchter, A.; Xue, F.; Kieler, O.; Weimann, Th.; Kohlmann, J.; Zorin, A.; Rüffer, D.; Russo-Averchi, E.; Berberich, P.; Fontcuberta i Morral, A.; Grundler, D.; Kleiner, R.; Koelle, D.; Poggio, M.; Kemmler, M.; Nanoscale multifunctional sensor formed by a Ni nanotube and a scanning Nb nanoSQUID; Physical Review B 88 (2013), 6, 064425-1-064425-7; dx.doi.org/10.1103/PhysRevB.88.064425

Buchter, A.; Nagel, J.; Rüffer, D.; Xue, F.; Weber, D. P.; Kieler, O.; Weimann, Th.; Kohlmann, J.; Zorin, A.; Russo-Averchi, E.; Huber, R.; Berberich, P.; Fontcuberta i Morral, A.; Kemmler, M.; Kleiner, R.; Koelle, D.; Grundler, D.; Poggio, M.; Reversal mechanism of an individual Ni nanotube simultaneously studied by torque and SQUID magnetometry; Physical Review Letters 111 (2013), 6, 067202-1-067202-5; dx.doi.org/10.1103/PhysRevLett.111.067202; prl.aps.org/abstract/PRL/v111/i6/e067202

Wölbing, R.; Nagel, J.; Schwarz, T.; Kieler, O.; Weimann, Th.; Kohlmann, J.; Zorin, A.; Kemmler, M.; Kleiner, R.; Koelle, D.; Nb nano superconducting quantum interference devices with high spin sensitivity for operation in magnetic fields up to 0.5 T; Applied Physics Letters 102 (2013), 19, 192601-1-192601-4; dx.doi.org/10.1063/1.4804673; arxiv.org/abs/1304.7584

Schukfeh, M. I.; Storm, K.; Mahmoud, A.; Søndergaard, R.; Szwajca, A.; Mickiewicz A.; Hansen, A.; Hinze, P.; Weimann, Th.; Fahlvik S.; Bora, A.; Dick, K. A.; Thelander, C.; Krebs, F. C.; Lugli, P. Samuelson, L.; Tornow, M., Conductance enhancement of InAs/InP heterostructure nanowires by surface functionalization with oligo(phenylene vinylene)s; ACS Nano 7 (2013), 5, 4111-4118; dx.doi.org/10.1021/nn400380g

Matei, D. G.; Weber, N.; Kurasch, S.; Wundrack, S.; Woszczyna, M.; Grothe, M.; Weimann, Th.; Ahlers, F. J.; Stosch, R.; Kaiser, U.; Turchanin, A.; Functional single-layer graphene sheets from aromatic monolayers; Advanced Materials 25 (2013), 30, 4146-4151; dx.doi.org/10.1002/adma.201300651

2012 - 2011

Scheller, Th.; Müller, F.; Wendisch, R.; Kieler, O.; Springborn, U.; Störr, K.; Egeling, B.; Weimann, Th.; Palafox Gamir, L.; Behr, R.; Kohlmann, J.; SNS junctions for AC Josephson voltage standards; Physics Procedia 36 (2012), [Online only], 48-52; dx.doi.org/10.1016/j.phpro.2012.06.128;

Woszczyna, M.; Friedemann, M.; Pierz, K.; Weimann, Th.; Ahlers, F. J.; Magneto-transport properties of exfoliated graphene on GaAs; Journal of Applied Physics 110 (2011), 4, 043712-1-043712-6; dx.doi.org/10.1063/1.3624611

Woszczyna, M.; Friedemann, M.; Dziomba, Th.; Weimann, Th.; Ahlers, F. J.J; Graphene p-n junction arrays as quantum-Hall resistance standards; Applied Physics Letters 99 (2011), 2, 022112-1-022112-3; dx.doi.org/10.1063/1.3608157

