In reviewed journals:

2018:

V. Porshyn et al., "Laser-induced melting and ablation of niobium (110) single crystals" sub. to Applied Surface Science (2018).

J. Breuer, M. Bachmann, F. Düsberg, A. Pahlke, S. Edler, C. Langer, C. Prommesberger, R. Ławrowski, R. Schreiner, P. Serbun and D. Lützenkirchen-Hecht: "Extraction of the current distribution out of saturated integral measurement data of p-type silicon field emitter arrys", J. Vac. Sci. Technol. B. 36, 051805 (2018).

2017:

V. I. Kleshch, V. A. Eremina, P. Serbun, A. S. Orekhov, D. Luetzenkirchen-Hecht, E. D. Obraztsova and A. N. Obraztsov: " A comparative study of field emission from semiconducting and metallic single-walled carbon nanotubes", Phys. Status Solidi b 255 1700268 (2017).

V. I. Kleshch, D. A. Bandurin, P. Serbun, R. R. Ismagilov, D. Luetzenkirchen-Hecht, G. Mueller, and A. N. Obraztsov: "Field electron emission from CVD nanocarbon films containing scrolled grahene structures"Phys. Status Solidi b 255 1700270 (2017),

V. Porshyn, V. I. Kleshch, E, A. Obraztsova, A. L. Chuvilin, D. Lützenkirchen-Hecht, and A. N. Obraztsov: "Photoinduced effects in field electron emission from diamond needles", Appl. Phys. Lett. 110, 182101 (2017).

2016:

M. Bachmann, F. Dams, F. Düsberg, M. Hofmann, A. Pahlke, C. Langer, C. Prommesberger, R. Ławrowski, R Schreiner, P. Serbun, D. Lützenkirchen-Hecht, and G. Müller: "Extraction of the characteristics of current-limiting elements from field emission measurement data", J. Vac. Sci. Technol. B. Microelectron. Mater. Process. Meas. Phenom., vol. 35, no. 2, p. 02C103 (2016).

V. Porshyn, S. Mingels, D. Lützenkirchen-Hecht, and G. Müller: "Laser-initiated explosive electron emission from flat germanium crystals", J. Appl. Phys. 120, 043303/1-8 (2016).

S. Mingels, V. Porshyn, C. Prommesberger, C. Langer, R. Schreiner, D. Lützenkirchen-Hecht, and G. Müller: ”Photosensitivity of p-type black Si field emitter arrays”, J. Appl. Phys. 119, 165104/1-8 (2016).

C. Langer, C. Prommesberger, R. Ławrowski, R Schreiner, P. Serbun, G. Müller, F. Düsberg, M. Hofmann, M. Bachmann, and A. Pahlke: ”Field emission properties of p-type black silicon on pillar structures”, J. Vac. Sci. Technol. B 34, 02G107/1-7 (2016).

2015:

S. Lagotzky, R. Barday, A. Jankowiak, T. Kamps, C. Klimm, J. Knobloch, G. Müller, B. Senkovskiy, and F. Siewert: ”Prevention of electron field emission from molybdenum substrates for photocathodes by the native oxide layer”, Eur. Phys. J. Appl. Phys. 70, 21301/1-8 (2015).

S. Mingels, V. Porshyn, B. Bornmann, D. Lützenkirchen-Hecht, and G. Müller: „Sensitive fast electron spectrometer in adjustable triode configuration with pulsed tunable laser for research on photo-induced field emission cathodes”, Rev. Sci. Instrum. 86, 043307/1-9 (2015).

D.A. Bandurin, S. Mingels, V.I. Kleshch, D. Lützenkirchen-Hecht, G. Müller, and A.N. Obraztsov: „Field emission spectroscopy evidence for dual-barrier electron tunnelling in nanographite”, Appl. Phys. Lett. 106, 233112/1-5 (2015).

S. Lagotzky, G. Müller: ”Statistical model for field emitter activation on metallic surfaces used in high-gradient accelerating structures”, Nucl. Instrum. and Meth. in Phys. Res. A 806, 193-198 (2016).

2013:

A. Navitski, S. Lagotzky, D. Reschke, X. Singer and G. Müller: "Field emitter activation on cleaned Niobium surfaces relevant for superconducting rf technology", Phys. Rev. Special Topics - Accelerators and Beams 16, 112001/1-8 (2013).

P. Serbun, B. Bornmann, A. Navitski, G. Müller, C. Prommesberger, C. Langer, F. Dams, and R. Schreiner: „Stable field emission of single B-doped Si tips and linear current scaling of uniform tip arrays for integrated vacuum microelectronic devices“, J. Vac. Sci. Technol. B 31, 02B101 1-6 (2013).

