Jan Filip
Masaryk University
75 Papers
204 Citations
Jan Filip is an academic researcher from Masaryk University. The author has contributed to research in topics: Tourmaline & Pegmatite. The author has an hindex of 11, co-authored 74 publications. Previous affiliations of Jan Filip include Palacký University, Olomouc.
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Papers
Compositional trends in tourmaline from intragranitic NYF pegmatites of the Třebíč pluton, Czech Republic: an electron microprobe, Mössbauer and LA–ICP–MS study
TL;DR: In this article, tourmalines from the Třebic Pluton were examined using electron microscopic, Mossbauer spectroscopy and laser ablation using the LA-ICP-MS.
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Core-Shell Fe/FeS Nanoparticles with Controlled Shell Thickness for Enhanced Trichloroethylene Removal.
Miroslav Brumovský,Jan Filip,Ondřej Malina,Jana Oborná,Ondra Sracek,Thomas G. Reichenauer,Pavlína Andrýsková,Radek Zbořil +7 more
TL;DR: This study presents a novel approach for synthesizing S-nZVI using commercially available nZVI particles that are treated with sodium sulfide in a concentrated slurry, and results in particles that do not contain hazardous boron residues and can be easily prepared off-site.
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Sulfidated nano-scale zerovalent iron is able to effectively reduce in situ hexavalent chromium in a contaminated aquifer.
Miroslav Brumovský,Jana Oborná,Petr Lacina,Michal Hegedüs,Ondra Sracek,Jan Kolařík,Martin Petr,Josef Kašlík,Thilo Hofmann,Jan Filip +9 more
TL;DR: This study demonstrates the applicability of S-nZVI for the remediation of a Cr(VI)-contaminated aquifer with rapid decrease in Cr( VI) and Crtot concentrations and long-term decrease in groundwater redox potential observed even 35 m downstream the nearest injection well.
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Sustainable Synthesis of Nanoscale Zerovalent Iron Particles for Environmental Remediation
Yukti Monga,Pawan Kumar,Rakesh Kumar Sharma,Jan Filip,Rajender S. Varma,Radek Zbořil,Manoj B. Gawande +6 more
TL;DR: Various green synthesis pathways for generating nZVI particles are summarized and compared with conventional chemical and physical methods and their properties and interactions with diverse biomolecules are discussed, especially in the context of environmental remediation and catalysis.
Iron redox reactions in the tourmaline structure:High-temperature treatment of Fe3+-rich schorl
TL;DR: In this paper, a detailed study of thermally-driven oxidation and reduction of Fe in the structure of tourmaline, Fe2+-bearing olenite and fluor-schorl was presented.
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