Poster Presentations of the
11th NRW Nano-Conference
| Author / Institute / Company | Title | No. | Topic |
|---|---|---|---|
| Alan Abdi TU Dortmund University | Optical Absorption in SiGeSn Multi-Quantum Well Structures | 1 | Advanced materials |
| Dr. Mansoor Alshehri King Saud University | Continuum Modeling of Lithium Interaction with Nanosheets | 2 | Advanced materials |
| Maurice Müller, Paul Kienitz, Emrah Dursun, Andreas Bablich Universität Siegen | Advanced Hybrid Photonic Time of Flight Rangefinders Based on Amorphous and 2D Materials for Back End of Line Integration | 97 | Advanced materials |
| Yomna Badran University of Siegen | Low Level Magnesium adsorption on Zirconia nanotubes: A strategy to improve Zirconia nanotubes’ biocompatibility | 68 | Health |
| Mulualem Wale Balkie Fraunhofer Institute for Microelectronic Circuits and Systems IMS | Narrow bandwidth thermally tunable silicon nitride optical filters with higher-order coupled resonator optical waveguides (CROWs) | 76 | Miscellaneous |
| Sarah Emily Beck University of Duisburg-Essen | Kelvin Probe Force Microscopy for a nano-scale analysis of the complex defect diffusivity in Mg2Si/metal interfaces | 3 | Advanced materials |
| Dipesh Bhanushali Universität Siegen | Mechanistic insights behind chelation free single step anodization enabling ultra-low cobalt doping in TiO2 nanotubes. | 48 | Energy |
| Hui Bian AMO Gmbh | Influence of Polymer Residue and Top Electrode Deposition Method on MOCVD MoS2 Memristors | 42 | Electronics |
| Leonard Böhm Westfälische Hochschule – University of Applied Sciences | Optimized cathodes for Anion Exchange Membrane Water Electrolysis via NiMo electrodeposition on carbon nano fiber support material | 58 | Green / sustainable production technologies and materials |
| Dr. Nils Boysen Fraunhofer Institute for Microelectronic Circuits and Systems IMS | Large Area Transition Metal Dichalcogenides by Atomic Layer Deposition | 4 | Advanced materials |
| Marco Brand Westfälische Hochschule – University of Applied Sciences | Development membrane electrode assembly for proton exchange membrane electrolysis (PEMEL) based on resource-efficient perovskite and graphene materials | 59 | Green / sustainable production technologies and materials |
| Jonas Buehler Forschungszentrum Jülich | Scalable ICs for Semiconductor Quantum Dots | 79 | Quantum Technologies |
| Ann-Sophie Bülter FH Münster – University of Applied Sciences | Advancing Low-Field All-Optical Magnetometry with Machine Learning Algorithms | 80 | Quantum Technologies |
| Pubali Chaudhury University of Duisburg-Essen | Guided Mode Resonance Control in Nanostructured Waveguides for Optoelectronic Applications | 49 | Energy |
| Maximilian Cieluch Westfälische Hochschule – University of Applied Sciences | Enhancing Anion-Exchange-Membrane Water Electrolysis via advanced electrodeposition of porous NiFe strucutres | 5 | Advanced materials |
| Özge Coşkuner Paderborn Universität | Multivalent Peptide-Functionalized DNA Origami Nanostructures for Enhanced Bacterial Targeting | 69 | Health |
| Sofia Cruces RWTH Aachen University | Volatile and Nonvolatile Resistive Switching in Lateral 2D MoS2 Memristors | 43 | Electronics |
| Philipp Czyba TU Dortmund University | A novel approach for the manufacturing of stoichiometric Niobium(V)-oxide by plasma emission controlled reactive physical vapour deposition | 6 | Advanced materials |
| Desislava Daskalova AMO GmbH / RWTH Aachen University | Scalable and Reproducible SERS Biosensors: Nanoimprint Lithography for Periodic Structures and Black Si for Aperiodic Surface Structuring | 7 | Advanced materials |
| Christina Derichsweiler Fraunhofer Institute for Microelectronic Circuits and Systems IMS | Optical bio-nanosensors for the detection of inflammation-related molecules | 70 | Health |
| Ambrishkumar Jayantilal Devaiya Forschungszentrum Jülich / Univ. Köln | Advanced CSiGeSn heterostructures for photonic applications | 8 | Advanced materials |
| Pau Dietz Romero Forschungszentrum Jülich | Automated Co-Design of Qubits and Cryogenic Electronics | 81 | Quantum Technologies |
