[1] K. Tsougeni, G. Kaprou, C.M. Loukas, G. Papadakis, A. Hamiot, M. Eck, D. Rabus, G. Kokkoris, S. Chatzandroulis, V. Papadopoulos, B. Dupuy, G. Jobst, E. Gizeli, A. Tserepi, E. Gogolides, Lab-on-Chip platform and protocol for rapid foodborne pathogen detection comprising on-chip cell capture, lysis, DNA amplification and surface-acoustic-wave detection, Sensors and Actuators B: Chemical, 320, 128345, (2020). 🔗
[2] K. Tsougeni, A.S. Kastania, G. Kaprou, M. Eck, G. Jobst, P.S. Petrou, S.E. Kakabakos, D. Mastellos, E. Gogolides, A. Tserepi, A modular integrated lab-on-a-chip platform for fast and highly efficient sample preparation for foodborne pathogen screening, Sensors and Actuators B: Chemical, 288, 171-179, (2019). 🔗
[3] A.F. Madsuha, C. V. Pham, M. Eck, M. Neukom, M. Krueger, Improved hole injection in bulk heterojunction (BHJ) hybrid solar cells by applying a thermally reduced graphene oxide buffer layer, Journal of Nanomaterials, 2019, 6095863, (2019). 🔗
[4] G. Papadakis, P. Murasova, A. Hamiot, K. Tsougeni, G. Kaprou, M. Eck, D. Rabus, Z. Bilkova, B. Dupuy, G. Jobst, A. Tserepi, E. Gogolides, E. Gizeli, Micro-nano-bio acoustic system for the detection of foodborne pathogens in real samples, Biosensors and Bioelectronics, 111, 52-58, (2018). 🔗
[5] G. Papadakis, J.-M. Friedt, M. Eck, D. Rabus, G. Jobst, E. Gizeli, Optimized acoustic biochip integrated with microfluidics for biomarkers detection in molecular diagnostics, Biomedical Microdevices, 19 (3), 16 (2017). 🔗
[6] M. Eck, M. Krüger, Correlation between CdSe QD Synthesis, Post-Synthetic Treatment, and BHJ Hybrid Solar Cell Performance, Nanomaterials, 6(6), 115 (2016). 🔗
[7] M. Eck, Performance enhancement of hybrid nanocrystal/polymer bulk heterojunction solar cells: aspects of device efficiency, reproducibility, and stability, PhD Thesis, Albert-Ludwigs-Universität Freiburg, Germany, (2014). 🔗
[8] M. Eck, C. V. Pham, S. Züfle, M. Neukom, M. Sessler, D. Scheunemann, E. Erdem, S. Weber, H. Borchert, B. Ruhstaller, M. Krüger, Improved Efficiency for Bulk Heterojunction Hybrid Solar Cells by utilizing CdSe Quantum Dot – Graphene Nanocomposites, Physical Chemistry Chemical Physics, 16, (2014), 12251-12260. 🔗
[9] M. Eck, M. Krueger, Polymer-Nanocrystal Hybrid Solar Cells, chapter 6 in „Organic Photovoltaics: Materials, Device Physics, and Manufacturing“, eds.: C. Brabec, U. Scherf, V. Dyakonov, Wiley VCH Weinheim, Germany, ISBN 978-3-527-33225-0, 2nd ed., (2014), 171-207.
[10] C. V. Pham, M. Krüger, M. Eck, S. Weber, E. Erdem, Comparative EPR investigation of CdSe quantum dot – reduced graphene oxide hybrid nano-composites, Applied Physics Letters, 104, (2014), 132102.
[11] C. V. Pham, M. Eck, M. Krueger, Thiol functionalized reduced graphene oxide as a base material for novel graphene-nanoparticle hybrid composites, Chemical Engineering Journal, 231, (2013), 146–154.
[12] M. Eck, S. Einwaechter, M. Krueger, Controlling the nanocrystal quality for creating efficient hybrid nanocrystal/polymer solar cells, in „Nanoenergy Symposia Vol. 12: Hybrid and Organics Photovoltaics Conference in Seville, Spain, 2013“ Ed. . A. J. Janssen , SEFIN, Castelló, p. 159, ISBN 978-84-940189-8-5, (2013).
[13] M. Krüger, M. Eck, Y. Zhou, F.-S. Riehle, Semiconducting nanocrystal/conjugated polymer composites for applications in hybrid polymer solar cells, chapter 13 in „Semiconductor Polymer Composites. Principles, Morphologies, Properties and Applications„, ed.: X. Yang, Wiley VCH Weinheim, Germany, ISBN 978-352-733-030-0, 1st ed., (2012), 361-397.
[14] Y. Zhou, M. Eck, C. Veit, B. Zimmermann, F. Rauscher, P. Niyamakom, S. Yilmaz, I. Dumsch, S. Allard, U. Scherf, M. Krüger, Efficiency enhancement for bulk-heterojunction hybrid solar cells based on acid treated CdSe quantum dots and low bandgap polymer PCPDTBT, Solar Energy Materials and Solar Cells, 4, (2011), 1232-1237.
[15] Y. Zhou, M. Eck, C. Men, F. Rauscher, P. Niyamakom, S. Yilmaz, I. Dumsch, S. Allard, U. Scherf, M. Krüger, Efficient Polymer Nanocrystal Hybrid Solar Cells by Improved Nanocrystal Composition, Solar Energy Materials and Solar Cells, 12, (2011), 3227-3232.
[16] J. Albero, Y. Zhou, M. Eck, F. Rauscher, P. Niyamakom, I. Dumsch, S. Allard, U. Scherf, M. Krüger, E. Palomares, Photo-induced charge recombination kinetics in low bandgap PCPDTBT polymer:CdSe quantum dot bulk heterojunction solar cells, Chemical Science 2, (2011), 2396-2401.
[17] Y. Zhou, M. Eck, M. Krüger, Organic-inorganic hybrid solar cells: state of the art, challenges and perspectives, chapter 5 in „Solar Cells – New Aspects and Solutions“, ed.: L. A. Kosyachenko, Intech, Croatia, ISBN 979-953-307-191-5, (2011), 95-120.
[18] M. Krueger, Y. Zhou, M. Eck, Inorganic‐Organic Thin Hybrid Films for Applications in Bulk‐Heterojunction Solar Cells, In: „International Conference on Advances in Condensed and Nano Materials (ICACNM‐2011)“. AIP Publishing, (2011), 19-22.
[19] Y. Zhou, M. Eck, M. Krüger, Bulk-heterojunction hybrid solar cells based on colloidal nanocrystals and conjugated polymers, Energy & Environmental Science, 12, (2010), 1851-1864.
[20] M. Krueger, Y. Zhou, M. Eck, Elektrizität aus Sonnenlicht, Labor-Praxis 34 (2010), 18.
[21] N. Paust, C. Litterst, T. Metz, M. Eck, C. Ziegler, R. Zengerle, P. Koltay, Capillary-driven pumping for passive degassing and fuel supply in direct methanol fuel cells, Microfluidics and nanofluidics 7 (2009), 531-543.
[22] N. Paust, C. Litterst, T. Metz, M. Eck, R. Zengerle, P. Koltay, Capillary driven fuel supply in direct methanol fuel cells with double tapered T-shaped channel flow fields Proceedings of PowerMEMS 2007, 185-188.