@inproceedings{4015, author = {{As, Donald and Kemper, R.M. and Riedl, Thomas and Lindner, Jörg}}, location = {{Regensburg}}, title = {{{Cubic GaN on pre-patterned 3C-SiC/Si (001) substrates}}}, year = {{2016}}, } @inproceedings{4017, author = {{Brassat, Katharina and Brodehl, Christoph and Lindner, Jörg}}, location = {{Cluj-Napoca (Romania)}}, title = {{{Nanopatterning of surfaces with nanosphere lithography, block copolymer lithography and combinations of both }}}, year = {{2016}}, } @inproceedings{4018, author = {{Brassat, Katharina and Brodehl, Christoph and Lindner, Jörg}}, location = {{Warsaw (Poland)}}, title = {{{Self-assembled nanogap electrodes for the directed assembly of nanoparticles}}}, year = {{2015}}, } @inproceedings{4019, author = {{Brassat, Katharina and Brodehl, Christoph and Lindner, Jörg}}, location = {{Paderborn (Germany)}}, title = {{{Self-assembled Nanogap Electrodes in Microfluidic Channels}}}, year = {{2015}}, } @inproceedings{4020, author = {{Brodehl, Christoph and Riedl, Thomas and Greulich-Weber, Siegmund and Lindner, Jörg}}, location = {{Lille (France)}}, title = {{{Three-dimensional analysis of mask-clogging effects on the morphology of nanoparticles fabricated by nanosphere lithography}}}, year = {{2015}}, } @inproceedings{4021, author = {{Brodehl, Christoph and Greulich-Weber, Siegmund and Lindner, Jörg}}, location = {{Paderborn}}, title = {{{How to create billions of tailored plasmonic nanoparticles in half an hour}}}, year = {{2015}}, } @inproceedings{4022, author = {{Drude, Dennis and Brassat, Katharina and Brodehl, Christoph and Lindner, Jörg}}, location = {{Warsaw (Poland)}}, title = {{{Correlation between defect densities in colloidal nanosphere masks and experimental parameters}}}, year = {{2015}}, } @article{4023, author = {{Brodehl, Christoph and Greulich-Weber, Siegmund and Lindner, Jörg}}, issn = {{1946-4274}}, journal = {{MRS Proceedings}}, publisher = {{Cambridge University Press (CUP)}}, title = {{{An Algorithm for Tailoring of Nanoparticles by Double Angle Resolved Nanosphere Lithography}}}, doi = {{10.1557/opl.2015.77}}, volume = {{1748}}, year = {{2015}}, } @article{4024, abstract = {{We investigate the formation of cubic GaN quantum dots (QDs) on pseudomorphic strained cubic AlN layers on 3C-SiC (001) substrates grown by means of molecular beam epitaxy. Surface morphologies of various QD sizes and densities were obtained from uncapped samples by atomic force microscopy. These results were correlated with similar but capped samples by photoluminescence experiments. The QD density varies by one order of magnitude from ~1x10^10 cm^-2 to ~1x10^11 cm^-2 as a function of the GaN coverage on the surface. The initial layer thickness for the creation of cubic GaN QDs on cubic AlN was obtained to 1.95 monolayers by a comparison between the experimental results and an analytical model. Our results reveal the strain-driven Stranski-Krastanov growth mode as the main formation process of the cubic GaN QDs. }}, author = {{Bürger, M. and Lindner, Jörg and Reuter, Dirk and As, D. J.}}, issn = {{1862-6351}}, journal = {{physica status solidi (c)}}, number = {{4-5}}, pages = {{452--455}}, publisher = {{Wiley}}, title = {{{Investigation of cubic GaN quantum dots grown by the Stranski-Krastanov process}}}, doi = {{10.1002/pssc.201400132}}, volume = {{12}}, year = {{2015}}, } @inproceedings{4026, author = {{Garozzo, C. and Brassat, Katharina and La Magna, A. and Puglisi, R.A. and Lindner, Jörg}}, location = {{Warsaw (Poland)}}, title = {{{Self-Arrangement of Colloidal Au Nanoparticles in SiO2-Nanopores fabricated by Block-Copolymer Lithography}}}, year = {{2015}}, } @article{4027, abstract = {{We report the influence of {111} stacking faults on the cathodoluminescence (CL) emission characteristics of cubic GaN (c-GaN) films and cubic GaN/AlN multiquantum wells. Transmission electron microscopy (TEM) measurements indicate that stacking faults (SFs) on the {111} planes are the predominant crystallographic defects in epitaxial films, which were grown on 3CSiC/ Si (001) substrates by plasma-assisted molecular beam epitaxy. The correlation of the SFs and the luminescence output is evidenced with a CL setup integrated in a scanning TEM (STEM). By comparing the STEM images and the simultaneously measured CL signals it is demonstrated that SFs in these films lead to a reduced CL emission intensity. Furthermore, the CL emission intensity is shown to increase with increasing film thickness and decreasing SF density. This correlation can be connected to the reduction of the full width at half maximum of X-ray diffraction rocking curves with increasing film thickness of c-GaN films.}}, author = {{Kemper, R. M. and Veit, P. and Mietze, C. and Dempewolf, A. and Wecker, T. and Bertram, F. and Christen, J. and Lindner, Jörg and As, D. J.