Fakhri, M.; Görrn, P.; Weimann, Th.; Hinze, P.; Riedl, Th.; Enhanced stability against bias-stress of metal-oxide thin film transistors deposited at elevated temperatures; Applied Physics Letters 99 (2011), 12, 123503-1-123503-3; apl.aip.org/resource/1/applab/v99/i12/p123503_s1

Winkler, Th.; Schmidt, H.; Flügge, H.; Nikolayzik, F.; Baumann, I.; Schmale, S.; Weimann, Th.; Hinze, P.; Johannes, H.; Rabe, T.; Hamwi, S.; Riedl, Th.; Kowalsky, W.; Efficient large area semitransparent organic solar cells based on highly transparent and conductive ZTO/Ag/ZTO multilayer top electrodes; Organic Electronics 12 (2011), 1612-1618; dx.doi.org/10.1016/j.orgel.2011.06.015

Bahlawane, N.; Kohse-Höinghaus, K.; Weimann, Th.; Hinze, P.; Röhe, S.; Bäumer, M.; Rational design of functional oxide thin films with embedded magnetic or plasmonic metallic nanoparticles; Angewandte Chemie / International Edition 50 (2011), 42, 9975-9960; dx.doi.org/10.1002/anie.201102489

Leicht, C.; Mirovsky, P.; Kästner, B.; Hohls, F.; Kashcheyevs, V.; Kurganova, E. V.; Zeitler, U.; Weimann, Th.; Pierz, K.; Schumacher, H. W.; Generation of energy selective excitations in quantum Hall edge states; Semiconductor Science and Technology 26 (2011), 5, 055010-1-055010-4; dx.doi.org/10.1088/0268-1242/26/5/055010

Nagel, J.; Kieler, O.; Weimann, Th.; Wölbing, R.; Kohlmann, J.; Zorin, A.; Kleiner, R.; Koelle, D.; Kemmler, M.; Superconducting quantum interference devices with submicron Nb/HfTi/Nb junctions for investigation of small magnetic particles; Applied Physics Letters 99 (2011), 032506-1-032506-3; dx.doi.org/10.1063/1.3614437

Turchanin, A.; Weber, D.; Büenfeld, M.; Kisielowski, C.; Fistul, M. V.; Efetov, K. B.; Weimann, Th.; Stosch, R.; Mayer, J.; Gölzhäuser, A.; Conversion of self-assembled monolayers into nanocrystalline graphene: structure and electric transport; ACS Nano 5 (2011), 5, 3896-3904; dx.doi.org/10.1021/nn200297n

Yaghobian, F.; Weimann, Th.; Güttler, B.; Stosch, R.; On-chip approach for traceable quantification of biomarkers based on isotope-dilution surface-enhanced Raman scattering (IDSERS); Lab on a Chip 11 (2011), 17, 2955-2960; dx.doi.org/10.1039/C1LC20032A

Stosch, R.; Yaghobian, F.; Weimann, Th.; Brown, R.; Milton, M.; Güttler, B.; Lithographical gap-size engineered nanoarrays for surface-enhanced Raman probing of biomarkers; Nanotechnology 22 (2011), 10, 105303-1-105303-6; dx.doi.org/10.1088/0957-4484/22/10/105303

2010 - 2009

Mirovsky, P.; Kästner, B.; Leicht, C.; Welker, A.; Weimann, Th.; Pierz, K.; Schumacher, H. W.; Synchronized single electron emission from dynamical quantum dots; Applied Physics Letters 97 (2010), 25, 252104-1-252104-13; dx.doi.org/10.1063/1.3527940

Leicht, C.; Kästner, B.; Kashcheyevs, V.; Mirovsky, P.; Weimann, Th.; Pierz, K.; Schumacher, H. W.; Non-adiabatic pumping of single electrons affected by magnetic fields; Physica E 42 (2010), 4, 911-914; dx.doi.org/10.1016/j.physe.2009.11.109; arxiv.org/abs/0909.2778v1

