Svetlana Mintova focuses on Zeolite, Chemical engineering, Molecular sieve, Crystallization and Colloid. The study incorporates disciplines such as Aluminosilicate, Nanocrystal, Nanotechnology and Nucleation in addition to Zeolite. Her studies deal with areas such as Thin film, Mineralogy and Adsorption, Sorption as well as Chemical engineering.
Her work deals with themes such as Scanning electron microscope, Nanoparticle, Water vapor and Mesoporous material, which intersect with Molecular sieve. Her studies in Mesoporous material integrate themes in fields like Nanoporous, Porosity, Composite material and Carbon. Her work in Crystallization addresses issues such as Yield, which are connected to fields such as Zeolite nanoparticles and Lattice energy.
Her main research concerns Zeolite, Chemical engineering, Catalysis, Nanocrystal and Adsorption. Her Zeolite research incorporates elements of Nanotechnology, Inorganic chemistry, Aluminosilicate, Microporous material and Mesoporous material. Her Chemical engineering research includes themes of Mineralogy and Molecular sieve.
Her Nanocrystal research integrates issues from Crystallinity and Hydrothermal circulation. Svetlana Mintova works mostly in the field of Adsorption, limiting it down to topics relating to Nuclear chemistry and, in certain cases, Fourier transform infrared spectroscopy, as a part of the same area of interest. As a part of the same scientific study, Svetlana Mintova usually deals with the Crystallization, concentrating on Crystal growth and frequently concerns with Amorphous solid.
Her scientific interests lie mostly in Chemical engineering, Zeolite, Catalysis, Selectivity and Nanocrystal. The study incorporates disciplines such as Oxide, Sodalite and Mesoporous material in addition to Chemical engineering. Her research in Zeolite intersects with topics in Etching, Microporous material, Adsorption and Infrared spectroscopy.
The various areas that she examines in her Catalysis study include Inorganic chemistry and Methanol. Her work carried out in the field of Nanocrystal brings together such families of science as Thermal stability, Interfacial polymerization and Nanofiltration. Her Colloid study incorporates themes from Aluminosilicate and Gas separation.
Her primary scientific interests are in Chemical engineering, Catalysis, Zeolite, Mesoporous material and Nanoparticle. The Chemical engineering study combines topics in areas such as Porosity, Oxide, Adsorption, Sodalite and Infrared spectroscopy. In her study, Bifunctional catalyst and Reaction conditions is strongly linked to Metal, which falls under the umbrella field of Catalysis.
Her Zeolite research includes elements of Electrostatics, Nanocrystal and Conformational change. Her research investigates the connection between Mesoporous material and topics such as Microporous material that intersect with issues in Brønsted–Lowry acid–base theory and Cumene. Her Nanoparticle research is multidisciplinary, relying on both Mesoporous silica, Selectivity, Zeolite nanoparticles and Polymer chemistry.
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Mechanism of Zeolite A Nanocrystal Growth from Colloids at Room Temperature
Svetlana Mintova;Norman H. Olson;Valentin Valtchev;Thomas Bein.
Nanoporous materials with enhanced hydrophilicity and high water sorption capacity
Eng-Poh Ng;Svetlana Mintova.
Microporous and Mesoporous Materials (2008)
Gas sensing using porous materials for automotive applications
Dominic J. Wales;Julien Grand;Valeska P. Ting;Richard D. Burke.
Chemical Society Reviews (2015)
Tailored crystalline microporous materials by post-synthesis modification
Valentin Valtchev;Gerardo Majano;Svetlana Mintova;Javier Pérez-Ramírez.
Chemical Society Reviews (2013)
Perspectives of Micro/Mesoporous Composites in Catalysis
Jiří Čejka;Svetlana Mintova.
Catalysis Reviews-science and Engineering (2007)
Advances in nanosized zeolites
Svetlana Mintova;Jean-Pierre Gilson;Valentin Valtchev.
Template-free nanosized faujasite-type zeolites
Hussein Awala;Jean-Pierre Gilson;Richard Retoux;Philippe Boullay.
Nature Materials (2015)
Capturing ultrasmall EMT zeolite from template-free systems.
Eng-Poh Ng;Eng-Poh Ng;Daniel Chateigner;Thomas Bein;Valentin Valtchev.
Seed-Induced Crystallization of Nanosized Na-ZSM-5 Crystals
Gerardo Majano;Ali Darwiche;Svetlana Mintova;Valentin Valtchev.
Industrial & Engineering Chemistry Research (2009)
Nanosized microporous crystals: emerging applications.
Svetlana Mintova;Maguy Jaber;Valentin Valtchev.
Chemical Society Reviews (2015)
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