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Yurij Mozharivskyj
             
 

Software

Thermoelectric Optimizer based on a Scattering-dependent Single Parabolic Band model, TOSSPB (by Dr. Jan-Hendrik Pöhls)

Click to download the zip file of the program.

VASP Electronic Band Structure Plotter (by Dr. Jan-Hendrik Pöhls)

Click to download the zip file of the program.


Publications

Book chapters:

1. Reference Module for “Comprehensive Inorganic Chemistry III” 2021.
Title: “Preparation of Magnetocaloric Materials”.
Author: Yurij Mozharivskyj.

2. Reference Module for “Major Reference Works: Chemistry, Molecular Sciences and Chemical Engineering” 2016.
Title: “Magnetocaloric Effect and Magnetocaloric Materials”.
Author: Yurij Mozharivskyj.


2023

Novikov, S.; Franko, C.J.; Cui, M,; Yang, Z.; Goward, G., Mozharivskyj Y., “Na4-xSn2-xSbxGe5O16 – air-stable solid-state Na-ion conductor”. Inorganic Chemistry, in print (featured on the front cover). DOI.

Huang, Y.; Yang, Z.; Tseng, Y.-C.; Smith, E.; Mozharivskyj, Y., “Unusual role of ZnO nanoparticles in enhancing the thermoelectric performance of GeTe”. J. Alloys and Compounds. 2023, 963, 171136. DOI.

Yang, Z.; Tseng, Y.-C.; Valiyaveettil, S. M.; Yuan, H.; Smith, E.; Chen, K.-H.; Huang, Y.; Zou, T.; Kycia, J.; Mozharivskyj, Y., “Optimized electronic properties and nano-structural features for securing high thermoelectric performance in doped GeTe”. Dalton Transactions. 2023, 52 (31), 10689-10699. DOI.

Svitlyk, V.; Kuz'min, M. D.; Mozharivskyj, Y.; Isnard, O., “Investigation of the intrinsic magnetic properties of GdCo4B single crystal: determination of the magnetocrystalline anisotropy from the first-order magnetization processes”. The European Physical Journal Plus. 2023, 138, 388. DOI.

Song, S.; Tseng, Y.-C.; Mozharivskyj, Y., “Optimizing thermoelectric performance of SnTe via alloying with AgSnSe2 and PbTe”. J. Alloys and Compounds. 2023, 947, 169415. DOI.

Soh, C.; Shadap, L.; Kollipara, M. R.; Tyagi, J. L.; Poluri, K. M.; Mozharivskyj, Y.; Rymmai, E. K., “Synthesis and biological evaluation of arene ruthenium(II) complexes containing thiophene benzhydrazone derivative ligands”. J. Organometallic Chemistry. 2023, 984, 122559. DOI.


2022

Lo, C.-W. T.; Pohls, J.-H.; Johnson, M.; Kolodiazhnyi, T.; Britten, J. F.; Tseng, Y.-C.; Mozharivskyj, Y., “Comparative study of the Zn1-xCdxSb and (Zn1-zCdz)13Sb10 solid solution series”. J. Solid State Chemistry, 2022, 315, 123448. DOI.

Pöhls, J.-H.; MacIver, M.; Chanakian, S.; Zevalkink, A.; Tseng, Y.-C.; Mozharivskyj, Y., “Enhanced Thermoelectric Efficiency through Li-Induced Phonon Softening in CuGaTe2.” Chemistry of Materials. 2022, 34(19), 8719-8728. DOI.

Novikov S., Y. Lu, W. Zhang, P. S. Halasyamani, S. Hariyani, J. Brgoch, V. V. Klepov, H.-C. zur Loye, Y.Mozharivskyj, “Phosphorescence in Mn4+-Doped R+/R2+ Germanates (R+ = Na+ or K+, R2+ = Sr2+)”. Inorganic Chemistry, 2022, 61, 24, 9364-9374 (featured on the front cover). DOI.


Yuan, F., X. Song, X., G. Cheng , N. Yao, Y. Mozharivskyj, L.M. Schoop, “Magnetic Nanosheets via Chemical Exfoliation of K2xMnxSn1-xS2”. Chemistry of Materials. 2022, 2022, 34(11), 5084–5093, DOI.

Song, S., Y. Huang, Y.-C. Tseng, S.M. Valiyaveettil, K.-H. Chen, Y.Mozharivskyj,“Converting n-type Co4Ge6Te6 skutterudite into p-type and enhancing its thermoelectric properties through Fe substitution.” J. Alloys and Compdounds. 2022, 913, p. 165314. DOI.

J.-H. Pohls, Y. Mozharivskyj, "TOSSPB: Thermoelectric optimization based on scattering-dependent single-parabolic band model". Computational Material Science. 2022, 206, p. 111152. DOI.

Bakhshi H., Sarraf-Mamoory R., Yourdkhani A., Song S., Tseng Y-C., Mozharivskyj Y. “Improvements in the Thermoelectric Efficiency of Donor-doped SrTiO3”. Ceramics International, 2022, 48(4), p.5831-5839. DOI.


2021

Novikov S., Y. Mozharivskyj. “Synthesis and structure of the Na–Ba and Rb–Ba octagermanates and phosphorescence of the Rb2BaGe8-xO18:xMn4+ series”. Journal of Solid State Chemistry. 2021, 304, p. 122607.

Song, S.; Yang, Z.; Huang, Y.; Tseng, Y.-C.; Valiyaveettil, S. M.; Chen, K.-H.; Mozharivskyj, Y., “Enhancing thermoelectric performance of Sn0.5Ge0.5Te via doping with In/Zn, In/Sb and In/Bi”. Journal of Solid State Chemistry. 2021, 302, 122444.

Shang, Y., X. Zhou, Y. Li, Y. Mozharivskyj, F. Fu. “Difference in magnetic properties and magnetocaloric effect of FeRh0.98Al0.02 alloy with different sample sizes”. Journal of Magnetism and Magnetic Materials. 2021, 535, 168034.

Shadap, L., J. L. Tyagi, K. M. Poluri, S. Novikov, C.-W. T. Lo, Y. Mozharivskyj, M.R. Kollipara, “Synthesis and biological evaluation of some new class of benzothiazole-pyrazole ligands containing arene ruthenium, rhodium and iridium complexes”. Transition Metal Chemistry. (Dordrecht, Neth.) 2021, 46(3), 231-240.

Novikov S., R. Bagum, Z.B.Yan, J.P. Clancy, Y. Mozharivskyj. “Two new magnesium and magnesium-lead fluorogermanates and revision of the Mg28Ge7.5O38F10 phase”. Journal of Solid State Chemistry. 2021, 293, p. 121741.


