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Vaidotas Miseikis

Technologist
2D Materials Engineering
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About

Vaidotas Mišeikis is a technologist in the research line 2D Materials Engineering.

He received his BSc degree in Nanotechnology and PhD in Electronic and Electrical Engineering at the University of Leeds, UK. Since obtaining his doctorate, he has been working on scalable synthesis and processing of graphene and other layered materials. Lately, his research has targeted wafer-scale integration of 2D materials with particular focus on photonics applications. He is an author of 64 peer-reviewed publications and has presented his work as an invited speaker in 8 international conferences.

Education

Title: PhD in Electronic and Electrical Engineering
Institute: University of Leeds
Location: Leeds
Country: UK
From: 2008 To: 2012

Title: BSc Nanotechnology
Institute: University of Leeds
Location: Leeds
Country: UK
From: 2005 To: 2008

Top Publications
2021
Marconi S., Giambra M.A., Montanaro A., Miseikis V., Soresi S., Tirelli S., Galli P., Buchali F., Templ W., Coletti C., Sorianello V., Romagnoli M.
Photo thermal effect graphene detector featuring 105 Gbit s−1 NRZ and 120 Gbit s−1 PAM4 direct detection
Nature Communications, vol. 12, (no. 1)
2020
Miseikis V., Marconi S., Giambra M.A., Montanaro A., Martini L., Fabbri F., Pezzini S., Piccinini G., Forti S., Terres B., Goykhman I., Hamidouche L., Legagneux P., Sorianello V., Ferrari A.C., Koppens F.H.L., Romagnoli M., Coletti C.
Ultrafast, Zero-Bias, Graphene Photodetectors with Polymeric Gate Dielectric on Passive Photonic Waveguides
ACS Nano, vol. 14, (no. 9), pp. 11190-11204
2017
Miseikis V., Bianco F., David J., Gemmi M., Pellegrini V., Romagnoli M., Coletti C.
Deterministic patterned growth of high-mobility large-crystal graphene: A path towards wafer scale integration
2D Materials, vol. 4, (no. 2)
Article Journal
2015
Miseikis V., Convertino D., Mishra N., Gemmi M., Mashoff T., Heun S., Haghighian N., Bisio F., Canepa M., Piazza V., Coletti C.
Rapid CVD growth of millimetre-sized single crystal graphene using a cold-wall reactor
2D Materials, vol. 2, (no. 1)