Gradov, Oleg V; Gradova, Margaret A (2019): Microwave-induced self-organization in mineral systems. V. FeCl3 colloid (800 W; 2.45 GHz; 30 sec.) [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.897651
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Published: 2019-01-25 • DOI registered: 2019-02-23
Abstract:
Microwave-induced self-organization in FeCl3 colloids under high irradiation power (800 W) is strongly dependent on the layer thickness of the precursor (saturated ferric chloride solution) and results in less diversity of membraneous structure morphologies because of the too fast water evaporation preventing hydrolytic polycondensation and favoring simple crystallization of the mineral phases.
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Gradov, Oleg V (2016): Application of the angular descriptors and radiation patterns in high frequency and microwave thermal analysis of anisotropic heterogeneous structures on a chip. Proc. RTAC-2016. — Vol. 2. — SPbPU Publisher, 396
Gradov, Oleg V (2016): In situ tunable laser diode spectroscopy of the processes and products of the microwave-induced self-organization in the soft mater active media. 2nd International Conference and Exhibition on Mesoscopic and Condensed Matter Physics (Chicago, Illinois, USA [October 26-28, 2016]). — CONFERENCESERIES.COM. — Conference Series LLC / Conference Series Ltd Chicago, Illinois, USA
Gradov, Oleg V; Gradova, Margaret A (2015): Multifactor response of the dispersed soft matter precursors under microwave-induced self-organization. Conference: PhysicA.SPb/2015 (October 2015 ). Section: Devices and materials of the THz and microwave ranges. At: Saint Petersburg, Ioffe, https://doi.org/10.13140/RG.2.1.2321.8966
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