2020

Lo C-W.T., T. Kolodiazhnyi, S. Song, Y-C. Tseng, Y. Mozharivskyj. “Experimental survey of dopants in Zn13Sb10 thermoelectric material”. Intermetallics. 2020,123, p.106831.

Shadap L., J.L. Tyagi, K.M. Poluri, S. Novikov, Timothy C-W. Lo, Y. Mozharivskyj, K.M. Rao. “Insights to the strained thiocarbamate derivative complexes of platinum group metals induced by azide as a co-ligand: Characterization and biological studies”. J. Organometallic Chemistry. 2020, 920, p. 121345.

Song, S., C.-W. T. Lo, M. Aminzare, Y.-C. Tseng, S. M. Valiyaveettil, and Y. Mozharivskyj, “Enhancing Thermoelectric Performance of Sn0.5Ge0.5Te via Doping with Sb/Bi and Alloying with Cu2Te. Optimization of Transport Properties and Thermal Conductivity”. Dalton Transactions, 2020, 49(18), p. 6135-6144.

Novikov, S. and Y. Mozharivskyj, “New halogen germanates of Sr and Ba”. Journal of Solid State Chemistry, 2020, 282, p. 121075.

Shang, Y., Y. Yuan, Y. Cao, R.L. Hadimani, Y. Mozharivskyj, and H. Fu, “Structure, magnetic properties, and magnetocaloric effect of polycrystalline Ho3M (M = Rh, Ru) alloys”. Journal of Magnetism and Magnetic Materials, 2020, 497, p. 166055.

Bakhshi, H., R. Sarraf-Mamoory, A. Yourdkhani, A.A. AbdelNabi, and Y. Mozharivskyj, “Highly dense Sr0.95Sm0.0125Dy0.0125-0.025Ti0.90Nb0.10O3±d/ZrO2 composite preparation directly through spark plasma sintering and its thermoelectric properties”. Dalton Transactions, 2020, 49(1), p. 17-22.

Bakhshi, H., R. Sarraf-Mamoory, A. Yourdkhani, A.A. AbdelNabi, and Y. Mozharivskyj, “Sol-gel synthesis, spark plasma sintering, structural characterization, and thermal conductivity measurement of heavily Nb-doped SrTiO3/TiO2 nanocomposites”. Ceramics International, 2020, 46(3), p. 3224-3235.


2019

Zheng, Z.G., Y.H. Li, A. He, Y. Mozharivskyj, H.Y. Yu, and D.C. Zeng, “Magnetic Properties, Magnetocaloric Effect, and Critical Behavior of Gd - Co - Ge Amorphous Ribbons”. Metal Science and Heat Treatment, 2019, 61(1-2), p. 15-22.

Keshavarz, M.K., C.-W.T. Lo, S. Turenne, Y. Mozharivskyj, and N.J. Quitoriano, “Hot Extrusion of ZnSb-Based Thermoelectric Materials; A Novel Approach for Scale-Up Production”. Journal of Manufacturing and Materials Processing, 2019, 3(3), p. 58-69.

Zhou, Q., Z.G. Zheng, Z.G. Qiu, Y. Hong, Y. Mozharivskyj, and D.C. Zeng, “Effect of Carbon Doping on the Structure and Magnetocaloric Properties of Mn1.15Fe0.80P0.50Si0.50 Compounds”. Journal of Superconductivity and Novel Magnetism, 2019, p. Ahead of Print.

Zheng, Z.G., W.H. Wang, Q. Zhou, L. Lei, Y. Hong, D.C. Zeng, and Y. Mozharivskyj, “Microstructure and magnetocaloric effects of Mn1.2Fe0.8P0.6Si0.4B0.05 alloys prepared by ball milling and spinning methods.” Journal of Magnetism and Magnetic Materials, 2019, 477, p. 203-208.

Morozkin, A.V., V.O. Yapaskurt, A.V. Knotko, Y. Mozharivskyj, F. Yuan, and J. Yao, “Lu14Co3In3-type Y14Co3A13, Gd14Co3.2Al2.8, {Gd, Tb, Dy, Lu}14Ni3Al3 and {Tb, Dy}14Co3Al3 compounds: Crystal structure, magnetic properties and heat capacity”. Journal of Magnetism and Magnetic Materials, 2019, 476, p. 317-324.

Lo, C.-W.T., T. Kolodiazhnyi, and Y. Mozharivskyj, “Incorporation of indium into Zn13Sb10 thermoelectric material”. Journal of Alloys and Compounds, 2019, 780, p. 334-340.

He, A. and Y. Mozharivskyj, “Structural and magnetic properties of the MnFeSixP1-x magnetocaloric phases”. Intermetallics, 2019, 105, p. 56-60.

Bakhshi, H., N. Vahdati, A. Sedghi, and Y. Mozharivskyj, "Comparison of the effect of nickel and cobalt cations addition on the structural and magnetic properties of manganese-zinc ferrite nanoparticles". Journal of Magnetism and Magnetic Materials, 2019, 474, p. 56-62.

Aminzare, M., Y.-C. Tseng, A. Ramakrishnan, K.-H. Chen, and Y. Mozharivskyj, Effect of single metal doping on the thermoelectric properties of SnTe. Sustainable Energy & Fuels, 2019, 3(1): p. 251-263.

Aminzare, M., Y.-C. Tseng, and Y. Mozharivskyj, “Effect of Spark Plasma Sintering and Sb Doping on the Thermoelectric Properties of Co4Ge6Te6 Skutterudite”, Journal of Solid State Chemistry, 2019, 269, p. 434-441.


2018

Aminzare, M., Y.-C. Tseng, and Y. Mozharivskyj, “Effect of Spark Plasma Sintering and Sb Doping on the Thermoelectric Properties of Co4Ge6Te6 Skutterudite”, Journal of Solid State Chemistry, 2019, 269, p. 434-441.

Lo, C.-W. T., V. Svitlyk, D. Chernyshov, and Y. Mozharivskyj “The updated Zn-Sb phase diagram. How to make pure Zn13Sb10 (“Zn4Sb3”)”, Dalton Transactions, 2018, 47, p. 11512 – 11520.

Yuan, F., A. Toombs, G. J. Miller, and Y. Mozharivskyj, "Gd(Co1-xGax)2: Synthesis, crystal structures, and investigation of structural transformations and magnetic properties," J. Solid State Chemistry, 2018, 264, p.68-76.