Fündling, S.; Sökmen, Ü.; Merzsch, S.; Neumann, R.; Hinze, P.; Weimann, Th.; Jahn, U.; Trampert, A.; Riechert, H.; Peiner, E.; Wehmann, H.; Waag, A.; GaN nanorods and LED structures grown on patterned Si and AlN/Si substrates by selective area growth; Physica Status Solidi C 7 (2010), 7/8, 2224-2226; dx.doi.org/10.1002/pssc.200983457

Ottaviani, I.; Cirillo, M.; Lucci, M.; Merlo, V.; Savato, M.; Castellano, M. G.; Torrioli, G.; Müller, F.; Weimann, Th.; Collective cavity mode excitations in arrays of Josephson junctions; Physical Review B 80 (2009), 17, 174518-1-174518-5; link.aps.org/doi/10.1103/PhysRevB.80.174518; dx.doi.org/10.1103/PhysRevB.80.174518

Schnietz, M.; Turchanin, A.; Nottbohm, C. T.; Beyer, A.; Solak, H. H.; Hinze, P.; Weimann, Th.; Gölzhäuser, A.; Chemically functionalized carbon nanosieves with 1-nm thickness; Small 5 (2009), 23, 2651-2655; dx.doi.org/10.1002/smll.200901283

Müller, F.; Behr, R.; Weimann, Th.; Palafox Gamir, L.; Olaya, D.; Dresselhaus, P. D.; Benz, Samuel P.; 1 V and 10 V SNS programmable voltage standards for 70 GHz; IEEE on Transactions on Applied Superconductivity 19 (2009), 3,1, 981-986; dx.doi.org/10.1109/TASC.2009.2027472

Meyer, J.; Görrn, P.; Bertram, F.; Hamwi, S.; Winkler, Th.; Johannes, H.; Weimann, Th.; Hinze, P.; Riedl, Th.; Kowalsky, W.; Al2O3/ZrO2 nanolaminates as ultrahigh gas-diffusion barriers - a strategy for reliable encapsulation of organic electronics; Advanced Materials 21 (2009), 18, 1845-1849; dx.doi.org/10.1002/adma.200803440

Fündling, S.; Li, S.; Sökmen, Ü.; Merzsch, S.; Hinze, P.; Weimann, Th.; Jahn, U.; Trampert, A.; Riechert, H.; Peiner, E.; Wehmann, H.; Waag, A.; Three-dimensionally structured silicon as a substrate for the MOVPE growth of GaN nanoLEDs; Physica Status Solidi A 206 (2009), 6, 1194-1198; dx.doi.org/10.1002/pssa.200880841

Turchanin, A.; Beyer, A.; Nottbohm, C. T.; Zhang, X.; Stosch, R.; Sologubenko, A.; Mayer, J.; Hinze, P.; Weimann, Th.; Gölzhäuser, A.; One nanometer thin carbon nanosheets with tunable conductivity and stiffness; Advanced Materials 21 (2009), 1233-1237; dx.doi.org/10.1002/adma.200803078

2008 - 2007

Meyer, J.; Winkler, Th.; Hamwi, S.; Schmale, S.; Johannes, H.; Weimann, Th.; Hinze, P.; Kowalsky, W.; Riedl, Th.; Transparent inverted organic light-emitting diodes with a tungsten oxide buffer layer: Advanced Materials 20 (2008), 20, 3834-3839; dx.doi.org/10.1002/adma.200800949

Fündling, S.; Sökmen, Ü.; Peiner, E.; Weimann, Th.; Hinze, P.; Jahn, U.; Trampert, A.; Riechert, H.; Bakin, A.; Wehmann, H.; Waag, A.; Gallium nitride heterostructures on 3D structured silicon; Nanotechnology 19 (2008), 40, 405301-1-405301-6; dx.doi.org/10.1088/0957-4484/19/40/405301; stacks.iop.org/Nano/19/405301

Weimann, Th.; Hinze, P.; Schlenker, E.; Bakin, A.; Mofor, A. C.; Behrends, A.; Waag, A.; Electrical and structural characterisation of single ZnO nanorods; Microelectronic Engineering 85 (2008), 5/6, 1248-1252         