| Yuan Fa AMO GmbH / RWTH Aachen University | Volatile and Nonvolatile Resistive Switching in MoS2 Memristors | 44 | Electronics |
| Nils Fredebeul-Beverungen Fraunhofer-Institut für Werkstoff- und Strahltechnik IWS | Process Design for Coated Metallic Bipolar Plates: Enabling High-Efficiency Fuel Cells with Nanoscale Carbon Coatings | 50 | Energy |
| Luise Friedemann Hochschule Bonn-Rhein-Sieg | Tiny Tools, Big Impact: Nanoparticle-Aptamer Sensors for Water Pathogen Detection | 71 | Health |
| Sven Glabisch RWTH Aachen University | Lab-based broadband EUV reflectometry for characterizations of thin-film systems and nanoscale gratings | 77 | Miscellaneous |
| Dr. Thomas Gutberlet Forschungszentrum Jülich | Exploring the Nanoworld – The Accelerator-based Neutron Source HBS for Science and Industry | 72 | Innovation Projects / International cooperation |
| Saiqa Hafeez Fraunhofer-UMSICHT | Optimization of Decal Transfer Method for Anion Exchange Membrane Water Electrolysis (AEMWE) | 60 | Green / sustainable production technologies and materials |
| Dr. Rebecca Hengsbach Rhine-Waal University of Applied Sciences | Bifunctional hybrid nanofibers for CO2 capture and conversion | 9 | Advanced materials |
| Frederik Hoffmann FH Münster – University of Applied Sciences | An FPGA Based Hardware System for Sensing in Power Grids with Nitrogen Vacancy Centers | 82 | Quantum Technologies |
| Mario Alex Hollberg Technische Universität Dortmund | Transient Four-Wave Mixing Spectroscopy of Excitons: from Bulk to Nanocrystal Lead Halide Perovskites | 10 | Advanced materials |
| Ludwig Hollstein Fraunhofer Institute for Laser Technology ILT | A novel approach for scalable production of low noise two-stage frequency converters for NV center qubits in telecom-based quantum networks | 83 | Quantum Technologies |
| Johannes Holters University of Münster | Far- and near-field photoluminescence of MoS2/WS2 heterostructures | 11 | Advanced materials |
| Jonas Homrighausen FH Münster – University of Applied Sciences | Fiber-Integrated Vector Magnetometer based on NV Centers with On-Tip Field Biasing | 84 | Quantum Technologies |
| Dr. Ludwig Horsthemke FH Münster – University of Applied Sciences | Phase-Based Detection in Continuous-Wave ODMR Using Nitrogen-Vacancy Centers | 85 | Quantum Technologies |
| Tim Hülser Institut für Umwelt & Energie, Technik & Analytik e. V. (IUTA) | SmarTestMEA: Electrodes for PEM electrolysis or fuel cells and their simultaneous testing in a system based on hydraulic cell compression | 12 | Advanced materials |
| Adarsh Jain University of Duisburg-Essen | Beyond intrinsic activity: From nanoscale morphology to macroscopic wettability of anodes for the alkaline oxygen evolution reaction | 61 | Green / sustainable production technologies and materials |
| Dr. Jacob Johny Max Planck Institute for Chemical Energy Conversion | Probing the Nanoscale Interface of Metal Nanoparticles Immobilized on Supported Ionic Liquid Phases | 13 | Advanced materials |
| Andrey Karpovich Alferov University | A simple and efficient connection method for single nanoLEDs | 14 | Advanced materials |
| Jannik Korte University of Duisburg-Essen | Graphene as a functional interlayer in UVC-LEDs | 15 | Advanced materials |
| Kamal Kumar UPES | COâ‚‚ to formic acid conversion on TiVC MXene: A DFT study | 16 | Advanced materials |
| Paul Kuschmitz German Aerospace Center (DLR) | Titania Aerogels for Photocatalysis | 17 | Advanced materials |
| Atharva Harshawardhan Ladole University of Duisburg-Essen | Silicon nitride nanoparticles synthesized in a hot-wall reactor for battery applications | 51 | Energy |
| Jimin Lee RWTH Aachen University | On-Chip Terahertz Time-Domain Spectroscopy with Tunable Sample Interaction for High-Sensitivity Analysis for 2D Materials | 18 | Advanced materials |
| Philipp Leistikow University of Duisburg-Essen | Enhancing Gas-Phase Generation of Electrocatalytic Hetero-Aggregates via Advanced Diagnostics and Performance Evaluation | 19 | Advanced materials |
| David Lemli University of Münster | Machine Leaning based Design of Nanophotonic Circuit Components | 86 | Quantum Technologies |