Yuan, F., J. E. Greedan, C. Boyer, and Y. Mozharivskyj, “A neutron diffraction study of the hexagonal Laves phases, Ho(Co0.667Ga0.333)2 and Er(Co0.667Ga0.333)2: Co/Ga site preferences and magnetic structure”. J. Solid State Chemistry, 2018, 257, p. 1-8.

Morozkin, A. V., A. V. Garshev, A. V. Knotko, V. O. Yapaskurt, Y. Mozharivskyj, F. Yuan, J. Yao, R. Nirmala, S. Quezado, and S. K. Malik, "The Gd-Co-Al system at 870/1070 K as a representative of the rare earth-Co-Al family and new rare-earth cobalt aluminides: Crystal structure and magnetic properties," J. Solid State Chemistry, 2018, 261, p.62-74.


2017

Forbes, S. and Y. Mozharivskyj, “Rare-earth pnictide oxides (RE,Ca)mPnnOm (Pn = Sb, Bi): a review of crystal structures, chemistry, compositions, and physical properties”. Chemistry of Materials, 2017, 29, (22), p. 9605-9612.

Zheng, Z.G., Z.R. Zhu, H.Y. Yu, D.C. Zeng, Y.H. Li, A. He, and Y. Mozharivskyj, “Large magnetic entropy change and magnetic phase transitions in rapidly quenched bulk Mn-Fe-P-Si alloys”. Journal of Alloys and Compounds, 2017, 725, p. 1069-1076.

Lo, C.-W.T., B.R. Ortiz, E.S. Toberer, A. He, V. Svitlyk, D. Chernyshov, T. Kolodiazhnyi, S. Lidin, and Y. Mozharivskyj, "Synthesis, Structure, and Thermoelectric Properties of α-Zn3Sb2 and Comparison to β-Zn13Sb10". Chemistry of Materials, 2017, 29(12): p. 5249-5258.

He, A., V. Svitlyk, Y. Mozharivskyj, “A New Synthetic Approach for the (Mn,Fe)2(Si,P) Magnetocaloric Materials: Purity, Structural, Magnetic and Magnetocaloric Properties”, Inorganic Chemistry, 2017, 56 (5), pp 2827–2833.

Yuan, F., J.E. Greedan, and Y. Mozharivskyj, "Structural and magnetic studies on the new Laves phases RE(Co0.667Ga0.333)2 (RE = Gd, Tb, Dy, Ho, and Er). Magnetocaloric effect of Gd(Co0.667Ga0.333)2". Journal of Magnetism and Magnetic Materials, 2017. 441: p. 490-496.

Singh, K.S., P. Wang, N.A. Narkhede, and Y. Mozharivskyj, Iridium(III) and Rhodium(III) compounds of dipyridyl-N-alkylimine and dipyridyl-NH-ketimine: Spectral characterization and crystal structure. J. Chem. Sci. (Berlin, Ger.), 2017, 129(3): p. 365-372.


2016

Hirt, S., F. Yuan, Y. Mozharivskyj, and H. Hillebrecht, “AlFe2-xCoxB2 (x = 0-0.30): TC Tuning through Co Substitution for a Promising Magnetocaloric Material Realized by Spark Plasma Sintering”, Inorganic Chemistry, 2016. 55(19): p. 9677-9684.

Kolodiazhnyi, T., H. Sakurai, M. Isobe, Y. Matsushita, S. Forbes, Y. Mozharivskyj, T.J.S. Munsie, G.M. Luke, M. Gurak, and D.R. Clarke, “Publisher's note: superconductivity and crystal structural origins of the metal-insulator transition in Ba6-xSrxNb10O30 tetragonal tungsten bronzes”. Physical Review B, 2016. 93(1): p. 019903/1.

Forbes, S., F. Yuan, K. Kosuda, T. Kolodiazhnyi, and Y. Mozharivskyj, “Investigation of the transport properties and compositions of the Ca2RE7Pn5O5 series (RE=Pr, Sm, Gd, Dy; Pn=Sb, Bi)”, J. Solid State Chemistry, 2016. 242(2): p. 148-154.

Palepu, N.R., J.R. Premkumar, A.K. Verma, K. Bhattacharjee, S.R. Joshi, S. Forbes, Y. Mozharivskyj, W. Kaminsky, and K.M. Rao, “In vitro Biological Activity Studies of Platinum Group Metal Complexes Containing N, N'- Bis(picolinoyl)hydrazine Ligand”, Current Inorganic Chemistry, 2016. 6(2): p. 127-140.

Svitlyk, V., D. Chernyshov, Y. Mozharivskyj, F. Yuan, O. Zaharko, and M. Mezouar, “Temperature- and Pressure-Induced Spin Crossover in Co1+xCr2-xSe4 (x = 0.24): A Diffraction Study”, Inorganic Chemistry, 2016, 55(1): p. 338-344.

Morozkin, A.V., V.O. Yapaskurt, R. Nirmala, S. Quezado, S.K. Malik, Y. Mozharivskyj, and O. Isnard, “Magnetic ordering of Hf3Ni2Si3-type {Sm, Tb, Er}3Co2Ge3 and {Tb, Ho}3Ni2Ge3 compounds” Journal of Magnetism and Magnetic Materials, 2016. 424: p. 99-107.
Forbes, S., F. Yuan, K. Kosuda, T. Kolodiazhnyi, Y. Mozharivksyj, "Synthesis, Crystal Structure, and Physical Properties of the Gd3BiO3 and Gd8Bi3O8 phases", J. Solid State Chemistry, 2016, 233, p. 252-258.

Dragomir, M., M. Valant, M. Fanetti, and Y. Mozharivskyj, “A facile chemical method for the synthesis of 3C-SiC nanoflakes”, RSC Advances, 2016, 6(26): p. 21795-21801.

Morozkin, A.V., V.O. Yapaskurt, R. Nirmala, S.K. Malik, S. Quezado, Jinlei Yao, Y. Mozharivskyj, A.K. Nigam, O. Isnard, "Magnetic order of Y3NiSi3-type R3NiSi3 (R = Gd-Dy) compounds", J. Magnetism and Magnetic Materials, 2016, 398, p. 141-147.


2015

Morozkin, A.V., V.O. Yapaskurt, R. Nirmala, S.K. Malik, S. Quezado, Jinlei Yao, Y. Mozharivskyj, A.K. Nigam, O. Isnard, "Magnetic order of Y3NiSi3-type R3NiSi3 (R = Gd-Dy) compounds", J. Magnetism and Magnetic Materials, 2016, 398, p. 141-147.

