nkysdb: 共著者関連データベース
COLE David R. 様の 共著関連データベース
+(A list of literatures under single or joint authorship with "COLE David R.")
共著回数と共著者名 (a list of the joint author(s))
11: COLE David R.
5: HORITA Juske
2: OHMOTO H., WESOLOWSKI David J.
1: AJO-FRANKLIN Jonathan B., BECKINGHAM Lauren E., CHACKO Tom, CHU Xuelei, DEPAOLO Donald J., DRIESNER Thomas, JACOBS Gary K., LASAGA Antonio C., LOVLEY Derek R., MITNICK Elizabeth H., MITO Saeko, PHELPS Tommy J., POLYAKOV Veniamin B., RICIPUTI Lee R., SHEETS Julia M., STEEFEL Carl I., SWIFT Alexander M., VOLTOLINI Marco, XUE Ziqiu, YANG Li, ZHANG Chuanlun L., ZHANG Shuo, ZHOU Jizhong
発行年とタイトル (Title and year of the issue(s))
1983: Isotopic exchange in mineral fluid systems 1. Theoretical evaluation of oxygen isotopic exchange accompanying surface reactions and diffusion
1986: Kinetics of Isotopic Exchange at Elevated Temperatures and Pressures
1986: Kinetics of Isotopic Exchange at Elevated Temperatures and Pressures
1992: Isotopic exchange in mineral fluid systems: 3. Rates and mechanisms of oxygen isotope exchange in the system granite H2O+ NaCl+ KCl at hydrothermal conditions
1993: The activity composition relationship of oxygen and hydrogen isotopes in aqueous salt solutions: 1. Vapor liquid water equilibration of single salt solutions from 50 to 100 degrees
1993: The activity composition relationship of oxygen and hydrogen isotopes in aqueous salt solutions: 2. Vapor liquid water equilibration of mixed salt solutions from 50 to 100 degrees and geochemical implications
1998: Stable isotope exchange equilibria and kinetics in mineral fluid systems
2000: Experimental and Theoretical Study of Pressure Effect on Isotopic Fractionation between Hydrous Minerals and Water
2001: Temperature dependent oxygen and carbon isotope fractionations of biogenic siderite
2004: Kinetics of sulfur isotope exchange between apueous sulfide and thiosulfate involving intra and intermolecular reactions at hydrothermal conditions
2016: Evaluation of mineral reactive surface area estimates for prediction of reactivity of a multi mineral sediment