V
Vadym Drozd
Researcher at Florida International University
Publications - 91
Citations - 5450
Vadym Drozd is an academic researcher from Florida International University. The author has contributed to research in topics: Diamond anvil cell & Hydrogen. The author has an hindex of 22, co-authored 84 publications receiving 5150 citations. Previous affiliations of Vadym Drozd include National Taiwan University & University of Wollongong.
Papers
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Journal ArticleDOI
Ammonia as a case study for the spontaneous ionization of a simple hydrogen-bonded compound
Taras Palasyuk,I. A. Troyan,Mikhail Eremets,Vadym Drozd,Sergey A. Medvedev,Patryk Zaleski-Ejgierd,Ewelina Magos-Palasyuk,Hongbo Wang,Stanimir Bonev,Dmytro Dudenko,Pavel G. Naumov +10 more
TL;DR: Experimental evidence is presented that the threshold pressure of ~120 GPa induces in molecular ammonia the process of autoionization to yet experimentally unknown ionic compound--ammonium amide, opening new possibilities for studying molecular interactions in hydrogen-bonded systems.
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Ca2Al3O6F:Eu2+: a green-emitting oxyfluoride phosphor for white light-emitting diodes
TL;DR: In this paper, a green-emitting phosphor Ca2Al3O6F:Eu2+ was synthesized and its photoluminescence properties were investigated for application in white light emitting diodes (w-LEDs).
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Synthesis and characterization of LiFePO4 and LiTi0.01Fe0.99PO4 cathode materials
Guoxiu Wang,S. Bewlay,Scott A. Needham,Hua-Kun Liu,R. C. Liu,Vadym Drozd,J. F. Lee,J. M. Chen +7 more
TL;DR: In this article, high-resolution tunneling electron microscopy observation and energy dispersive spectroscopy, mappingshow the homogeneous distribution of dopant Ti cations in the crystals.
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Synthesis and electrochemical performance of doped LiCoO2 materials
TL;DR: In this paper, the synthesis of layered intercalation compounds LiM 0.02 Co 0.98 O 2 (M = Mo 6+, V 5+, Zr 4+ ) has been described along with their electrochemical performance when used as the active material in a lithium half-cell.
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Raman spectroscopy study of ammonia borane at high pressure.
TL;DR: The observed behavior of these stretching modes supports the presence of dihydrogen bonding at high pressure and shows an increase in spectral complexity with increasing pressure together with a discontinuity in d nu/d P which suggests rotational disorder in this molecule.