Forbes, S., F. Yuan, K. Kosuda, T. Kolodiazhnyi, Y. Mozharivksyj, "Synthesis, Crystal Structure, and Physical Properties of the Gd3BiO3 and Gd8Bi3O8 phases", J. Solid State Chemistry, under review.

Dragomir, M., M. Fanetti, Y. Mozharivskyj, and M. Valant, "A facile chemical method for synthesis of nanometer thin 3C-SiC flakes", Nanoscale, under review.

Svitlyk, V., T. Kolodiazhnyi, L. M.D. Cranswick, G. Luke, and Y. Mozharivskyj, "Magnetic and transport properties of Co1-+δCr2+-δSe4", Materials Research Express, accepted.

Morozkin, A.V., A.V.Knotko, V.O.Yapaskurt, Jinlei Yao, Fang Yuan, Y. Mozharivskyj, R. Nirmala, S. Quezado, S.K. Malik, "Magnetic propertiesof CaCu5-type RNi3TSi (R=Gd and Tb, T=Mn, Fe, Co and Cu)compounds", J. Solid State Chemistry, 2015, 232, p. 150-156.

Yuan, F., S. Forbes, K. K. Ramachandran, and Y. Mozharivskyj, "Structure and Physical Properties of Cr5B3-type Ta5Si3 and Ta5Ge3, J. Alloys and Compounds, 2015, 650, p. 712-717.

Forbes, S., Y.-C. Tseng, and Y. Mozharivskyj, "Crystal Cluster Growth and Physical Properties of the EuSbSe3 and EuBiSe3 Phases", Inorganic Chemistry, 2015, 54(3), p. 815-820.

Yuan, F., A.V. Morozkin, and Y. Mozharivskyj, "Targeted Structural Changes and Magnetic Properties in (Ho/Er)5Ga3-x(Co/Fe)x", J. Alloys and Compounds, 2015, 620, p. 376-382.

Muller, R.A., N.R. Lee-Hone, L. Lapointe, D.H. Ryan, T. Pereg-Barnea, A.D. Bianchi, Y. Mozharivskyj, and R. Flacau, “Magnetic structure of GdBiPt: a candidate antiferromagnetic topological insulator”, Physical Review B, 2015. 90(4), p. 041109/1-5.

Morozkin, A.V., A.V. Knotko, V.O. Yapaskurt, F. Yuan, Y. Mozharivskyj, M. Pani, A. Provino, and P. Manfrinetti, “The Ho-Ni-Ge system: Isothermal section and new rare-earth nickel germanides”, J. Solid State Chemistry, 2015, 225, p. 193-201.

Palepu, N.R., S.L. Nongbri, J.R. Premkumar, A.K. Verma, K. Bhattacharjee, S.R. Joshi, S. Forbes, Y. Mozharivskyj, R. Thounaojam, K. Aguan, and M.R. Kollipara, “Synthesis and evaluation of new salicylaldehyde-2-picolinylhydrazone Schiff base compounds of Ru(II), Rh(III) and Ir(III) as in vitro antitumor, antibacterial and fluorescence imaging agents”, J. Biol. Inorg. Chem., 2015, 20(4), p. 619-638.

Kalidasan, M., R. Nagarajaprakash, S. Forbes, Y. Mozharivskyj, and K.M. Rao, “Synthesis, Spectroscopic and Molecular Studies of Half-Sandwich η6-Arene Ruthenium, Cp* Rhodium and Cp* Iridium Metal Complexes with Bidentate Ligands”, Zeitschrift fuer Anorganische und Allgemeine Chemie, 2015, 641(3-4), p. 715-723.


2014

Esmaeili, M., S. Forbes, Y.-C. Tseng, and Y. Mozharivskyj, "Crystal structure, electronic and physical properties of monoclinic RECuTe2 in contrast to RECuSe2 (RE = Pr, Sm, Gd, Dy and Er)", Solid State Sci., 2014, 36, p. 89-93.

Esmaeili, M., Y.-C. Tseng, Y. Mozharivskyj, "Thermoelectric properties, crystal and electronic structure of semiconducting RECuSe2 (RE = Pr, Sm, Gd, Dy and Er)", J. Alloys and Compounds, 2014. 610, p. 555-560.

Yuan, F., Y. Mozharivskyj, A.V. Morozkin, A.V. Knotko, V.O. Yapaskurt, M. Pani, A. Provino, and P. Manfrinetti, "The Dy-Ni-Si system as a representative of the rare earth-Ni-Si family: Its isothermal section and new rare-earth nickel silicides", Journal of Solid State Chemistry, 2014, 219, p. 247-258.

Muller, R.A., N.R. Lee-Hone, L. Lapointe, D.H. Ryan, T. Pereg-Barnea, A.D. Bianchi, Y. Mozharivskyj, and R. Flacau, "Magnetic structure of GdBiPt: a candidate antiferromagnetic topological insulator", Physical Review B, 2014, 90(4), p. 041109/1-5.

Morozkin, A.V., F. Yuan, Y. Mozharivskyj, and O. Isnard, "Magnetic order of YNi4Si-type TbNi4Si", J. Magnetism and Magnetic Materials, 2014, 368, p. 121-125.

Kolodiazhnyi, T., H. Sakurai, O. Vasylkiv, H. Borodianska, S. Forbes, and Y. Mozharivskyj, "Structure and physical properties of EuTa2O6 tungsten bronze polymorph", Applied Physics Letters, 2014. 105(6), p. 062902/1-062902/3.

Pani, M., P. Manfrinetti, A. Provino, F. Yuan, Y. Mozharivskyj, A.V. Morozkin, A.V.Knotko, A.V. Garshev, V.O. Yapaskurt, O. Isnard, "New tetragonal derivatives of cubic NaZn13-type structure: RNi6Si6 compounds, crystal structure and magnetic ordering (R=Y, La, Ce, Sm, Gd-Yb)", J. Solid State Chemistry, 2014, 210(1), p. 45-52.

Joshi, S., C. Silva, P. Wang, Y. Mozharivskyj, A. Petric, "Copper-Magnesium-Manganese Spinel Coatings for Solid Oxide Fuel Cell Interconnects", J. Electrochemical Society, 2014, 161(3), p. F233-F238.

Forbes, S., F.Yuan, B.Saparov, A. Sefat, K. Kosuda,T. Kolodiazhnyi, Y. Mozharivskyj, "Synthesis, Crystal Structure, and Electronic Properties of the CaRE3SbO4 and Ca2RE8Sb3O10 Phases (RE is a rare-earth metal)", Chemistry of Materials, 2014, 26, p. 2289-2298.

