1. 2014
  2. Определение характеристик атмосферного аэрозоля по данным трехволнового интегрирующего нефелометра

    Свириденков, М. А., Веричев, К. С., Власенко, С. С., Емиленко, А. С., Михайлов, Е. Ф. & Небосько, Е. Ю., 2014, In: ОПТИКА АТМОСФЕРЫ И ОКЕАНА. 27, 3, p. 175-181

    Research output: Contribution to journalArticle

  3. 2013
  4. Mass-based hygroscopicity parameter interaction model and measurement of atmospheric aerosol water uptake

    Mikhailov, E., Vlasenko, S., Rose, D. & Poeschl, U., 2013, In: Atmospheric Chemistry and Physics. 13, 2, p. 717–740

    Research output: Contribution to journalArticle

  5. 2011
  6. Filter-Based Differential Hygroscopicity Analyzer of Aerosol Particles

    Mikhailov, E. F., Merkulov, V. V., Vlasenko, S. S., Ryshkevich, T. I. & Pöschl, U. J., 2011, In: IZVESTIYA. ATMOSPHERIC AND OCEANIC PHYSICS. 47, 6, p. 747-759

    Research output: Contribution to journalArticle

  7. Mass-based hygroscopicity parameter interaction model and measurement of atmospheric aerosol water uptake

    Mikhailov, E., Merkulov, V., Vlasenko, S. & Pöschl, U., 2011, Proceedings of the European Aerosol conference- EAC2011, section Physical and Chemical properties, Manchester, 2011.. p. 4P216

    Research output: Chapter in Book/Report/Conference proceedingArticle in an anthology

  8. Mass-based hygroscopicity parameter interaction model and measurement of atmospheric aerosol water uptake

    Mikhailov, E., Merkulov, V., Vlasenko, S., Rose, D. & Poschl, U., 2011, In: Atmospheric Chemistry and Physics Discussions. 11, p. 30877–30918

    Research output: Contribution to journalArticlepeer-review

  9. Дифференциальный анализатор гигроскопических свойств фильтровых аэрозольных проб

    Михайлов, Е. Ф., Меркулов, В. В., Власенко, С. С., Рышкевич, Т. И. & Пушель, У., 2011, In: ИЗВЕСТИЯ РОССИЙСКОЙ АКАДЕМИИ НАУК. ФИЗИКА АТМОСФЕРЫ И ОКЕАНА. т47, 6, p. 809-822

    Research output: Contribution to journalArticlepeer-review

  10. 2009
  11. Amorphous and crystalline aerosol particles interacting with water vapor: conceptual framework and experimental evidence for restructuring, phase transitions and kinetic limitations.

    Mikhailov, E., Vlasenko, S., Martin, S. T., Koop, T. & Pöschl, U., 16 Dec 2009, In: Atmospheric Chemistry and Physics. 9, 24, p. 9491-9525

    Research output: Contribution to journalArticlepeer-review

  12. 2008
  13. Influence of chemical composition and microstructure on the hygroscopic growth of pyrogenic aerosol

    Mikhailov, E. F., Vlasenko, S. S. & Ryshkevich, T. I., 18 Sep 2008, In: Izvestiya - Atmospheric and Ocean Physics. 44, 4, p. 416-431 16 p.

    Research output: Contribution to journalArticlepeer-review

  14. ВЛИЯНИЕ ХИМИЧЕСКОГО СОСТАВА И МИКРОСТРУКТУРЫ НА ГИГРОСКОПИЧЕСКИЙ РОСТ ПИРОГЕННОГО АЭРОЗОЛЯ

    Михайлов, Е. Ф., Власенко, С. С. & Рышкевич, Т. И., 2008, In: ИЗВЕСТИЯ РОССИЙСКОЙ АКАДЕМИИ НАУК. ФИЗИКА АТМОСФЕРЫ И ОКЕАНА. 44, 4, p. 450-466

    Research output: Contribution to journalArticlepeer-review

  15. 2007
  16. Structure and optical properties of soot aerosol in a moist atmosphere: 1. Structural changes of soot particles in the process of condensation

    Mikhailov, E. F. & Vlasenko, S. S., Apr 2007, In: Izvestiya - Atmospheric and Ocean Physics. 43, 2, p. 181-194 14 p.

    Research output: Contribution to journalArticlepeer-review

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