Solubility of CO2 in water from −1.5 to 100 °C and from 0.1 to 100 MPa: evaluation of literature data and thermodynamic modelling LW Diamond, NN Akinfiev Fluid phase equilibria 208 (1-2), 265-290, 2003 | 645 | 2003 |
Fluid chemistry of orogenic lode deposits and implications for genetic models JR Ridley, LW Diamond Rev. Econ. Geol. 13, 141-162, 2000 | 621* | 2000 |
Review of the systematics of CO2–H2O fluid inclusions LW Diamond Lithos 55 (1-4), 69-99, 2001 | 306 | 2001 |
Stability of CO2 clathrate hydrate + CO2 liquid + CO2 vapour + aqueous KCl-NaCl solutions: Experimental determination and application to salinity estimates of fluid inclusions∗ LW Diamond Geochimica et Cosmochimica Acta 56 (1), 273-280, 1992 | 289 | 1992 |
Fluid inclusion evidence for PVTX evolution of hydrothermal solutions in late-Alpine gold-quartz veins at Brusson, Val d'Ayas, Northwest Italian Alps LW Diamond American Journal of Science 290 (8), 912-958, 1990 | 206 | 1990 |
Post-metamorphic gold-quartz veins from NW Italy: the composition and origin of the ore fluid BWD Yardley, DA Banks, SH Bottrell, LW Diamond Mineralogical Magazine 57, 407-422, 1993 | 179 | 1993 |
Thermodynamic description of aqueous nonelectrolytes at infinite dilution over a wide range of state parameters NN Akinfiev, LW Diamond Geochimica et Cosmochimica Acta 67 (4), 613-629, 2003 | 154 | 2003 |
Introduction to gas-bearing, aqueous fluid inclusions LW Diamond Fluid inclusions: analysis and interpretation, 101-158, 2003 | 151 | 2003 |
Salinity of multivolatile fluid inclusions determined from clathrate hydrate stability LW Diamond Geochimica et Cosmochimica Acta 58 (1), 19-41, 1994 | 131 | 1994 |
Estimation of volume fractions of liquid and vapor phases in fluid inclusions, and definition of inclusion shapes RJ Bakker, LW Diamond American Mineralogist 91 (4), 635-657, 2006 | 126 | 2006 |
Synthesis and characterization of the LDH hydrotalcite–pyroaurite solid-solution series K Rozov, U Berner, C Taviot-Gueho, F Leroux, G Renaudin, D Kulik, ... Cement and Concrete Research 40 (8), 1248-1254, 2010 | 125 | 2010 |
Rb-Sr dating of sphalerite based on fluid inclusion-host mineral isochrons: a clarification of why it works T Pettke, LW Diamond | 123 | 1996 |
Thermodynamic model of aqueous CO2–H2O–NaCl solutions from −22 to 100 °C and from 0.1 to 100 MPa NN Akinfiev, LW Diamond Fluid Phase Equilibria 295 (1), 104-124, 2010 | 120 | 2010 |
A simple predictive model of quartz solubility in water–salt–CO2 systems at temperatures up to 1000 C and pressures up to 1000 MPa NN Akinfiev, LW Diamond Geochimica et Cosmochimica Acta 73 (6), 1597-1608, 2009 | 119 | 2009 |
Self-diffusion of water and its dependence on temperature and ionic strength in highly compacted montmorillonite, illite and kaolinite FG Sánchez, LR Van Loon, T Gimmi, A Jakob, MA Glaus, LW Diamond Applied Geochemistry 23 (12), 3840-3851, 2008 | 116 | 2008 |
Systematics of H2O inclusions LW Diamond Fluid inclusions: analysis and interpretation, 55-79, 2003 | 115 | 2003 |
Common problems and pitfalls in fluid inclusion study: A review and discussion G Chi, LW Diamond, H Lu, J Lai, H Chu Minerals 11 (1), 7, 2020 | 110 | 2020 |
Modification of fluid inclusions in quartz by deviatoric stress I: experimentally induced changes in inclusion shapes and microstructures A Tarantola, LW Diamond, H Stünitz Contributions to Mineralogy and Petrology 160, 825-843, 2010 | 109 | 2010 |
Determination of the composition and molar volume of H2O-CO2 fluid inclusions by microthermometry RJ Bakker, LW Diamond Geochimica et Cosmochimica Acta 64 (10), 1753-1764, 2000 | 102 | 2000 |
Mesothermal gold veins and metamorphic devolatilization in the northwestern Alps: The temporal link T Pettke, LW Diamond, IM Villa Geology 27 (7), 641-644, 1999 | 89 | 1999 |