Morozkin, A.V., Y. Yao, Y. Fang, Y.Mozharivskyj, O.Isnard, "Magnetic order of the La3NiGe2-type-type Ho3NiGe2", J. Magnetism and Magn. Mat., 2014, 306, p. 200-204.

Kolodiazhnyi, T., H. Sakurai, O. Vasylkiv, H. Borodianska, and Y. Mozharivskyj, "Abnormal thermal conductivity in tetragonal tungsten bronze Ba6-xSrxNb10O30", Applied Physics Letters, 2013, 104, p. 111903-1-3.


2013

Morozkin, A.V., V. Svitlyk, Y. Mozharivskyj, and O. Isnard, "Magnetic order of the La3NiGe2-type Tb3NiSi2", J. Magnetism and Magn. Mat., 2013, 349, p. 201-207.

Morozkin, A.V., A.V. Knotko, V.O. Yapaskurt, Fang Yuan, Y. Mozharivskyj, R. Nirmala, "New orthorhombic derivative of CaCu5-type structure: RNi4Si compounds (R=Y, La, Ce, Sm, Gd–Ho), crystal structure and some magnetic properties", J. Solid State Chemistry, 2013, 208, p. 9-13.

Morozkin, A.V., A.V. Knotko, V.O. Yapaskurt, A. Provino, P. Manfrinetti, Jinlei Yao, Fang Yuan, Y. Mozharivskyj, “Dy-Mn-Si as a representative of family of ‘Dy-Transition Metal-Si’ systems: Its isothermal sections, empirical rules and new rare-earth manganese silicides”, J. Solid State Chemistry, 2013, 206, p. 199-208.

Wang, P.L. and Y. Mozharivskyj, "The low-symmetry lanthanum(III) oxotellurate(IV), La10Te12O39.", Acta crystallographica. Section E, 2013, 69(6), p. i36.

Morozkin, A.V., A.V. Knotko, V.O. Yapaskurt, A. Provino, P. Manfrinetti, Jinlei Yao, Y. Mozharivskyj, "Dy-Co-Si system at 870/1070 K", Intermetallics, 2013, 41, p. 70-75.

Wang, P.L., T. Kolodiazhnyi, J. Yao, and Y. Mozharivskyj, "Disorder-Controlled Electrical Properties in the Ho2Sb1-xBixO2 Phases", Chemistry of Materials, 2013, 25 (5), p. 699–703.

Yao, J., Y. Zhang, P.L. Wang, L. Lutz, G.J. Miller, and Y. Mozharivskyj, "Electronically-induced ferromagnetic transitions in Sm5Ge4-type magnetoresponsive phases", Phys. Rev. Letters, 2013, 110(7), p. 077204/1-5.

Forbes, S., P. Wang, J. Yao, T. Kolodiazhnyi, Y. Mozharivskyj, "Synthesis, Crystal Structure, and Electronic Properties of the Tetragonal (REIREII)3SbO3 Phases (REI = La, Ce; REII = Dy, Ho)", Inorg. Chem., 2013, 52(2), p. 1025–1031.

Cheung, Y.Y.J.,V. Svitlyk, and Y. Mozharivskyj, "Structural and magnetic properties of Gd5Ge4-xPx (x = 0.25 – 0.63)", J. Magnetism and Magn. Mat., 2013, 331, p. 237-244.

Yao, J., A.Morozkin, and Y. Mozharivskyj, "Coloring problem and magnetocaloric effect of Gd3Co2.2Si1.8", J. of Alloys and Compounds, 2013, 550, p. 331-334.

Morozkin, A., J. Yao, Y. Mozharivskyj, "New ternary Yb5Sb3-type R5PtX2 compounds (R=Y, Gd and Er; X= Sb and Bi) and their magnetic properties", J. of Solid State Chem., 2013, 34, p. 10-13.


2012

Cheung,Y.Y.J., V. Svitlyk, and Y. Mozharivskyj, "Gd4Ge3-xPnx (Pn = P, Sb, Bi, x = 0.5 - 3): stabilizing the non-existing Gd4Ge3 binary through valence electron concentration. Electronic and magnetic properties of Gd4Ge3-xPnx", Inorg. Chem., 2012, 51 (19), p. 10169–10175.

Wang, P., J. Yao, T. Kolodiazhnyi and Y. Mozharivskyj, "Decoupling the Electrical Conductivity and Seebeck Coefficient in the RE2SbO2 Compounds through Local Structural Perturbations", J. Amer. Chem. Soc., 2012, 134(3), p. 1426-1429.

Yao, J., P. Wang, and Y. Mozharivskyj, "Crystal structure and magnetism of Gd5-xEuxGe4", J. of Alloys and Compounds, 2012, 534, p. 74-80.

Morozkin, A., R. Nirmala, J. Yao, Y. Mozharivskyj, and O. Isnard, "Crystal structure and magnetic properties of novel Hf3Ni2Si3-type R3Co2Ge3 compounds (R = Y, Sm, Tb - Tm)", J. Solid State Chem., 2012, 196, p. 93-99.

Morozkin, A., J. Yao, Y. Mozharivskyj, "Crystal structure and magnetic properties of novel R3Co2.2Si1.8 compounds (R = Y, Gd - Tm)", J. of Solid State Chem., 2012, 190, p. 371-376.

Yao, J., P. Wang, and Y. Mozharivskyj, “Electron–deficient Eu6.5Gd0.5Ge6 intermetallic: a layered intergrowth phase of the Gd5Si4– and FeB–type structures”, Inorg. Chem., 2012, 51, p. 3172–3178.

Yao, J., P. Wang, and Y. Mozharivskyj, "Tuning Magnetic and Structural Transitions through Valence Electron Concentration in the Giant Magnetocaloric Gd5-xEuxGe4 Phases", Chemistry of Materials, 2012, 24, p 552–556.

Morozkin, A., J. Yao, Y. Mozharivskyj, O. Isnard, "Magnetic structure of the La3NiGe2-type Tb3NiGe2 and Mn5Si3-type Tb5NixGe3-x (x = 0 and 0.3)", J. Magnetism and Magn. Mat., 2012, 324(7), p. 2977-2984.

Morozkin, A., J. Yao, Y. Mozharivskyj, "Magnetic properties and magnetocaloric effect of Sc2CoSi2-type Gd2CoSi2 and Gd2CoGe2 compounds", Intermetallics, 2012, 21, p. 115-120.