Schlenker, E.; Bakin, A.; Weimann, Th.; Hinze, P.; Weber, D. H.; Gölzhäuser, A.; Wehmann, H.-H.; Waag, A.; On the difficulties in characterizing ZnO nanowires; Nanotechnology 19 (2008), 36, 365707-1-65707-7; dx.doi.org/10.1088/0957-4484/19/36/365707

Kästner, B.; Kashcheyevs, V.; Beer S.; Amakawa, S.; Blumenthal, M. D.; Li, L.; Jansen, T. J. B. M.; Hein, G.; Pierz, K.; Weimann, Th.; Siegner, U.; Schumacher, H. W.; Single-parameter nonadiabatic quantized charge pumping; Physical Review B 77 (2008), 153301, 153301-1-153301-4; dx.doi.org/10.1103/PhysRevB.77.153301

Schlenker, E.; Bakin, A.; Postels, B.; Mofor, A. C.; Wehmann, H.-H.; Weimann, Th.; Hinze, P.; Waag, A.; Electrical characterization of ZnO nanorods; Physica Status Solidi B 244 (2007), 5, 1473-1477; dx.doi.org/10.1002/pssb.200675111

Karnutsch, C.; Stroisch, M.; Punke, M.; Lemmer, U.; Wang, J.; Weimann, Th.;  Laser diode-pumped organic semiconductor lasers utilizing two-dimensional photonic crystal resonators; IEEE Photonics Technology Letters 19 (2007), 10, 741-743;

Karnutsch, C.; Pflumm, C.; Heliotis, G.; Imperial DeMello, J. C.; Bradley, D. D. C.; Wang, J.; Weimann, Th.; Haug, V.; Gärtner, C.; Lemmer, U.; Improved organic semiconductor lasers based on a mixed-order distributed feedback resonator design; Applied Physics Letters 90 (2007), 131104-1-131104-3; dx.doi.org/10.1063/1.2717518

Dai, G.; Wolff, H.; Weimann, Th.; Xu, M.; Pohlenz, F.; Danzebrink, H.; Nanoscale surface measurements at the side walls of nano and micro structures; Measurement Science and Technology 18 (2007), 334-341; dx.doi.org/10.1088/0957-0233/18/2/S03

2006 - 2005

Kleine-Ostmann, Th.; Jördens, C.; Baaske, K.; Weimann, Th.; Hrabe de Angelis, M.; GSF Koch, M.; Conductivity of single-stranded and double-stranded deoxyribose nucleic acid under ambient conditions: the dominance of water; Applied Physics Letters 88 (2006), 102102-1-102102-3;

Karnutsch, C.; Gaertner, C.; Haug, V.; Lemmer, U.; Farrel, T.; Nehls, B. S.; Scherf, U.; Wang, Jing; Weimann, Thomas; Heliotis, G.; Pflumm, C.; DeMello, J. C.; Bradley, D. D. C.; Low threshold blue conjugated polymer lasers with first- and second-order distributed feedback; Applied Physics Letters: 89 (2006), 201108-1 - 201108-3

Rabe, T.; Gerlach, G.; Riedl, T.; Johannes, H.-H.; Kowalsky, W.; Wang, Jing; Weimann, Thomas; Hinze, Peter; Galbrecht, F.; Scherf, U.; Quasi-continuous-wave operation of an organic thin-film distributed feedback laser; Applied Physics Letters: 89 (2006), 8, 081115-1 - 081115-3

Riedl, T.; Rabe, T.; Johannes, H. H.; Kowalsky, W.; Wang, Jing; Weimann, Thomas; Hinze, Peter; Nehls, B.; Farrell, T.; Scherf, U.; Tunable organic thin-film laser pumped by an inorganic violet diode laser; Applied Physics Letters: 88 (2006), 241116-1 - 241116-3

