Practical aspects of quantitative laser Raman microprobe spectroscopy for the study of fluid inclusions JD Pasteris, B Wopenka, JC Seitz Geochimica et Cosmochimica Acta 52 (5), 979-988, 1988 | 159 | 1988 |
Raman spectroscopic characterization of gas mixtures; II, Quantitative composition and pressure determination of the CO 2-CH 4 system JC Seitz, JD Pasteris, IM Chou American Journal of Science 296 (6), 577-600, 1996 | 147 | 1996 |
Raman spectroscopic characterization of gas mixtures; II, Quantitative composition and pressure determination of the CO 2-CH 4 system JC Seitz, JD Pasteris, IM Chou American Journal of Science 296 (6), 577-600, 1996 | 147 | 1996 |
Raman spectroscopic characterization of gas mixtures; I, Quantitative composition and pressure determination of CH 4, N 2 and their mixtures JC Seitz, JD Pasteris, IM Chou American Journal of Science 293 (4), 297-321, 1993 | 138 | 1993 |
Understanding motivational structures that differentially predict engagement and achievement in middle school science CS Lee, KN Hayes, J Seitz, R DiStefano, D O'Connor International Journal of Science Education 38 (2), 192-215, 2016 | 123 | 2016 |
High-density volatiles in the system COHN for the calibration of a laser Raman microprobe IM Chou, JD Pasteris, JC Seitz Geochimica et Cosmochimica Acta 54 (3), 535-543, 1990 | 101 | 1990 |
Characterization of CO2 CH4 H2O fluid inclusions by microthermometry and laser Raman microprobe spectroscopy: Inferences for clathrate and fluid equilibria JC Seitz, JD Pasteris, B Wopenka Geochimica et Cosmochimica Acta 51 (6), 1651-1664, 1987 | 95 | 1987 |
A coding tool for examining the substance of teacher professional learning and change with example cases from middle school science lesson study CL Bae, KN Hayes, J Seitz, D O'Connor, R DiStefano Teaching and teacher education 60, 164-178, 2016 | 78 | 2016 |
Measuring science instructional practice: A survey tool for the age of NGSS KN Hayes, CS Lee, R DiStefano, D O’Connor, JC Seitz Journal of Science Teacher Education 27, 137-164, 2016 | 73 | 2016 |
The CO2-H2O system. I. Experimental determination of volumetric properties at 400 C, 10–100 MPa JC Seitz, JG Blencoe Geochimica et Cosmochimica Acta 63 (10), 1559-1569, 1999 | 63 | 1999 |
CO2+ xCH4},{(1− x) CO2+ xN2}, and {(1− x) CH4+ xN2} at the pressures (9.94, 19.94, 29.94, 39.94, 59.93, 79.93, and 99.93) MPa and temperatures (323.15, 373.15, 473.15, and 573 … JC Seitz, JG Blencoe, RJ Bodnar J. Chem. Thermodyn 28 (5), 521-538, 1996 | 47 | 1996 |
Theoretical and practical aspects of differential partitioning of gases by clathrate hydrates in fluid inclusions JC Seitz, JD Pasteris Geochimica et Cosmochimica Acta 54 (3), 631-639, 1990 | 43 | 1990 |
The diverse faces of teacher leadership: A typology and survey tool CL Bae, KN Hayes, DM O'Connor, JC Seitz, R Distefano Journal of School Leadership 26 (6), 905-937, 2016 | 35 | 2016 |
A vibrating-tube densimeter for fluids at high pressures and temperatures JG Blencoe, SE Drummond, JC Seitz, BE Nesbitt International journal of thermophysics 17, 179-190, 1996 | 34 | 1996 |
Volumetric properties for {(1–x) CO2+ xCH4},{(1− x) CO2+ xN2}, and {(1− x) CH4+ xN2} at the preessures (19.94, 29.94, 39.94, 59.93, 79.93, and 99.93) MPa and the temperature … JC Seitz, JG Blencoe The Journal of Chemical Thermodynamics 28 (11), 1207-1213, 1996 | 31 | 1996 |
Volumetric properties of CO2 CH4 N2 fluids at 200° C and 1000 bars: A comparison of equations of state and experimental data JC Seitz, JG Blencoe, DB Joyce, RJ Bodnar Geochimica et cosmochimica acta 58 (3), 1065-1071, 1994 | 29 | 1994 |
The CO2-H2O system. II. Calculated thermodynamic mixing properties for 400 C, 0–400 MPa JG Blencoe, JC Seitz, LM Anovitz Geochimica et Cosmochimica Acta 63 (16), 2393-2408, 1999 | 28 | 1999 |
Volumetric properties for {x1CO2+ x2CH4+ (1− x1− x2) N2} at the pressures (19.94, 39.94, 59.93, and 99.93) MPa and temperatures (323.15, 373.15, 473.15, and 573.15) K JC Seitz, JG Blencoe, RJ Bodnar The Journal of Chemical Thermodynamics 28 (5), 539-550, 1996 | 24 | 1996 |
Volumetric properties for {(1− x) CO2+ xCH4},{(1− x) CO2+ xN2}, and {(1− x) CH4+ xN2} at the pressures (9.94, 19.94, 29.94, 39.94, 59.93, 79.93, and 99.93) MPa and temperatures … JC Seitz, JG Blencoe, RJ Bodnar The Journal of Chemical Thermodynamics 28 (5), 521-538, 1996 | 21 | 1996 |
CO2+ xCH4},{(1–x) CO2+ xN2}, and {(1–x) CH4+ xN2} at the pressures (19, 94, 29, 94, 39, 94, 59, 93, 79, 93, and 99, 93) MPa and the temperature 673, 15 K JC Seitz, JG Blencoe J. Chem. Thermodynamics 28, 1207-1213, 1996 | 21 | 1996 |