Svitlyk, V., T. Russell, T. Kolodiazhnyi and Y. Mozharivskyj, "Structure and Magnetic Properties of Fe1.14Cr1.86Se4 Ferrimagnet. Negative Magnetization and its Dependence on Magnetic Field", J. Magnetism and Magn. Mat., 2012, 324(7), p. 1419-1424.


2011

Yao, J. and Y. Mozharivskyj, "Site preference of metal atoms in Gd5-xMxTt4 (M = Zr, Hf; Tt = Si, Ge)", Zietschrift fur Anorganishe and Allgemeine Chemie, 2011, 637(13), p. 2039-2045.

Wang, P., S. Forbes, V. Sviltlyk, A. Aushana, Y. Mozharivskyj, "Resolving Composition and Structure of RE-Sb-O-C Natural Superlattice Phases (RE = La, Ho)", European Journal of Inorganic Chemistry, 2011, 26, p. 3887–3895.

Wang, L., Y. Sakka, D. A. Rusakov, Y. Mozharivskyj, and T. Kolodiazhnyi, "Novel incipient ferroelectrics based on Ba4MNbxTa10-xO30 where M = Zn, Mg, Co, Ni", Chemistry of Materials, 2011, 23(10), p. 2586-2594.

Yao, J., P. Lyutyy and Yurij Mozharivskyj "Crystal Structure, Coloring Problem and Magnetism of Gd5-xZrxSi4", Dalton Transactions, 2011, 40(16), p. 4275-4283.

Hitchcock, A., K. P. Lam, S. Kairai, Y. Mozharivskyj, V. Svitlyk, K. Harding, and Y. Wang, "Nanoscale magnetizm studied with soft X-ray spectromicroscopy", Physcis in Canada, 2011, 67(1), p. 7-10.

do Couto,G. G., V. Svitlyk, M. Jafelicci Junior and Y. Mozharivskyj,"Bulk and high-energy ball-milled Gd5Si2Ge2: comparative study of magnetic and magnetocaloric properties", Solid State Sciences, 2011, 13, p. 209-215.

Manfrinetti, P., F. Wrubl, A.V. Morozkin, O. Isnard, Y. Mozharivskyj, V. Svitlyk, " Magnetic ordering of novel La3NiGe2-type R3CoGe2 phases (R = Pr, Nd, Sm, Gd - Dy)", Intermetallics, 2011, 19, p. 321-326.

A.V. Morozkin, Y. Mozharivskyj, V. Svitlyk, and R. Nirmala and S. K. Malik, "New ternary Yb5Sb3-type R5T1-x{Sb, Bi}2+x phases (R = Y, Dy, Ho, T = Co, Ru, Rh, Pd) and their magnetic properties", Intermetallics, 2011, 19, p. 302-306.

Y.Y.J. Cheung, V. Svitlyk, and Y. Mozharivskyj, "Structure, Magnetic and Magnetocaloric Properties of RE11Ge8In2 (RE = Gd-Tm)", Intermetallics, 2011, 19, p. 276-281.


2010

P. Wang, S. Forbes, T. Kolodiazhnyi, K. Kosuda, and Y. Mozharivskyj, "Synthesis, Crystal and Electronic Structures of Novel Narrow-Band Semiconducting Suboxides RE3SbO3 and RE8Sb3-dO8 with RE = La, Sm, Gd, Ho", J. Amer. Chem. Soc., 2010, 132, p. 8795-8803.

A.V. Morozkin, Y. Mozharivskyj, V. Svitlyk, R. Nirmala and A. K. Nigam, “Magnetic properties of Fe2P-type Tb6FeTe2, Tb6CoTe2, Tb6NiTe2 and Er6FeTe2 compounds ", J. of Solid State Chem., 2010, 183, p. 3039-3051.

A.V. Morozkin, Y. Mozharivskyj, V. Svitlyk, R. Nirmala, O. Isnard, P. Manfrinetti, A. Provino and C. Ritter, "Magnetic properties of Fe2P-type R6CoTe2 compounds (R = Gd-Er)". J. Solid State Chem., 2010, 183, p. 1314-1325.

V. Svitlyk, Y.Y.J. Cheung, and Y. Mozharivskyj, "Structural, magnetic and magnetocaloric properties of the Gd5Si4-xSbx (x = 0.5-3.5) phases". Journal of Magnetism and Magnetic Materials, 2010, 322, p. 2558-2566.

P. Wang, F. Ahmadpour, T. Kolodiazhnyi, A. Kracher, L. M. D. Cranswick, Y. Mozharivskyj, "Composition, structure, bonding and thermoelectric properties of "CuT2P3" and "CuT4P3", members of the T1-x(CuP3)x series with T being Si and Ge". Dalton Transcations, 2010, 39, p. 1105-1112.


2009

V. Svitlyk, C. J. Branton and Y. Mozharivskyj, "Gd5Si4-xBix structures: novel slab sequences achieved by turning off the directionality of nearest-slab interactions", Inor. Chem., 2009, 48, p. 10364-10370.

S. Misra, Y. Mozharivskyj, A. O. Tsokol, D. L. Schlagel, T. A. Lograsso, G. J. Miller, "Structural, Magnetic, and Thermal Characteristics of the Phase Transitions in Gd5GaxGe4-x Magnetocaloric Materials", J. Solid State Chem., 2009, 182, p. 3031-3040.

V. Svitlyk and Y. Mozharivskyj, "Magnetic transitions in the Gd5Si4-xPx (x = 0.5, 0.75, 1.25) phases. Magnetocaloric effect of the Gd5Si2.75P1.25 phase", 2009, 11, p. 1941-1944.

V. Svitlyk, Y.Y.J. Cheung, and Y. Mozharivskyj, "Soft ferromagnet GdFe7.7Si1.3 with a CaCu5-to-Th2(Ni/Zn)17 transitional structure", J. Solid State Chem., 2009, 182, p. 2543-2548.

V. Svitlyk, F. Fei, Y. Mozharivskyj, "Dy5Ni0.66Bi2.34 and Lu5Ni0.56Sb2.44 – substitution derivatives with the orthorhombic Yb5Sb3-type structure. Magnetocaloric effect of Dy5Ni0.66Bi2.34". Solid State Sciences, 2009, 11, p. 1700-1702.

V. Svitlyk and Y. Mozharivskyj, “High-Temperature Order-Disorder Transition in Cor2Se4 and Trapping Co Disorder in Monoclinic Cor2Se4. Structural Features of Cu1-xCoxCr2Se4 phases", Inor. Chem., 2009, 48, p. 5296-5302.