Rabe, Torsten; Hoping, Matthias; Schneider, Daniel; Becher, Eike; Johannes, Hans-Hermann; Kowalsky, Wolfgang; Weimann, Thomas; Wang, Jing; Hinze, Peter; Nehls, Benjamin S.; Scherf, Ullrich; Farrell, Tony; Riedl, Thomas; Threshold reduction in polymer lasers based on poly(9,9-dioctylfluorene) with statistical binaphthyl units; Advanced Functional Materials: 15 (2005), 7, 1188 - 1192

Gölzhäuser, Armin; Eck, Wolfgang; Geyer, Wolfgang; Stadler, Volker; Weimann, Thomas; Hinze, Peter; Grunze, Michael; Chemical Nanolithography with Electron Beams; Advanced Materials: 13 (2001), 11, 806 - 809

Schneider, D.; Rabe, T.; Riedl, T.; Dobbertin, T.; Kröger, M.; Becker, E.; Johannes, H.-H.; Kowalsky, W.; Weimann, Thomas; Wang, Jing; Hinze, Peter; Organic solid-state lasers based on sexiphenyl as active chromophore; Journal of applied Physics: 98 (2005), 043104-1 - 043104-6

Spehr, T.; Siebert, A.; Fuhrmann-Lieker, T.; Salbeck, J.; Rabe, T.; Riedl, T.; Johannes, H. H.; Kowalsky, W.; Wang, Jing; Weimann, Thomas; Hinze, Peter; Organic solid-state UV-lasers based on spiro-terphenyl; Applied Physics Letters: 87 (2005), 161103-1 - 161103-3

Schneider, Daniel; Rabe, Torsten; Riedl, Thomas; Dobbertin, Thomas; Kröger, Michael; Becker, Eike; Johannes, Hans-Hermann; Kowalsky, Wolgang; Weimann, Thomas; Wang, Jing; Hinze, Peter; Gerhard, Anja; Stössel, Philipp; Vestweber, Horst; An ultraviolet organic thin-film solid-state laser for bio-marker applications; Advanced Materials: 17 (2005), 1, 31 - 34

2004 - 2003

Schneider, Daniel; Rabe, Thorsten; Riedl, Thomas; Dobbertin, T.; Werner, O.; Kröger, M.; Becker, E.; Johannes, H.-H.; Kowalsky, Wolfgang; Weimann, Thomas; Wang, Jing; Hinze, Peter; Gerhard, A.; Stössel, P.; Vestweber, H.; Deep blue widely tunable organic solid-state laser based on a spirobifluorene derivative; Applied Physics Letters: 84 (2004), 23, 4693 - 4695

Schneider, D.; Rabe, T.; Riedl, T.; Dobbertin, T.; Kröger, M.; Becker, E.; Johannes, H.-H.; Kowalsky, W.; Weimann, Thomas; Wang, Jing; Hinze, Peter;Laser threshold reduction in an all-spiro guest-host system; Applied Physics Letters: 85 (2004), 10, 1659 - 1661

Schneider, D.; Rabe, T.; Riedl, T.; Dobbertin, T.; Kröger, M.; Becker, E.; Johannes, H.-H.; Kowalsky, W.; Weimann, Thomas; Wang, Jing; Hinze, Peter; Ultrawide tuning range in doped organic solid-state lasers; Applied Physics Letters: 85 (2004), 11, 1886 - 1888

Dragnea, B.; Szarko, J. M.; Kowarik, S.; Weimann, Th.; Feldmann, J.; Leone; S. R.: Near-Field Surface Plasmon Excitation on Structured Gold Films. In: Nanoletters, Vol. 3; (2003) 1; 3-7.

W. Jutzi, S. Wünsch, E. Crocoll, M. Neuhaus, T. A. Scherer, T. Weimann and J. Niemeyer: "Microwave and dc Properties of Niobium Coplanar Nanolines with 50 nm Linewidth on Silicon. In: IEEE Transactions on Applied Superconductivity, Vol 13. No. 2 June 2003, 320-323

Weimann, Th.; Hinze, P.; Wünsch, S.; Scherer, T. A.; Jutzi, W.; Niemeyer, J.: Superconducting Coplanar Nanolines with 50 nm Linewidth. In: Microelectronic Engineering 67-68, 2003, 363-368.

