Examination of the bonding in binary transition-metal monophosphides MP (M= Cr, Mn, Fe, Co) by X-ray photoelectron spectroscopy AP Grosvenor, SD Wik, RG Cavell, A Mar Inorganic chemistry 44 (24), 8988-8998, 2005 | 451 | 2005 |
High-throughput machine-learning-driven synthesis of full-Heusler compounds AO Oliynyk, E Antono, TD Sparks, L Ghadbeigi, MW Gaultois, B Meredig, ... Chemistry of Materials 28 (20), 7324-7331, 2016 | 337 | 2016 |
How To Optimize Materials and Devices via Design of Experiments and Machine Learning: Demonstration Using Organic Photovoltaics B Cao, LA Adutwum, AO Oliynyk, EJ Luber, BC Olsen, A Mar, JM Buriak ACS nano 12 (8), 7434-7444, 2018 | 273 | 2018 |
X-ray Photoelectron and Absorption Spectroscopy of Metal-Rich Phosphides M2P and M3P (M = Cr−Ni) PER Blanchard, AP Grosvenor, RG Cavell, A Mar Chemistry of Materials 20 (22), 7081-7088, 2008 | 264 | 2008 |
Metal-metal vs tellurium-tellurium bonding in WTe2 and its ternary variants TaIrTe4 and NbIrTe4 A Mar, S Jobic, JA Ibers Journal of the American Chemical Society 114 (23), 8963-8971, 1992 | 205 | 1992 |
Perspective: Web-based machine learning models for real-time screening of thermoelectric materials properties MW Gaultois, AO Oliynyk, A Mar, TD Sparks, GJ Mulholland, B Meredig Apl Materials 4 (5), 2016 | 185 | 2016 |
Trigonal Planar [HgSe3]4– Unit: A New Kind of Basic Functional Group in IR Nonlinear Optical Materials with Large Susceptibility and Physicochemical Stability C Li, W Yin, P Gong, X Li, M Zhou, A Mar, Z Lin, J Yao, Y Wu, C Chen Journal of the American Chemical Society 138 (19), 6135-6138, 2016 | 163 | 2016 |
Discovery of intermetallic compounds from traditional to machine-learning approaches AO Oliynyk, A Mar Accounts of chemical research 51 (1), 59-68, 2018 | 119 | 2018 |
BaHgGeSe4 and SrHgGeSe4: Two New Hg-Based Infrared Nonlinear Optical Materials Y Guo, F Liang, W Yin, Z Li, X Luo, ZS Lin, J Yao, A Mar, Y Wu Chemistry of Materials 31 (8), 3034-3040, 2019 | 104 | 2019 |
Disentangling Structural Confusion through Machine Learning: Structure Prediction and Polymorphism of Equiatomic Ternary Phases ABC AO Oliynyk, LA Adutwum, BW Rudyk, H Pisavadia, S Lotfi, V Hlukhyy, ... Journal of the American Chemical Society 139 (49), 17870-17881, 2017 | 100 | 2017 |
Crystal structures of La3ZrSb5, La3HfSb5, and LaCrSb3· Structural relationships in ternary rare-earth antimonides MJ Ferguson, RW Hushagen, A Mar Journal of alloys and compounds 249 (1-2), 191-198, 1997 | 96 | 1997 |
Classifying crystal structures of binary compounds AB through cluster resolution feature selection and support vector machine analysis AO Oliynyk, LA Adutwum, JJ Harynuk, A Mar Chemistry of Materials 28 (18), 6672-6681, 2016 | 92 | 2016 |
Low-Dimensional Organically Templated Uranium Fluorides (C5H14N2) 2U2F12⊙ 2H2O and (C2H10N2) U2F10: Hydrothermal Syntheses, Structures, and Magnetic Properties PM Almond, L Deakin, MJ Porter, A Mar, TE Albrecht-Schmitt Chemistry of materials 12 (10), 3208-3213, 2000 | 79 | 2000 |
Chains, planes, and antimonides AM Mills, R Lam, MJ Ferguson, L Deakin, A Mar Coordination Chemistry Reviews 233, 207-222, 2002 | 78 | 2002 |
The role of Ni-Mn hybridization on the martensitic phase transitions in Mn-rich Heusler alloys M Khan, J Jung, SS Stoyko, A Mar, A Quetz, T Samanta, I Dubenko, N Ali, ... Applied Physics Letters 100 (17), 2012 | 76 | 2012 |
Thermoelectric properties of p-type CuInSe 2 chalcopyrites enhanced by introduction of manganese J Yao, NJ Takas, ML Schliefert, DS Paprocki, PER Blanchard, H Gou, ... Physical Review B 84 (7), 075203, 2011 | 75 | 2011 |
Effects of metal substitution in transition-metal phosphides (Ni 1− x M′ x) 2 P (M′= Cr, Fe, Co) studied by X-ray photoelectron and absorption spectroscopy PER Blanchard, AP Grosvenor, RG Cavell, A Mar Journal of Materials Chemistry 19 (33), 6015-6022, 2009 | 71 | 2009 |
LaCrSb3: A New Itinerant Electron Ferromagnet with a Layered Structure NP Raju, JE Greedan, MJ Ferguson, A Mar Chemistry of materials 10 (11), 3630-3635, 1998 | 65 | 1998 |
New ternary rare-earth transition-metal antimonides RE3MSb5 (RE= La, Ce, Pr, Nd, Sm; M= Ti, Zr, Hf, Nb) G Bollore, MJ Ferguson, RW Hushagen, A Mar Chemistry of materials 7 (12), 2229-2231, 1995 | 60 | 1995 |
Structures and Physical Properties of Rare-Earth Chromium Germanides RECrGe3 (RE = La−Nd, Sm) H Bie, OY Zelinska, AV Tkachuk, A Mar Chemistry of Materials 19 (18), 4613-4620, 2007 | 59 | 2007 |