V. Svitlyk, F. Fei, A. Kracher, Y. Mozharivskyj, "Quaternary Gd4Ni2Sb1±xSi2±x and Gd4Ni2Bi1±xSi2±x: Crystal Structure, Homogeneity Regions and Magnetic Behavior". Solid State Sciences, 2009, 11, p. 1083-1087.

A.S. Sefat, D.J. Singh, L.H. VanBebber, Y. Mozharivskyj, M.A. McGuire, R. Jin, B.C. Sales, V. Keppens, and D. Mandrus, "Absence of superconductivity in hole-doped BaFe2-xCrxAs2 single crystals", Phys. Rev. B, 2009, 79, p. 224524/1-7.

B.C. Sales, A.S. Sefat, M.A. McGuire, R. Jin, D. Mandrus, Y. Mozharivskyj, "Bulk Superconductivity at 14 K in Large Single Crystals of Fe1+yTexSe1-x". Phys. Rev. B, 2009, 79, p. 094521/1-5.

A. S. Sefat, R. Jin, M. A. McGuire, B. C. Sales, D. Mandrus, F. Ronning, Y. Mozharivskyj, "Structure and Anisotropic Properties of Single Crystals BaFe2-xNixAs2 (x=0, 1, 2)". Phys. Rev. B, 2009, 79, p. 094508/1-8.

V. Svitlyk, G. Miller, Y. Mozharivskyj, "Gd5Si4-xPx: Targeted Structural Changes through Increase in Valence Electron Concentration". JACS, 2009, 131, p. 2367-2374.

A.V. Morozkin, D. Buddhikot, A.K. Nigam, O. Isnard, Y. Mozharivskyj, "Magnetic properties of Th3P4-type Tb4Sb3-x{Si, Ge, Bi}x solid solutions". J. Alloys .Comp., 2009, 478, p. 22-29.


2008

V. Svitlyk, F. Fei, and Y. Mozharivskyj, "Gd5Ni0.96Sb2.04 and Gd5Ni0.71Bi2.29: crystal structure, magnetic properties and magnetocaloric effect. Structural transformation and magnetic properties of hexagonal Gd5Bi3". J. Solid State Chem. 2008, 181, p. 1080-1086.

F. Ahmadpour. and Y. Mozharivskyj, “Structure of new metastable cubic TbO2-x”.J. Alloys Comp. 2008, 452, p. 254-257.


2007

F. Ahmadpour, T. Kolodiazhnyi, Y. Mozharivskyj, "Structural and physical properties of Mg3-xZnxSb2 (x = 0-1.34)". J. Solid State Chem., 2007, 180 (9), p. 2420-2428.

Y. Janssen, S. Chang, A. Kreyssig, A. Kracher, Y. Mozharivskyj, S. Misra, P. C. Canfield, "Magnetic phase diagram of Ce2Fe17". Phys. Rev. B., 2007, 76 (5), p. 054420/054421-054420/054417.

D. Wu, M. Huang, T. A. Lograsso, R. W. McCallum, Y. Mozharivskyj, A. Llobet, "Determination of stoichiometry and site disorder in the complex intermetallics". J. Alloys .Comp., 2007, 441 (1-2), p. 206-213.


2006

Mozharivskyj, Y., A. O. Tsokol, and G. J. Miller, "Structural Changes in Gd5Si4-xSnx: Size of Sn Atoms and Interslab Bond Distances", Z. Kristallogr., 2006. 221(5-7): p. 493-501.

Morosan, E., S. L. Bud'ko, Y. Mozharivskyj, and P. C. Canfield, "Magnetic-field-induced quantum critical point in YbPtIn and YbPt0.98In single crystals." Phys. Rev. B., 2006. 73: p. 174432/1-32/17.

Mozharivskyj, Y., Y. Janssen, J. L. Harringa, A. Kracher, A. Tsokol, and G. J. Miller, "Zn13Sb10: A Structural and Landau Theoretical Analysis of Its Phase Transitions". Chem. Mater., 2006, 18: p. 822-831.

Tkachuk, A. V., Y. Mozharivskyj, and A. Mar. "Low- and high-temperature structures of YbCuBi." Z. Kristallogr., 2006. 221(5-7): p. 539-542.


2005-1996

Mozharivskyj, Y., A. O. Pecharsky, V. K Pecharsky, and G. J. Miller, "On the High-Temperature Phase Transition of Gd5Si2Ge2". J. Amer. Chem. Soc., 2005. 127: p. 314-327.

Angst, M., A. Kreyssig, Y. Janssen, J.-W. Kim, L. Tan, D. Wermeille, Y. Mozharivskyij, A. Kracher, A. I. Goldman, and P. C. Canfield, "Distinct order of Gd 4f and Fe 3d moments coexisting in GdFe4Al8". Phys. Rev. B, 2005, 72: p. 174407/01-07/13.

Gemmill, W. R., M. D. Smith,Y A. Mozharivsky, G. J. Miller, and H.-C. zur Loye, "Crystal Growth, Structural Transitions, and Magnetic Properties of the Fluorite-Related Osmates: Sm3OsO7, Eu3OsO7, and Gd3OsO7", Inorg. Chem. 2005, 44; p. 7047-7055.

Ahn, K., A. O. Tsokol, Y. Mozharivskyj, K. A. Gschneidner, Jr.,and V. K. Pecharsky, "Phase relationships, and structural, magnetic and thermodynamic properties of the Yb5Si4-Yb5Ge4 pseudobinary system". Phys. Rev. B., 2005. 72: p. 054404/1-04/11.

Sebastian, S. E., D. Yin, P. Tanedo, G. A. Jorge, N. Harrison, M. Jaime, Y. Mozharivskyj, G. Miller, J. Krzystek, S.A. Zvyagin, and R. Fisher, "High field behavior of the spin gap compound Sr2Cu(BO3)2". Phys. Rev. B., 2005. 71: p. 212405/1-05/4.

Mozharivskyj, Y., A. O. Pecharsky, V. K Pecharsky, G. J. Miller, and K. A. Gschneidner, Jr., "Tracking and understanding first-order structural transition in Er5Si4". Phys. Rev. B., 2004. 69: p. 144102/1-02/13.

Mozharivskyj, Y., A. O. Pecharsky, S. Bud'ko, and G. J. Miller. "A Promising Thermoelectric Material: Zn4Sb3 or Zn6-dSb5. Its Composition, Structure, Stability, and Polymorphs. Structure and Stability of Zn1-d Sb". Chem. Mat., 2004. 16(8): p. 1580-1589.