Schneider, D.; Hartmann, S.; Benstem, T.; Dobbertin, T.; Heithecker, D.; Metzdorf, D.; Becker, E.; Riedel, T.; Johannes, H. H.; Kowalsky, W.; Weimann, T.; Wang, J.; Hinze,P.: Wavelength-tunable organic solid-state distributed-feetback laser. In: Appl. Phys., Laser and Optics, B77, 399 - 402 (2003).  

2002 - 2001

Wünsch, S.; Scherer, T. A.; Neuhaus, M.; Jutzi, W.; Weimann, T.; Niemeyer, J.: Measured quality factor and intermodulation product of CPW resonators on silicon substrates with 100 nm wide niobium lines at 17 GHz and 4.2 K. In: Physica C, 2002, Vol. 372, Part 1, pp. 478-481.

Weimann, T.; Geyer, W.; Hinze, P.; Stadler, V.; Eck, W.; Gölzhäuser, A.: Nanoscale Patterning of Self-assembled Monolayers by E-beam Lithography. In: Microelectronic Engineering: 57-58 (2001), 903 - 907

Weimann, T.; Scherer, H.; Krupenin, V. A.; Müller, F.; Niemeyer, J.: Four-angle evaporation method for the preparation of Single Electron Tunneling devices. In: Microelectronic Engineering: 57-58 (2001), 915 - 918

Scherer, H.; Weimann, T.; Zorin, A.; Niemeyer, J.: The effect of thermal annealing on the properties of Al-AlOx-Al single electron tunneling transistors. In: Journal of Applied Physics: 90 (2001), 5, 2528 - 2532

Yacoot, A.; Kuetgens, U.; Koenders, L.; Weimann, T.: A combined scanning tunnelling microscope and x-ray interferometer. In: Measurement, Science and Technology: 12 (2001), 10, 1660 - 1665  

2000 - 1999

Scherer, H.; Weimann, Th.; Hinze, P.; Samwer, B. W.; Zorin, A. B.; Niemeyer, J.: All-chromium single-electron tunneling devices fabricated by direct writing multilayer techniques. In: Physica B 284-288 (2000), 1806-1807.

Weimann, Th.; Scherer. H.; Hinze. P.; Niemeyer. J.: Fabrication of Metallic Multilayer Single Electron Tunneling Devices using Low-energy E-beam Lithography. In: Microelectronic Engineering 53 (2000), 225-228.

Pöpel, R; Hagedorn, D; Weimann, Th.; Buchholz, FI; Niemeyer, J: Superconductor-normal metal-superconductor process development for the fabrication of small Josephson junctions in ramp type configuration. In: Superconductor Science & Technology, (2000), 13, 2, 148-153.

Gölzhäuser, A; Geyer, W; Stadler, V; Eck, W.; Grunze, M; Edinger, K; Weimann, Th; Hinze, P: Nanoscale patterning of self-assembled monolayers with electrons. In: J. Vac. Sci. Technol., (2000) , B 18, 3414

Scherer, H.; Weimann, T.; Lotkhov, S. V.; Scherer, R.; Hinze, P.; Samwer, B.; Niemeyer, J.; Zorin, A. B.: Einzelelektronentunneln - Mehrlagentechnologie für metallische Nanometerstrukturen. In Supraleitung und Tieftemperaturphysik: Tagungsband zum 7. Statusseminar 14. und 15. Dezember 2000 ; Berichte zu F&E-Arbeitsgruppeen aus dem Förderbereich Physikalische Technologien des Bundesministeriums für Bildung und Forschung: (2001), 572 - 575

Gölzhäuser, A. Geyer, W.; Stadler, V.; Eck, W.; Grunze, M.; Weimann, T.; Hinze, P.; Edinger, K.: Nanoscale Patterning Self-Assembled Monolayers with Electrons. In: Journal of Vacuum Science and Technology B: 18 (2000), 6, 3414 - 3418

Weimann, Th.; Hinze, P.; Scherer, H.; Niemeyer, J: Fabrication of a Metalic Single Electron Tunneling Transistor by Multilayer Technique Using Lithography with a Scanning Transmission Electron Microscope. In: Microelectronic Engineering 46 (1999), S. 165-168.