| Philipp Lemm University of Duisburg-Essen | Laser-Induced Surface Doping of FeNi-based Nanoparticle Catalysts for Improved Water Splitting | 62 | Green / sustainable production technologies and materials |
| Eric Lensker Aixtron SE / RWTH Aachen University | Advancements in Wafer-Scale MOCVD Growth and Characterization of 2D Materials | 20 | Advanced materials |
| Maksim Lipkin AMO GmbH | Low-Stress and Crack-Free, 600 nm thick Ta2O5 Waveguides for Non-Linear Photonics | 21 | Advanced materials |
| Rick Yannick Lorberg University of Duisburg-Essen | Photoresponsive Thioethers with numerous applications in Materials | 22 | Advanced materials |
| Lucas Mager Universität zu Köln | Machine learning-based surrogate models for an efficient homogenization of open-porous materials | 23 | Advanced materials |
| David Mai TU Dortmund University | Modelling of Heat Transport in Thin Films | 87 | Quantum Technologies |
| Benjamin Mayer University of Münster | Surface acoustic wave-controlled photocurrent in few-layer WSe2 | 24 | Advanced materials |
| Christina Meinert University of Duisburg-Essen | Coral-like structures on Nickel Surfaces Obtained by Remote Nitrogen Plasma Treatment | 52 | Energy |
| Zoe Moos Forschungszentrum Jülich | CMOS Integration of Area-dependent Pr0.7Ca0.3MnO3-based ReRAM-Devices | 45 | Electronics |
| Patrick Mowe Forschungszentrum Jülich | From Fluorite to Pyrochlore – Relationship between structure and room-temperature charge transport | 25 | Advanced materials |
| Khuzaifa Yahuza Muhammad Ruhr University Bochum | Evaluation of Oxygen Evolution Activity of Rare Earth Metal Oxides in AEM Water Electrolysis | 63 | Green / sustainable production technologies and materials |
| Taritra Mukherjee Max Planck Institute for Sustainable Materials | Interfacial Water Around Citrate-Stabilized Gold Nanoparticles | 73 | Innovation Projects / International cooperation |
| Nour Negm AMO GmbH | Graphene thermal mid-IR emitters integrated into silicon photonic waveguides | 26 | Advanced materials |
| Glen Neiteler FH Münster – University of Applied Sciences | Simulation of the Fluorescence Lifetime of NV Ensembles in Microdiamond Powder by Combining the Hamiltonian and a Rate Equation Model | 88 | Quantum Technologies |
| Sven Niehues University of Münster | Dispersion-tunable low-loss implanted spin-wave waveguides for large magnonic networks | 27 | Advanced materials |
| Dr. Viraj Pratap Nirwan Hochschule Rhein-Waal | Sustainable Hybrid Nanofibers for Triboelectric Nanogenerators | 64 | Green / sustainable production technologies and materials |
| Dr. Shanmugapriya Periyannan University of Siegen | Discerning Single-Atom Vs. Clustered Cu on TiO2 nanotubes: Comparative insights from LSV and pLSV via XPS and EPR spectroscopy. | 28 | Advanced materials |
| Marina Peters Fachhochschule Münster | Direct Laser Writing of NV Centers in Diamond and their Optical Interfacing using a Microfabrication Platform | 89 | Quantum Technologies |
| Felix Pfeiffer Forschungszentrum Jülich | Understanding Interphase Formation – Operando SHINERS Investigations in High-Voltage LIBs | 53 | Energy |
| Pierre-Maurice Piel University of Münster | Strong anisotropy behavior of the 2D magnetic semiconductor CrSBr | 29 | Advanced materials |
| Dr. Moritz Pilaski Zentrum für BrennstofzellenTechnik GmbH | New synthesis routes for high surface area AEM-WE catalysts for OER and HER | 30 | Advanced materials |
| Andreas Prokscha University of Duisburg-Essen | Perspectives on Terahertz Honey Bee Sensing | 65 | Green / sustainable production technologies and materials |
| Dr. Christoph Quitmann RI Research Instruments | MeV-UED: A Tool to study Dynamics in Nano- and Quantum Materials on the atomic Scale | 31 | Advanced materials |
| Nico Rademacher AMO GmbH | Transfer of large area 2D materials using only deionized water | 32 | Advanced materials |
| Anjana Rajan Forschungszentrum Jülich | Capacitive Ferroelectric Memory on Si/SiGe Heterostructures for Neuromorphic Computing | 33 | Advanced materials |
| Julius Rasbach Forschungszentrum Jülich | Artificial neuron circuits realized by volatile electrochemical metallization cells | 46 | Electronics |
| Ghulam Raza FH Münster – University of Applied Sciences | Development of Prototype Design for Integrating NV-Based Sensing in Zinc-Air Batteries | 90 | Quantum Technologies |
