| MKED1: a new titanite standard for in situ analysis of Sm–Nd isotopes and U–Pb geochronology C Spandler, J Hammerli, P Sha, H Hilbert-Wolf, Y Hu, E Roberts, ... Chemical Geology 425, 110-126, 2016 | 164 | 2016 |
| In situ quantification of Br and Cl in minerals and fluid inclusions by LA-ICP-MS: A powerful tool to identify fluid sources J Hammerli, B Rusk, C Spandler, P Emsbo, NHS Oliver Chemical Geology 337, 75-87, 2013 | 88 | 2013 |
| Composition and evolution of fluids forming the Baiyinnuo’er Zn-Pb skarn deposit, northeastern China: Insights from laser ablation ICP-MS study of fluid inclusions Q Shu, Z Chang, J Hammerli, Y Lai, JM Huizenga Economic Geology 112 (6), 1441-1460, 2017 | 84 | 2017 |
| Neodymium isotope equilibration during crustal metamorphism revealed by in situ microanalysis of REE-rich accessory minerals J Hammerli, AIS Kemp, C Spandler Earth and Planetary Science Letters 392, 133-142, 2014 | 83 | 2014 |
| Generation of I-type granitic rocks by melting of heterogeneous lower crust J Hammerli, AIS Kemp, T Shimura, JD Vervoort, DJ Dunkley Geology 46 (10), 907-910, 2018 | 54 | 2018 |
| In situ trace element and Sm-Nd isotope analysis of accessory minerals in an Eoarchean tonalitic gneiss from Greenland: Implications for Hf and Nd isotope decoupling in Earth's … J Hammerli, AIS Kemp, MJ Whitehouse Chemical Geology 524, 394-405, 2019 | 52 | 2019 |
| Cl/Br of scapolite as a fluid tracer in the earth's crust: insights into fluid sources in the Mary Kathleen Fold Belt, Mt. Isa Inlier, Australia J Hammerli, C Spandler, NHS Oliver, B Rusk Journal of Metamorphic Geology 32 (1), 93-112, 2014 | 48 | 2014 |
| A primitive mantle source for the Neoarchean mafic rocks from the Tanzania Craton YA Cook, IV Sanislav, J Hammerli, TG Blenkinsop, P Dirks Geoscience Frontiers 7 (6), 911-926, 2016 | 41 | 2016 |
| Element redistribution and mobility during upper crustal metamorphism of metasedimentary rocks: an example from the eastern Mount Lofty Ranges, South Australia J Hammerli, C Spandler, NHS Oliver Contributions to Mineralogy and Petrology 171, 1-21, 2016 | 32 | 2016 |
| Zn and Pb mobility during metamorphism of sedimentary rocks and potential implications for some base metal deposits J Hammerli, C Spandler, NHS Oliver, P Sossi, GM Dipple Mineralium Deposita 50, 657-664, 2015 | 32 | 2015 |
| U-Pb and reconnaissance Lu-Hf isotope analysis of cassiterite and columbite group minerals from Archean Li-Cs-Ta type pegmatites of Western Australia LA Kendall-Langley, AIS Kemp, JL Grigson, J Hammerli Lithos 352, 105231, 2020 | 31 | 2020 |
| Sulfur isotope signatures in the lower crust: A SIMS study on S-rich scapolite of granulites J Hammerli, AIS Kemp, N Barrett, BA Wing, M Roberts, RJ Arculus, ... Chemical Geology 454, 54-66, 2017 | 26 | 2017 |
| Rare earth elements and Sm-Nd isotope redistribution in apatite and accessory minerals in retrogressed lower crust material (Bergen Arcs, Norway) E Janots, H Austrheim, C Spandler, J Hammerli, CA Trepmann, J Berndt, ... Chemical Geology 484, 120-135, 2018 | 20 | 2018 |
| The role of halogens during regional and contact metamorphism J Hammerli, M Rubenach The role of halogens in terrestrial and extraterrestrial geochemical …, 2018 | 20 | 2018 |
| An Archean Yellowstone? Evidence from extremely low δ18O in zircons preserved in granulites of the Yilgarn Craton, Western Australia J Hammerli, AIS Kemp, H Jeon Geology 46 (5), 411-414, 2018 | 18 | 2018 |
| Neodymium isotope disequilibria in subducted sediments, and potential consequences for subduction-zone recycling C Spandler, J Hammerli, C Pirard Geology 46 (9), 815-818, 2018 | 16 | 2018 |
| Combined Hf and Nd isotope microanalysis of co-existing zircon and REE-rich accessory minerals: High resolution insights into crustal processes J Hammerli, AIS Kemp Chemical Geology 581, 120393, 2021 | 15 | 2021 |
| Tracing sulfur sources in the crust via SIMS measurements of sulfur isotopes in apatite J Hammerli, ND Greber, L Martin, AS Bouvier, AIS Kemp, ML Fiorentini, ... Chemical geology 579, 120242, 2021 | 14 | 2021 |
| Tracking fluid sources for skarn formation using scapolite geochemistry: an example from the Jinshandian iron skarn deposit, Eastern China LP Zeng, XF Zhao, J Hammerli, TWT Fan, C Spandler Mineralium Deposita 55, 1029-1046, 2020 | 14 | 2020 |
| An experimental study of trace element distribution during partial melting of mantle heterogeneities C Spandler, J Hammerli, GM Yaxley Chemical Geology 462, 74-87, 2017 | 13 | 2017 |
Tony KempEarth Sciences, The University of Western AustraliaVerified email at uwa.edu.au
