Formation of microstructures by non-contact aerosol printing with nanoparticles
Ivanov V. V.1, Efimov A. A.1, Borisov V. I.1, Urazov M. N.
1, Korniushin D. V.1, Musaev A. G.1, Voroshilova V. A.1, Dolgov V. A.1, Simonenko N. P.2, Ivanov M. S.1
1 Moscow Institute of Physics and Technology, Functional Materials Testing Center, Dolgoprudny, Moscow region, Russia
2Kurnakov Institute of General and Inorganic Chemistry of the Russian Academy of Sciences, Laboratory of Physical Chemistry of Ceramic Materials, Moscow, Russia
Email: ivanov.vv@mipt.ru, efimov.aa@mipt.ru, borisov.vi@mipt.ru, urazov.mn@mipt.ru, korniushin.d@mipt.ru, musaev.ag@mipt.ru, voroshilova.va@mipt.ru, dolgov.va@mipt.ru, n_simonenko@mail.ru, ivanov.ms@mipt.ru
The conditions of aerodynamic focusing of aerosol flows compressed by a flow of focusing gas are analyzed under conditions of contactless aerosol printing with dry metal nanoparticles and microsized ink drops to form small-width lines on substrates. Numerical estimates show that in the processes of movement to the substrate after exiting the nozzle of spherical metal nanoparticles with average sizes more than 70 nm, the Stokes numbers are sufficiently high and the deviations of their trajectories from the flow axis are less than 1 μm, which confirms the possibility of using aerodynamic focusing for printing with dry nanoparticles. Aerosol printing of dry quasi-spherical Au nanoparticles produced arrays in the form of lines with a width of about 30 μm, which demonstrated high plasmon enhancement of the Raman spectrum of low concentrations of the BPE (1,2-bis(4-pyridyl)ethylene) dye of more than 2· 104. Aerosol printing of quasi-spherical Ag nanoparticles with simultaneous laser sintering made it possible to form monolithic highly conductive microstructures with a sufficiently low specific resistance, exceeding the specific resistance of coarse-crystalline silver by only 2.2 times. Keywords: Aerosol printing, aerodynamic focusing, metal nanoparticles, plasmon enhancement, highly conductive microstructures.
- M.J. Renn. USA Patent 7108894B2 (2006)
- T. Seifert, M. Baum, F. Roscher, M. Wiemer, T. Gessner. Mater. Today Proc., 2, 4262 (2015)
- C.S. Jones, X. Lu, M. Renn, M. Stroder, W.-Sh. Shih. Microelectron. Eng., 87, 434 (2010)
- C. Yang, E. Zhou, S. Miyanishi, K. Hashimoto, K. Tajima. ACS Appl. Mater. Interfaces, 3, 4053 (2011)
- C.E. Folgar, C. Suchicital, S. Priya. Mater. Lett., 65, 1302 (2011)
- I. Grunwald, E. Groth, I. Wirth, J. Schumacher, M. Maiwald, V. Zoellmer, M. Busse. Biofabrication, 2, 14106 (2010)
- A.A. Efimov, G.N. Potapov, A.V. Nisan, V.V. Ivanov. Results Phys., 7, 440 (2017)
- K. Khabarov, D. Kornyushin, B. Masnaviev, D.N. Tuzhilin, A.A. Efimov, D.L. Saprykin, V.V. Ivanov. Appl. Sci., 10 (1), 246 (2020)
- K.E.J. Lehtinen, R.S. Windeler, S.K. Friedlander. J. Aer. Sci., 27, 883 (1996)
- N.S. Tabrizi, M. Ullmann, V.A. Vons, U. Lafont, A. Schmidt-Ott. J. Nanopart. Res., 11, 315 (2009)
- W.C. Hinds. Aerosol technology: properties, behavior, and measurement of airborne particles. 2nd eds. (Wiley-Interscience, 1999)
- M.J. Mayo. Interna. Mater. Rev., 41 (3), 85 (2013)
- K. Khabarov, M. Nouraldeen, S. Tikhonov, A. Lizunova, A. Efimov, V. Ivanov. Nanomaterials, 11, 2701 (2021)
- M.N. Urazov, V.A. Dolgov, M.S. Ivanov, V.V. Ivanov, V.A. Voroshilova, D.V. Kornyushin, V.I. Borisov. Patent RF RU2828069C1. Byul. N 28 (2024) (in Russian)
- S. Binder, M. Glatthaar, E. Radlein. Aer. Sci Tech., 9 (48), 924 (2014)
- S.V. Gaponenko, D.V. Guzatov. Pr. IEEE, 108 (5), 704 (2020)
- N.Yu. Zhigalov, V.F. Gol'chevskii, I.L. Badzyuk. "Vestnik" MVD Moscow russian university, 2, 14 (2017)
- T.Yu. Mogil'naya, Yu.L. Krit, N.V. Morozova, V.V. Kuvshinov, V.V. Sleptsov, M.V. Fedotikova, L.L. Pagava, M.Yu. Gorozheev. EOM, 6, 67 (2020) (in Russian)
- P.B. Johnson, R.W. Christy. Phys. Rev., 6 (12), 4370 (1972)
Подсчитывается количество просмотров абстрактов ("html" на диаграммах) и полных версий статей ("pdf"). Просмотры с одинаковых IP-адресов засчитываются, если происходят с интервалом не менее 2-х часов.
Дата начала обработки статистических данных - 27 января 2016 г.