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CMCG Group

 

Peer-Reviewed Articles

  1. Singh, K. S., Wang, P., Narkhede, N. A., & Mozharivskyj, Y. (2017). Iridium (III) and Rhodium (III) compounds of dipyridyl-N-alkylimine and dipyridyl-NH-ketimine: Spectral characterization and crystal structure. Journal of Chemical Sciences129(3), 365-372.

2017

  1. Wang, P. L., Kostina, S. S., Meng, F., Kontsevoi, O. Y., Liu, Z., Chen, P., ... & Freeman, A. J. (2016). Refined synthesis and crystal growth of Pb2P2Se6 for hard radiation detectors. Crystal Growth & Design16(9), 5100-5109.
  2. Kostina, S. S., Peters, J. A., Lin, W., Chen, P., Liu, Z., Wang, P. L., ... & Wessels, B. W. (2016). Photoluminescence fatigue and inhomogeneous line broadening in semi-insulating Tl6SeI4 single crystals. Semiconductor Science and Technology31(6), 065009.
  3. Kostina, S. S., Hanson, M. P., Wang, P. L., Peters, J. A., Valverde-Chávez, D. A., Chen, P., ... & Wessels, B. W. (2016). Charge transport mechanisms in a Pb2P2Se6 semiconductor. ACS Photonics3(10), 1877-1887.

2016

  1. Wang, P. L., Liu, Z., Chen, P., Peters, J. A., Tan, G., Im, J., ... & Kanatzidis, M. G. (2015). Hard radiation detection from the selenophosphate Pb2P2Se6. Advanced Functional Materials25(30), 4874-4881.
  2. Tan, G., Zeier, W. G., Shi, F., Wang, P., Snyder, G. J., Dravid, V. P., & Kanatzidis, M. G. (2015). High thermoelectric performance SnTe–In2Te3 solid solutions enabled by resonant levels and strong vacancy phonon scattering. Chemistry of Materials27(22), 7801-7811.

2015

  1. Ma, S., Shim, Y., Islam, S. M., Subrahmanyam, K. S., Wang, P., Li, H., ... & Kanatzidis, M. G. (2014). Efficient Hg vapor capture with polysulfide intercalated layered double hydroxides. Chemistry of Materials26(17), 5004-5011.
  2. Ma, S., Islam, S. M., Shim, Y., Gu, Q., Wang, P., Li, H., ... & Kanatzidis, M. G. (2014). Highly efficient iodine capture by layered double hydroxides intercalated with polysulfides. Chemistry of Materials26(24), 7114-7123.
  3. Ma, S., Chen, Q., Li, H., Wang, P., Islam, S. M., Gu, Q., ... & Kanatzidis, M. G. (2014). Highly selective and efficient heavy metal capture with polysulfide intercalated layered double hydroxides. Journal of Materials Chemistry A2(26), 10280-10289.
  4. Joshi, S., Silva, C., Wang, P., Mozharivskyj, Y., & Petric, A. (2013). Copper-Magnesium-Manganese spinel coatings for solid oxide fuel cell interconnects. Journal of The Electrochemical Society161(3), F233.

2014

  1. Yao, J., Zhang, Y., Wang, P. L., Lutz, L., Miller, G. J., & Mozharivskyj, Y. (2013). Electronically Induced Ferromagnetic Transitions in Sm 5 Ge 4-Type Magnetoresponsive Phases. Physical review letters110(7), 077204.
  2. Wang, P. L., & Mozharivskyj, Y. (2013). The low-symmetry lanthanum (III) oxotellurate (IV), La10Te12O39. Acta Crystallographica Section E: Structure Reports Online69(6), i36-i36.
  3. Wang, P. L., Kolodiazhnyi, T., Yao, J., & Mozharivskyj, Y. (2013). Disorder-Controlled Electrical Properties in the Ho2Sb1–x Bi x O2 Systems. Chemistry of Materials25(5), 699-703.
  4. Forbes, S., Wang, P., Yao, J., Kolodiazhnyi, T., & Mozharivskyj, Y. (2013). Synthesis, Crystal Structure, and Electronic Properties of the Tetragonal (REIREII) 3SbO3 Phases (REI= La, Ce; REII= Dy, Ho). Inorganic Chemistry52(2), 1025-1031.