2012:

F. Dams, A. Navitski, C. Prommesberger, P. Serbun, C. Langer, G. Müller, and R. Schreiner: „Homogeneous field emission cathodes with precisely adjustable geometry fabricated by silicon technology “, IEEE Trans. Electron Devices 59, 2832-2837 (2012).

A. Navitski, P. Serbun, G. Müller, R.K. Joshi, J. Engstler, and J.J. Schneider: “Role of height and contact interface of CNT microstructures on Si for high current field emission cathodes ”, Eur. Phys. J. Appl. Phys. 59, 11302/1-6 (2012).

P. Serbun, F. Jordan, A. Navitski, G. Müller, I. Alber, M.E. Toimil-Molares, and C. Trautmann, „Copper nanocones grown in polymer ion-track membranes as field emitters“, Eur. Phys. J. Appl. Phys. 58, 104027/1-5 (2012).

B. Bornmann, S. Mingels, F. Dams, C. Prommesberger, R. Schreiner, D. Lützenkirchen-Hecht, and G. Müller: "Electron spectrometer in adjustable triode configuration for photo-induced field emission measurements", Rev. Sci. Instrum. 83, 013302 (2012).

2011:

R.K. Joshi, J. Engstler, A. Navitski, V. Sakharuk, G. Müller, and J.J. Schneider: "Gas phase synthesis and field emission properties of 3D aligned double walled carbon nanotube/anatase hybrid architectures", Nanoscale 3, 3258-3264 (2011).

2010:

A. Navitski, G. Müller, V. Sakharuk, A.L. Prudnikava, B.G. Shulitski and V.A. Labunov: ”Efficient high-current field emission from arrays of CNT columns”, J. Vac. Sci. Technol. B 28, C2B14-19 (2010).

2009:

A. Navitski, G. Müller, V. Sakharuk, T. Cornelius, C. Trautmann, and S. Karim: ”Efficient field emission from structured gold nanowire cathodes”, Eur. Phys. J. Appl. Phys. 48, 30502/1-6 (2009).

A. Dangwal-Pandey, G. Müller, D. Reschke, and X. Singer: ”Field emission from crystalline niobium”, Phys. Rev. Special Topics: Accelerators and Beams 12, 023501/1-8 (2009).

2008:

A. Dangwal, C.S. Pandey, G. Müller, S. Karim, T.W. Cornelius and C. Trautmann: ”Field emission properties of electrochemically deposited gold nanowires”, Appl. Phys. Lett. 92, 063115 (2008).

2007:

A. Dangwal, G. Müller, F. Maurer, J. Brötz, and H. Fuess: ”Field emission propeties of bare and gold-coated nickel nanowires grown in polymer ion-track membranes”, J. Vac. Sci. Technol. B 25, 586-589 (2007).

D. Lysenkov, J. Engstler, A. Dangwal, A. Popp, G. Müller, J.J. Schneider, V.M. Janardhanan, O. Deutschmann, P. Strauch, V. Ebert, and J. Wolfrum: ”Nonaligned carbon nanotubes anchored on porous alumina. Formation, process modelling, gas phase analysis and filed emission properties.”, Small 3, p. 974-985 (2007).

A. Dangwal, G. Müller, D. Reschke, K. Flöttmann, and X. Singer: ”Effective removal of field emitting sites from metallic surfaces by dry ice cleaning”, J. Appl. Phys. 102, 044903/1-7 (2007).

2006:

D. Lysenkov and G. Müller: ”Improved current densities of carbon nanotube cathodes by pulsed operation”, J. Vac. Sci. Technol. B 24, 1067-1071 (2006).

A. Dangwal, D. Reschke, and G. Müller: ”DC field emission scanning measurements on electropolished niobium samples”, Physica C 441, 83-88 (2006).

F. Maurer, A. Dangwal, D. Lysenkov, G. Müller, M.E. Toimil-Molares, C. Trautmann, J. Brötz, and H. Fuess: ”Field emission of copper nanowires in polymer ion-track membranes”, Nucl. Instrum. and Meth. in Phys. Res. B 245, 337-341 (2006).

2005:

D. Lysenkov and G. Müller: ”Field emission measurement techniques for the optimisation of carbon nanotube cathodes”, Int. J. Nanotechnology 2, 239-254 (2005).

D. Lysenkov, H. Abbas, G. Müller, J. Engstler, K.P. Budna, and J.J. Schneider: ”Electron field emission from carbon nanotubes on porous alumina”, J. Vac. Sci. Technol. B 23, 809-813 (2005).

2003:

B. Günther, F. Kaldasch, G. Müller, S. Schmitt, T. Henning, R. Huber, and M. Lacher: ”Uniformity and stability of field emission from bare and metal coated Si tip arrays”, J. Vac. Sci. Technol. B 21, 427-432 (2003).