Dr.-Ing. Bahman Kheradmand Boroujeni
© B.K.B.
Gruppenleiter & Habilitation candidate
NameHerr Dr.-Ing. Bahman Kheradmand Boroujeni
Organic and Bio-electronic Circuits
Eine verschlüsselte E-Mail über das SecureMail-Portal versenden (nur für TUD-externe Personen).
Professur für Schaltungstechnik und Netzwerktheorie
Besucheradresse:
Barkhausenbau, Raum: 222 Helmholtzstraße 18
01069 Dresden
Research Activities and Interests
- Organic and bio-electronic circuits
- Large-area flexible electronics
- Technologies for nature conservation
- Microorganism inactivation
- Electrical measurement techniques
Education and Previous Professional Experience
- Swiss Center for Electronics and Microtechnology (CSEM, Neuchatel, Switzerland).
- Doctor of Science (Ph.D.), Swiss Federal Institute of Technology (Ecole Polytechnique Fédérale de Lausanne, EPFL, Switzerland).
- Master of Science in Electrical Engineering, Electronics, University of Tehran.
- Bachelor of Science in Electrical Engineering, Electronics, Sharif University of Technology, Tehran.
Potential Topics for a Project Work or Master Thesis
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You can send me your CV if you are interested in the topics mentioned under my research interests above.
Selected Publications
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L. N. Petrauskas, K. Haase, G. C. Schmidt, A. C. Hübler, S. C. B. Mannsfeld, F. Ellinger, B. K. Boroujeni, “Potential Application of Organic Electronics in Electrical Sensing of Insects and Integrated Pest Management towards Developing Ecofriendly Replacements for Chemical Insecticides”, Advanced Science, vol. 11, no. 4, 2304849, 2024. https://doi.org/10.1002/advs.202304849
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M. Höppner, B. K. Boroujeni, J. Vahland, M. F. Sawatzki, D. Kneppe, F. Ellinger, and H. Kleemann, “High‐Frequency Operation of Vertical Organic Field‐Effect Transistors”, Advanced Science, p. 2201660, 2022.
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J. Kublitski, A. Hofacker, B. K. Boroujeni, J. Benduhn, V. C. Nikolis, C. Kaiser, D. Spoltore, H. Kleemann, A. Fischer, F. Ellinger, K. Vandewal, and K. Leo, “Reverse dark current in organic photodetectors and the major role of traps as source of noise”, Nature Communications, vol. 12, article number 551, 2021.
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M. F. Sawatzki, H. Kleemann, B. K. Boroujeni, S. Wang, J. Vahland, F. Ellinger, and K. Leo, “Doped Highly Crystalline Organic Films: Toward High‐Performance Organic Electronics”, Wiley Advanced Science, vol. 8, no. 6, article number 2003519, 2021.
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D. Kneppe, F. Talnack, B. K. Boroujeni, C. Teixeira da Rocha, M. Höppner, A. Tahn, S.C.B. Mannsfeld, F. Ellinger, K. Leo, H. Kleemann, "Solution-processed pseudo-vertical organic transistors based on TIPS-pentacene", Elsevier Materials Today Energy, vol. 21, article number 100697, Sept. 2021.
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B. Kheradmand-Boroujeni, M. P. Klinger, A. Fischer, H. Kleemann, K. Leo, and F. Ellinger, “A Pulse-Biasing Small-Signal Measurement Technique Enabling 40 MHz Operation of Organic Transistors,” Nature Scientific Reports, vol. 8, article number 7643, May 2018. https://www.nature.com/articles/s41598-018-26008-0.
- M. P. Klinger, A. Fischer, F. Kaschura, J. Widmer, B. Kheradmand-Boroujeni, F. Ellinger, and K. Leo, “Organic Power Electronics: Transistor Operation in the kA/cm2 Regime,” Nature Scientific Reports, vol. 7, article number 44713, March 2017.
- B. Kheradmand-Boroujeni, Georg C. Schmidt, D. Höft, M. Bellmann, K. Haase, K. Ishida, R. Shabanpour, T. Meister, C. Carta, P. Ghesquiere, A. C. Hübler, and F. Ellinger, “A Fully-Printed Self-Biased Polymeric Audio Amplifier for Driving Fully-Printed Piezoelectric Loudspeakers,” IEEE Transactions on Circuits and Systems I: Regular Papers, vol. 63, no. 6, pp. 785-794, June 2016. (Related video on YouTube: https://www.youtube.com/watch?v=zFWGTAAoH3E )
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B. Kheradmand-Boroujeni, G. C. Schmidt, D. Höft, K. Haase, M. Bellmann, K. Ishida, R. Shabanpour, T. Meister, C. Carta, A. C. Hübler, F. Ellinger, “Small-signal characteristics of fully-printed high-current flexible all-polymer three-layer-dielectric transistors,” Elsevier Organic Electronics, vol. 34, pp. 267-275, July 2016.
- M. P. Klinger, A. Fischer, F. Kaschura, R. Scholz, B. Lüssem, B. Kheradmand-Boroujeni, F. Ellinger, D. Kasemann, and K. Leo, “Advanced Organic Permeable-Base Transistor with Superior Performance,” Wiley Advanced Materials, vol. 27, no. 47, p.p. 7734-7739, Dec. 2015.
- G. C. Schmidt, D. Höft, K. Haase, M. Bellmann, B. Kheradmand-Boroujeni, T. Hassinen, H. Sandberg, F. Ellinger and A. C. Hübler, “Fully printed flexible audio system on the basis of low-voltage polymeric organic field effect transistors with three layer dielectric,” Wiley Journal of Polymer Science Part B: Polymer Physics, vol. 53, no. 20, pp. 1409-1415, Oct. 2015.
- B. Kheradmand-Boroujeni, G. C. Schmidt, D. Höft, R. Shabanpour, C. Perumal, T. Meister, K. Ishida, C. Carta, A. C. Hübler, and F. Ellinger, “Analog Characteristics of Fully Printed Flexible Organic Transistors Fabricated with Low-Cost Mass-Printing Techniques,” IEEE Transactions on Electron Devices, vol. 61, no. 5, pp. 1423-1430, May 2014.
- B. Kheradmand-Boroujeni, C. Piguet, and Y. Leblebici, “A Scalable and Adaptive Technique for Compensating Process Variations and Controlling Leakage and Delay in the FPGA,” Journal of Low Power Electronics, vol. 9, no. 1, pp. 1-8, 2013.
- B. Kheradmand-Boroujeni, C. Piguet, and Y. Leblebici, “Optimal Logic Architecture and Supply Voltage Selection Method to Reduce the Impact of the Threshold Voltage Variation on the Timing,” Journal of Low Power Electronics, Vol. 7, No. 2, pp. 285-293, April 2011.
- H. B. Jamma, B. Kheradmand Boroujeni, G. De Micheli, Y. Leblebici, C. Piguet, A. Schmid, M. Stanisavljevic, “Design Technologies for Nanoelectronic Systems Beyond Ultimately Scaled CMOS”, Chapter 3 , pp. 45-84, in “G. De Micheli et al, Nanosystems Design and Technology”, Springer Science+Business Media, LLC 2009.