| Title | Author | Source |
|---|---|---|
| Integration of Magnetic Nanoparticles into 2D- and 3D-printed Nano-/Microstructures | G. Mathew, E. Lemma, M. Hirtz, E. Berganza |
Magnetic Nanoparticles: Materials Engineering, Properties and Applications. Series: Nanoscience & Nanotechnology, A. López-Ortega, A. G. Roca (eds.) RSC Publishing (2024) 375-398 |
| Printing Technologies for Integration of Electronic Devices and Sensors | T. T. Baby, G. C. Marques, F. Neuper, S. A. Singaraju, S. Garlapati, F. von Seggern, R. Kruk, S. Dasgupta, B. Sykora, B. Breitung, P. A. Sukkurji, U. Bog, R. Kumar, H. Fuchs, T. Reinheimer, M. Mikolajek, J. R. Binder, M. Hirtz, M. Ungerer, L. Koker, U. Gengenbach, N. Mishra, Patric G., M. Tahoori, J. Aghassi Hagmann, H. von Seggern, H. Hahn |
Functional Nanostructures and Sensors for CBRN Defence and Environmental Safety and Security. NATO Science for Peace and Security Series C: Environmental Security. A. Sidorenko, H. Hahn (eds.) Springer Nature B.V. (2020) 1-34 |
| Functional Lipid Assemblies by Dip-Pen Nanolithography and Polymer Pen Lithography | M. Hirtz, S. Sekula-Neuner, A. Urtizberea, H. Fuchs |
Soft Matter Nanotechnology: From Structure to Function, first edition. X. Chen, H. Fuchs (eds.) Wiley-VCH, Weinheim (2015) 161-186 |
| Heterogeneous Surfaces with Nanosized Channel Lattices | M. Hirtz, M. Gleiche, S. Lenhert, N. Lu, X. Chen, L. Chi |
Dekker Encyclopedia of Nanoscience and Nanotechnology, Third Edition. Taylor and Francis: New York (2014) 1778-1794 |
| Micropatterned Surfaces as Tools for the Study of the Rapid Non-Genomic Actions of Steroid Receptors | A. C. B. Cato, E. Oppong, S. Sekula-Neuner |
Advances in Rapid Sex-Steroid Action (2012) 253-266 |
| Title | Author | Year |
|---|---|---|
| Biologische Applikationen für die Dip-Pen Nanolithographie | Thomas Laue |
2012 |
| Multiplexed Micro-Lithography - Strategies and Applications | Falko Brinkmann |
2014 |
| Multi-color Polymer Pen Lithography and its Application in Biology | Ravi Kumar |
2016 |
| Coupling Chemistry for Surface Immobilization in Scanning Probe Lithography | Mahdi Dadfar |
2019 |
| Nanolithography-Enabled Sensor Arrays for Rapid Cancer Detection | Hui-Yu Liu |
2020 |
| Application of Cucurbit[n]urils Immobilization in Chemosensor Microarray and Molecular Electronics | Chunting Zhong |
2022 |
| Liquid Metal Printing with Scanning Probe Lithography for Printed Electronics | Navid Hussain |
2022 |
| Functionalization of brush-like Polymer modified Surfaces by Scanning Probe Lithography for biological Screening Applications | Bingquan Yang |
2022 |
| Controlling Surface-Induced Platelet Activation by Modulation of Contacting Interfaces | Gurunath Apte |
2023 |