2013

  1. Yao, J., Wang, P. L., & Mozharivskyj, Y. (2012). Crystal structure and magnetism of Gd5− xEuxGe4. Journal of alloys and compounds534, 74-80.
  2. Yao, J., Wang, P., & Mozharivskyj, Y. (2012). Tuning Magnetic and Structural Transitions through Valence Electron Concentration in the Giant Magnetocaloric Gd5–x Eu x Ge4 Phases. Chemistry of Materials24(3), 552-556.
  3. Yao, J., Wang, P., & Mozharivskyj, Y. (2012). Electron-Deficient Eu6. 5Gd0. 5Ge6 Intermetallic: A Layered Intergrowth Phase of the Gd5Si4-and FeB-Type Structures. Inorganic chemistry51(5), 3172-3178.
  4. Wang, P. L., Kolodiazhnyi, T., Yao, J., & Mozharivskyj, Y. (2012). Decoupling the electrical conductivity and seebeck coefficient in the RE 2SbO2 compounds through local structural perturbations. Journal of the American Chemical Society134(3), 1426-1429.
  5. Sairem, G., Anna, V. R., Wang, P., Das, B., & Kollipara, M. R. (2012). η 5 and η 6-cyclic π-perimeter hydrocarbon platinum group metal complexes of 3-(2-pyridyl) pyrazole derived ligands with a pendant nitrile group: Syntheses, spectral and structural studies. Journal of Chemical Sciences124(2), 411-419.
  6. Gloria, S., Wang, P., & Rao, K. M. (2012). Spectral and Structural Studies of Platinum Group Metal Complexes of3‐(Di‐2‐Pyridylaminomethyl) Benzamide and Formation of Mutual Intermolecular Hydrogen Bonding in Some Complexes. Zeitschrift für anorganische und allgemeine Chemie638(3‐4), 634-640.
  7. Anna, V. R., Prasad, K. T., Wang, P., & Rao, K. M. (2012). Study of half-sandwich mono and dinuclear complexes of platinum group metals containing pyrazolyl pyridine analogues: Synthesis and spectral characterization. Journal of Chemical Sciences124(3), 565-575.

2012

  1. Wang, P., Forbes, S., Svitlyk, V., Aushana, A., & Mozharivskyj, Y. (2011). Resolving Composition and Structure of RE–Sb–O–C Natural Superlattice Phases (RE= La, Ho). European Journal of Inorganic Chemistry2011(26), 3887-3895.

2011

  1. Wang, P., Forbes, S., Kolodiazhnyi, T., Kosuda, K., & Mozharivskyj, Y. (2010). Synthesis, Crystal and Electronic Structures of New Narrow-Band-Gap Semiconducting Antimonide Oxides RE3SbO3 and RE8Sb3− δO8, with RE= La, Sm, Gd, and Ho. Journal of the American Chemical Society132(25), 8795-8803.
  2. Wang, P., Ahmadpour, F., Kolodiazhnyi, T., Kracher, A., Cranswick, L. M., & Mozharivskyj, Y. (2010). Composition, structure, bonding and thermoelectric properties of “CuT 2 P 3” and “CuT 4 P 3”, members of the T 1− x (CuP 3) x series with T being Si and Ge. Dalton Transactions39(4), 1105-1112.
  3. Gupta, G., Zheng, C., Wang, P., & Rao, K. M. (2010). Mononuclear Complexes of Platinum Group Metals Containing η6‐and η5‐Cyclic Π‐Perimeter Hydrocarbon and Pyridylpyrazolyl Derivatives: Syntheses and Structural Studies. Zeitschrift für anorganische und allgemeine Chemie636(5), 758-764.

2010