Alexey Tameev
- Professor: HSE Tikhonov Moscow Institute of Electronics and Mathematics / School of Electronic Engineering
- Alexey Tameev has been at HSE University since 2017.
- Language Proficiency
- English
- Contacts
- Phone:
15216 - Address: 12 Malaya Pionerskaya Ulitsa, room 262
- SPIN-RSCI: 8030-3936
- ORCID: 0000-0001-8865-3361
- ResearcherID: A-8040-2014
- Scopus AuthorID: 56616529900
- Google Scholar
- Supervisor
- B. G. Lvov
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Education and Degrees
Moscow Institute of Physics and Technology
A post-doctoral degree called Doctor of Sciences is given to reflect second advanced research qualifications or higher doctorates in ISCED 2011.
Continuing education / Professional retraining / Internships / Study abroad experience
1. Training program on "Rules of the organization of the educational process by HSE teachers," 2019. Certificate No. 134092.
2. Training program on "Modern horizons in chemical physics" at the Moscow Institute of Physics and Technology (National Research University), 2020. Certificate No. 772411814733.
3. Training program on "Modern approaches to project management", 2023. Certificate No. 186997.
Courses (2022/2023)
- Computational Methods in Superconducting Electronics and Power Engineering (mentor's workshop) (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (HSE MIEM) field of study Electronics and Nanoelectronics, field of study Electronics and Nanoelectronics; 2 year, 1-3 module)Rus
- Past Courses
Courses (2021/2022)
- Computational Methods in Superconducting Electronics and Power Engineering (mentor's workshop) (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (HSE MIEM) field of study Electronics and Nanoelectronics, field of study Electronics and Nanoelectronics; 1 year, 1-4 module)Rus
- Selected Chapters of Condensed Matter Physics (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (HSE MIEM) field of study Electronics and Nanoelectronics; 2 year, 1-3 module)Rus
Courses (2020/2021)
- Research and Design Seminar (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (HSE MIEM) field of study Electronics and Nanoelectronics; 1 year, 1-4 module)Rus
- Selected Chapters of Condensed Matter Physics (Master’s programme; HSE Tikhonov Moscow Institute of Electronics and Mathematics (HSE MIEM) field of study Electronics and Nanoelectronics; 2 year, 1-3 module)Rus
Conferences
- 2017
13th International Conference on Organic Electronics - 2017 (ICOE-2017) (Санкт-Петербург). Presentation: Ambipolar transport in thin layers of new π-conjugated imidazole/carbazole compounds
9-th International Symposium “Molecular Order and Mobility in Polymer Systems” (Санкт-Петербург). Presentation: POLYMER COMPOSITE MATERIALS BASED ON POLYPHENYLQUINOLINES: THE STRUCTURE AND PHOTOPHYSICAL PROPERTIES
Employment history
Education and Scientific Degree
Dr. of Science Degree in Physical Chemistry and Physics from the Russian Academy of Sciences, 2012; Ph.D. Degree in Physical Chemistry from A.N. Frumkin Institute of Electrochemistry of the Russian Academy of Sciences, 1992; Diploma in Engineering & Physics from Moscow Institute of Physics and Technology, 1981.
Research Interests
Basic research on electronic and photonic processes in solid state layers of polymer and composite materials: electrical properties of polymer and organic materials, charge carrier transport, polymer composite morphology. In particularly, the electron-hole transport in thin layers of various polymer materials was studied and a mechanism of the transport of charge carriers explaining the increase of mobility in donor-acceptor composites was developed. Along interface of donor and acceptor materials, the mechanism predicts the charge mobility of the order of that in metals.
R&D in organic and hybrid solar cells based on conductive polymer composites.
Professional experience and activity:
Principal Scientific Researcher at the Laboratory for Electronic and Photonic Processes in Polymeric Nanomaterials at A.N. Frumkin Institute of Physical Chemistry & Electrochemistry of the Russian Academy of Sciences, Moscow, Russia (1990 –present).
Member of the Academic Council of the Frumkin Institute
Member of the Dissertation Council of VAK Д.002.259.01 at the Frumkin Institute
Visiting Professor “Global initiative of Academic Network (GIAN)” at the National Institute of Technology, Durgapur, India (2018)
CTO at Cryscade Solar Ltd. (2006)
Visiting Professor at the University of Angers, France. Lectures on Charge carrier mobility and photovoltaic phenomenon in organic layers (2002-2004)
Visiting Research Fellow at Edinburgh Napier University, the UK Dep. Applied Chem.&Phys. Sciences (1996)
Member of conference program committees: the 14th Conference “Physico-chemical Problems of Renewable Energy” (Chernogolovka, Russia, 2018), The 18th International Symposium on Advanced Organic Photonics (Yonezawa, Japan, 2018).
Reviewing manuscripts at Sci. Reports, Organic Electronics, Synthetic Metals, Chem.Phys.Lett., Thin Solid Films, Phys.Chem. and Chem.Phys., J.Appl. Phys., Appl. Phys. Lett., Materials Chemistry and Physics, Progress in Photovolt., Polymer, Polymer Science et al.
Scientific supervision of MS and BC theses (for the last 5 years):
at HSE University: Аgadzhanyan D.V. (MS, 2018), Lapin А. S. (MS, 2018), Rachitsky А. D. (MS, 2018), Polyanchikov E. V. (MS, 2018), Аstaf’ev А. V. (MS, 2019), Kolobkova А. А. (MS, 2019), Pimenov А. V. (MS, 2019), Talbanova N. R. (MS, 2020).
at MEPhI University: Aleksandrov А.Е. (MS, 2017), Doroshkova V. А. (BC, 2018; MS, 2020), Sayarov I. R. (BC, 2021).
at MIPT University: Arutinov N. E. (MS, 2021).
Scientific supervision of PhD students (for the last 5 years):
Malov V. V. (2014 – 2018), Aleksandrov А.Е. (2017-2021), Аstaf’ev А. V. (2019-present), Arutinov N. E. (2021-present)
Make the Most of the Sun
Professor Alexey Tameev of HSE MIEM, along with a team of colleagues, has proposed a calculation method to determine the optimal photoactive layer thickness which can maximize the power conversion efficiency of solar cells. Applicable for both polymer andperovskite solar cells, the method can become a milestone on the path from laboratory samples to solar cells made from new generation materials. The results of the research are covered in ‘A common optical approach to thickness optimization in polymer and perovskite solar cells’, an article published in Scientific Reports.