Mozharivskyj, Y., W. Choe, A. O. Pecharsky, and G. J. Miller. "Phase Transformation Driven by Valence Electron Concentration: Tuning Interslab Bond Distances in Gd5GaxGe4-x". J. Amer. Chem. Soc. 2003. 125: p. 15183-90.

Pecharsky, V.K., A.O. Pecharsky, Y. Mozharivskyj, K. A. Gschneidner, Jr., and G. J. Miller. "Unusual Decoupling of the Magnetic and Structural Transformations in Er5Si4". Phys. Rev. Lett., 2003. 91: p. 207205/1-05/4

Pecharsky, A. O., Y. Mozharivskyj, K. W. Dennis, K. A. Gschneidner, Jr., R. W. McCallum, G. J. Miller, and V. K. Pecharsky. "Preparation, Crystal Structure, Heat Capacity, Magnetism, and the Magnetocaloric Effect of Pr5Ni1.9Si3 and PrNi." Phys. Rev. B., 2003. 68,: p. 134452-8

Mozharivskyj, Y., A. O. Pecharsky, S. Bud'ko, and H. F. Franzen. "Symmetry-Breaking transitions in SmCu1+d As2-xPx (d = 0-0.2, x = 0-2). Effect of P and Additional Cu Atoms on Crystals Structures. Magnetic Propeties". Z. Anorg. Allg. Chem., 2002. 628(7): p. 1619-1630

Mozharivskyj, Y. and H. F. Franzen, "Distortions from the Tetragonal HfCuSi2-Type Structures to the Orthorhombic GdCuAs1.15P0.85-Type Structures in REMX2 (RE = Rare Earth; M= Cu, Ag; X=P, As, Sb): Mismatch between the Sizes of the M and X Atoms". J. Phys. Chem., 2002. 106(37): p. 9528-9535.

Mozharivskyj, Y., V. K. Pecharsky, and H. F. Franzen, "Testing thermal stability of orthorhombic GdCuP2.16 structure". J. Alloys Compd., 2002. 345(1-2): p. 100-104.

Mozharivskyj, Y. and H. F. Franzen, "Crystal structure of rare-earth-rich platinum pnictides RE5Pt2X (RE = Y, Gd, Tb, Dy, Ho, Er, Tm, Lu; X = Sb, Bi) and magnetic properties of Er5Pt2Bi". J. Alloys Compd., 2001. 327(1-2): p. 78-81.

Mozharivskyj, Y., D. Kaczorowski, and H. F. Franzen, "Symmetry-breaking transitions in HoCuAs2-xPx and ErCuAs2-xPx (x = 0-2): Crystal structure, application of Landau theory, magnetic and electrical properties". Z. Anorg. Allg. Chem., 2001. 627(9): p. 2163-2172.

Mozharivskyj, Y. and H. F. Franzen, "High-temperature modification of Y5Sb3 and its ternary analogue Y5NixSb3-x". J. Alloys Compd., 2001. 319(1-2): p. 100-107.

Mozharivskyj, Y., O. Lang, and H. F. Franzen, "Modulated crystal structure and electronic properties of semiconductor Cu47Si91P144". Z. Anorg. Allg. Chem., 2000. 626(10): p. 2153-2160.

Mozharivskyj, Y., D. Kaczorowski, and H. F. Franzen, "Symmetry-breaking transitions from GdCuAs2 through GdCuAs1.15P0.85 to GdCuP2.20. Crystal structure, application of Landau theory, bonding, magnetic and electrical properties". J. Solid State Chem., 2000. 155(1): p. 259-272.

Mozharivskyj, Y. and Y. B. Kuz'ma, "Ternary Phosphide Ho2Cu6-xP5-y, Its Crystal Structure, and REm+n(Cu2P3)m(Cu4P2)n Relationship with Other Rhombohedral Rare-Earth Copper Phosphides". J. Solid State Chem., 2000. 151(1): p. 150-156.

Mozharivskyj, Y. and H. F. Franzen, "Crystal Structure and Bonding in the Rare-Earth Rich Ternary Pnictides RE5M2X (RE = Y, Gd, Tb, Dy, Ho, Er, Tm, Lu; M = Ni, Pd; X = Sb, Bi)". J. Solid State Chem., 2000. 152(2): p. 478-485.

Mozharivskyj, Y. and H. F. Franzen, "Crystal structure of GdCuP2, GdCuAs2, and GdCuAs1.15P0.85". Book of Abstracts, 219th ACS National Meeting, San Francisco, CA, March 26-30, 2000.

Kuz'ma, Y. B., Y. A. Mozharivskyj, and O. N. Panas, "Ho-Cu-P system". Inorg. Mater., 1998. 34(1): p. 1-2.

Kuz'ma, Y. B., Chykhrij, S. I.,Mozharivskyj, Yu A., Tremel, W.,Demchyna, R. O., "New ternary phosphides Ln3-xCu8-yP8 (Ln = Y, Gd, Tb, Dy, Ho, Er, Tm) and their crystal structure". J. Alloys Compd., 1998. 278(1-2): p. 169-174.

Mozharivskyj, Y.A. and Y. B. Kuz'ma, "Ho-Ni-As system". Inorg. Mater., 1998. 34(3): p. 254-256.

Mozharivskyj, Y. A., Y. B. Kuz'ma, and O. M. Sichevich, "Y-Ni-Bi and Ho-Ni-Bi systems". Inorg. Mater., 1998. 34(7): p. 707-710.

Mikhalenko, S. I., Y. A. Mozharivskyj, and Y. B. Kuz'ma, "New compounds Ln5Pd2Sb (Ln = Y, Tb, Dy, Er, Tm, Lu) and their structure". Dopov. Nats. Akad. Nauk Ukr., 1998. 10: p. 108-111.

Zhak, O.V ., Y. A. Mozharivskyj, and Y. B. Kuz'ma, "Crystal structure of Sm14Ag51-x (x = 0.13)". Metally, 1998(1): p. 88-90.

Mozharivskyj, Y., A. Leither-Jasper, P. Rogl, and Y. B. Kuz'ma, "The Ce-Mn-P system (cerium-manganese-phosphorus)". J. Phase Equilib., 1996. 17(2): p. 112-16.

Mozharivskyj, Y. and Y. B. Kuz'ma, "New compounds RE5Ni2Sb (RE = Y, Tb, Dy, Ho, Er, Lu), Ho5Pd2Sb and their crystal structure". J. Alloys Compd., 1996. 236: p. 203-5.