Phillip, G.; Weis, J.; v. Klitzing, K.; Weimann, Th.; Hinze, P.: Shadow Evaporation Method for Fabrication of sub 10 nm Gaps between Metal Electrodes. Micro- and Nano-Engineering. In: Microelectronic Engineering 46 (1999), S. 157-160.

Pavolotsky, A. B.; Weimann, Th.; Scherer, H.; Krupenin; V. A.; Niemeyer, J.; Zorin, A.B.: Multilayer Technique for Fabricating Nb Junction Circuits Exhibiting Charging Effects. In: J. Vacuum Science & Techn. B 17 (1999), 230-232.

Lothkov, S. V.; Zangerle, H.; Zorin, A. B.; Weimann, Th.; Scherer, H.; Niemeyer, J.: Superconducting Electrometer Based on the Resistively Shunted Bloch Transistor. In: IEEE Trans. Appl. Supercond., 9 (1999), 3664-3667.

Pavolotsky, A. B.; Weimann, Th.; Scherer, H.; Krupenin; V. A.; Niemeyer, J.; Zorin, A.B.: Novel Method for Fabricating Deep Submicron Nb/AlOx/Nb Tunnel Junctions Based on Spin-on Glass Planarization. In: IEEE Trans. Appl. Supercond., 9 (1999), 3251-3254.

Dolata, R.; Weimann, T.; Scherer, H.; Niemeyer, J.: Sub µm Nb/AlOx/Nb Josephson Junctions Fabricated by Anodization Techniques. In: IEEE Trans. Appl. Supercond., 9 (1999), 3255-3258.

Krupenin, V. A.; Lothkov, S. V.; Scherer, H.; Weimann. Th.; Zorin, A. B.; Ahlers, F.-J.; Niemeyer, J.; Wolf, H.: Charging and heating effects in a system of coupled single-electron tunneling devices: In Phys. Rev. B 59 (1999), 778-784.

Scherer, H.; Weimann, Th.; Hinze, P.; Samwer, B. W.; Zorin, A. B.; Niemeyer, J.: Characterization of all-chromium tunnel junctions and single-electron tunneling devices fabricated by direct writing multilayer technique. In: Journal of Applied Physics, 86 (1999) 6956 - 6964.

Zorin, A. B.; Lothkov, S. V.; Pashkin, Yu. A.; Zangerle, H.; Krupenin, V. A.; Weimann, Th.; Scherer, H.; Niemeyer, J.: Highly Sensitive Electrometers Based on Single Cooper Pair Tunneling. In: Journal of Superconductivity 12 (1999), 747-755.  

1998 - 1997

Weimann, Th.; Scherer, H.; Wolf, H.; Krupenin, V. A.; Niemeyer, J.: A New Technology for Metallic Multilayer Single Electron Tunneling Devices. In: Microelectronic Engineering 41/42 (1998), S. 559-562

Wolf, H.; Ahlers, F.-J.; Niemeyer, J.; Scherer, H.; Weimann, Th.; Zorin, A.B.; Krupenin, V.A.; Lotkhov, S.V.; Presnov, D.E.: Investigation of the offset charge noise in single electron tunneling devices. In: IEEE Transactions on Instrumentation and Measurement 46, 303 (1997)

Weimann, Th.; Wolf, H.; Scherer, H.; Niemeyer, J.; Krupenin, V.A.: Metallic single electron devices fabricated using a multilayer technique. In: Applied Physics Letters, 71, 713-715 (1997)