}}, issn = {{1862-6351}}, journal = {{physica status solidi (c)}}, number = {{4-5}}, pages = {{469--472}}, publisher = {{Wiley}}, title = {{{STEM-CL investigations on the influence of stacking faults on the optical emission of cubic GaN epilayers and cubic GaN/AlN multi-quantum wells}}}, doi = {{10.1002/pssc.201400154}}, volume = {{12}}, year = {{2015}}, } @inproceedings{4029, author = {{Riedl, Thomas and Lindner, Jörg}}, location = {{Berlin (Germany)}}, title = {{{Stability of heteroepitaxial coherent growth modes on nanowire radial surfaces}}}, year = {{2015}}, } @inproceedings{4030, author = {{Riedl, Thomas and Lindner, Jörg}}, location = {{Berlin (Germany)}}, title = {{{A molecular statics study of strain fields and defect stability in axial-heteroepitaxial nanopillars}}}, year = {{2015}}, } @inproceedings{4032, author = {{Lindner, Jörg}}, location = {{Bukarest (Romania)}}, title = {{{Bundling of light to very small spaces with plasmons}}}, year = {{2015}}, } @article{4052, abstract = {{In this contribution we report on the optical properties of cubic AlN/GaN asymmetric multi quantum wells (MQW) structures on 3C-SiC/Si (001) substrates grown by radio-frequency plasma-assisted molecular beam epitaxy (MBE). Scanning transmission electron microscopy (STEM) and spatially resolved cathodoluminescence (CL) at room temperature and at low temperature are used to characterize the optical properties of the cubic AlN/GaN MQW structures. An increasing CL emission intensity with increasing film thickness due to the improved crystal quality was observed. This correlation can be directly connected to the reduction of the linewidth of x-ray rocking curves with increasing film thickness of the c-GaN films. Defects like stacking faults (SFs) on the {111} planes, which also can be considered as hexagonal inclusions in the cubic crystal matrix, lead to a decrease of the CL emission intensity. With low temperature CL line scans also monolayer fluctuations of the QWs have been detected and the observed transition energies agree well with solutions calculated using a one-dimensional (1D) Schrödinger-Poisson simulator.}}, author = {{As, D.J. and Kemper, R. and Mietze, C. and Wecker, T. and Lindner, Jörg and Veit, P. and Dempewolf, A. and Bertram, F. and Christen, J.}}, issn = {{1946-4274}}, journal = {{MRS Proceedings}}, publisher = {{Cambridge University Press (CUP)}}, title = {{{Spatially resolved optical emission of cubic GaN/AlN multi-quantum well structures}}}, doi = {{10.1557/opl.2014.944}}, volume = {{1736}}, year = {{2014}}, } @article{4053, abstract = {{A novel process for the formation of pairs of opposing metallic nanotips within linear trenches on a silicon wafer is investigated in detail. The process is based on a spreading knife technique typically used in nanosphere lithography to generate monolayers of colloidal polystyrene beads. Here it is applied to initiate self-assembly of spheres in long linear trenches acting as a template for the sphere arrangement. The optimum blade velocity to deposit the spheres selectively and densely packed in the trench depends on the trench surface fraction and can be described by a modified Dimitrov model. It is demonstrated that the spheres can be used as a shadow mask to deposit metallic nanotips in a channel, which are electrically interconnected on each side of the trench, possibly enabling the control and manipulation of nanoobjects in the channel.}}, author = {{Brassat, Katharina and Lindner, Jörg}}, issn = {{1946-4274}}, journal = {{MRS Proceedings}}, location = {{Bosten (MA)}}, publisher = {{Cambridge University Press (CUP)}}, title = {{{A template-assisted self-organization process for the formation of a linear arrangement of pairs of metallic tips}}}, doi = {{10.1557/opl.2014.265}}, volume = {{1663}}, year = {{2014}}, } @inproceedings{4054, author = {{Brassat, Katharina and Wahle, M. and Lindner, Jörg}}, location = {{Porquerolles (France)}}, title = {{{Template-assisted self-assembly process for the formation of nanogap electrodes}}}, year = {{2014}}, } @inproceedings{4055, author = {{Brassat, Katharina and Brodehl, Christoph and Lindner, Jörg}}, location = {{San Francisco (USA)}}, title = {{{Tuning the distance between opposing metallic nanotips formed by a template assisted self-assembly process}}}, year = {{2014}}, } @inproceedings{4056, author = {{Brassat, Katharina and Brodehl, Christoph and Pauly, Johannes and Drude, Dennis and Achtelik, Jörn and Riedl, Thomas and Lindner, Jörg}}, location = {{Paderborn (Germany)}}, title = {{{Surface Patterning with Nanosphere Lithography}}}, year = {{2014}}, } @inproceedings{4057, author = {{Brassat, Katharina and Brodehl, Christoph and Wahle, M. and Lindner, Jörg}}, location = {{Boston (USA)}}, title = {{{Self-assembly for the directed self-assembly of smaller objects in a microfluidic channel}}}, year = {{2014}}, }