| Safwen Rekik RWTH Aachen University | SmartShade: Cellulose Nanocrystals as a Key Component for Adaptive Solar Shading Systems | 74 | Innovation Projects / International cooperation |
| Vanessa Reppel gemeinnützige KIMW Forschungs-GmbH | Manufacturing of moulds with structures in the sub-micron range | 75 | Innovation Projects / International cooperation |
| David Rettke Leibniz Institute for Plasma Science and Technology | Rapid Fabrication of Plasma Polymerized Nanocomposite Films via Atmospheric-Pressure Plasma for Enhanced Electrochemical Biosensing | 34 | Advanced materials |
| Torben Reuter German Aerospace Center (DLR) | Influence of nitrogen doping and activation on the microstructure of carbon aerogels and xerogels | 35 | Advanced materials |
| Timon Runte TU Dortmund University | Influence of Surface Characteristics on the Quality of Graphene Growth and Subsequent Transfers | 36 | Advanced materials |
| Gaurav Sahu Forschungszentrum Jülich / Univ. Köln | Chiral Molecules are Spin- Selective and Spin-Sensitive | 91 | Quantum Technologies |
| Dr. Sophie Marie Schnurre Institut für Umwelt & Energie, Technik & Analytik e. V. (IUTA) | Circular use of silicon from PV modules | 66 | Green / sustainable production technologies and materials |
| Eugen Schwindt FH Dortmund University of Applied Sciences and Arts | Simulation and Optimization of Hybrid Hydrogen Storage in Decentralized Renewable Energy Systems Using MATLAB/Simulink | 54 | Energy |
| Eui-young Shin University of Duisburg-Essen | SUPERCAPACITORS THROUGH TAILORED CARBON NANOFIBERS FROM OPTIMIZED ELECTROSPINNING AND THERMAL TREATMENT | 55 | Energy |
| Tofianme Sorgwe University of Siegen | Towards wide-field vector magnetometry | 92 | Quantum Technologies |
| Dennis Stiegekötter FH Münster – University of Applied Sciences | Slot Line based Antennas for NV Microdiamonds | 93 | Quantum Technologies |
| Dennis Stiegekötter FH Münster – University of Applied Sciences | Coherent Control of Spin States in NV Centers in Diamond using a Modular 3D Printed Platform | 94 | Quantum Technologies |
| Dr.-Ing. Nils Surkamp Ruhr-Universität Bochum, PTT | Recent advances on diode laser based multi-photon-polymerization | 78 | Miscellaneous |
| Ann Maria Tom FH Münster – University of Applied Sciences | Miniaturized Optical Setup for NV-Center-Based Nanodiamond Relaxometry in Biomedical Applications | 95 | Quantum Technologies |
| Sven Unrau University of Münster | Acousto-Optoelectric Spectroscopy on Low-Dimensional Nanomaterials | 37 | Advanced materials |
| Fabian van Eßen University of Duisburg-Essen | MOCVD Growth of InP Resonant Tunneling Diodes for Terahertz applications | 47 | Electronics |
| Elisabeth Verweyen Zentrum für BrennstofzellenTechnik GmbH | Extrusion of highly thermally and electrically conductive Polyphenylene sulphide (PPS)-Graphite compound Plates | 56 | Energy |
| Elisabeth Verweyen Zentrum für BrennstofzellenTechnik GmbH | Thermoforming of thin-walled bipolar plates for fuel cells | 57 | Energy |
| Zhaodong Wang Forschungszentrum Jülich | Metal Organic Chemical Vapor Deposition of Graphene and Hexagonal Boron Nitride on c-plane Sapphire for ‘Beyond Moore’ Applications | 38 | Advanced materials |
| Matthias Weber University of Siegen | Miniaturized material testing devices for multimodal in situ microscopic studies | 96 | Advanced materials |
| Simone Wessel University of Münster | Photoluminescence spectroscopy of color centers in hBN under differently colored excitations | 39 | Advanced materials |
| Dino Woelk Westfälische Hochschule – University of Applied Sciences | Hierarchical Ni-NiFe electrode structures for AEM water electrolysis produced by powder metallurgy and electrochemical deposition | 67 | Green / sustainable production technologies and materials |
| Jiayuan Zhang Forschungszentrum Jülich / RWTH Aachen | HfO2-ZrO2 Super Lattice based Ferroelectric Schottky Barrier FDSOI Transistor for Neuromorphic Computing | 40 | Advanced materials |
| Max Zinke German Aerospace Center (DLR) | Innovative techniques for mechanical characterisation of aerogels | 41 | Advanced materials |