PUBLICATIONS

2000

  • Benito A. Stradi, Gang Xu, Joan F. Brennecke and Mark A. Stadtherr, “Modeling and Design of an Environmentally Benign Reaction Process,” AIChE Symposium Series, 96(323), 2000, p. 371-375.
  • Stephan R. Tessier, Joan F. Brennecke and Mark A. Stadtherr, “Reliable Phase Stability Analysis for Excess Gibbs Energy Models,” Chemical Engineering Science, 55(10), 2000, p. 1785-1796.
  • Benito A. Stradi, Mark A. Stadtherr and Joan F. Brennecke, “Multicomponent Phase Equilibrium Measurements and Modeling for the Allylic Epoxidation of trans-2-hexen-1-ol to (2R,3R)-(+)-3-propyloxiranemethanol in High-Pressure Carbon Dioxide,” J. Supercrit. Fluids, 20(1), 2001, p. 1-13.
  • Chao-Yang Gau, Joan F. Brennecke and Mark A. Stadtherr, “Reliable Nonlinear Parameter Estimation in VLE Modeling,” Fluid Phase Equilibria, 168, 2000, p. 1-18
  • Robert W. Maier, Joan F. Brennecke and Mark A. Stadtherr, “Reliable Computation of Reactive Azeotropes,” Computers and Chemical Engineering, 24, 2000, p. 1851-1858.
  • Gang Xu, Aaron M. Scurto, Marcelo Castier, Joan F. Brennecke and Mark A. Stadtherr, “Reliable Computation of High Pressure Solid-Fluid Equilibrium,” Ind. Eng. Chem. Res., 39 (6), 2000, p. 1624-1636.
  • Joan F. Brennecke and Mark A. Stadtherr, “A Course in Environmentally Conscious Chemical Process Design,” Computers and Chemical Engineering, 24, 2000, p. 1375-1380
  • Daniel P. Roek, John E. Chateauneuf and Joan F. Brennecke, “A Fluorescence Lifetime and Integral Equation Study of the Quenching of Naphthalene Fluorescence by Bromoethane in Super- and Subcritical Ethane,” Ind. Eng. Chem. Res., 39(8), 2000, p. 3090-3096

1999

  • James Z. Hua, Robert W. Maier, Steven R. Tessier, Joan F. Brennecke and Mark A. Stadtherr, “Interval Analysis for Thermodynamic Calculations in Process Design: A Novel and Completely Reliable Approach,” Fluid Phase Equilibria, 158-160, 1999, p. 607-615.
  • Daniel P. Roek, Mary J. Kremer, John E. Chateauneuf and Joan F. Brennecke, “Spectroscopic Studies of Solvent Effects on Reactions in Supercritical Fluids,” Fluid Phase Equilibria, 158-160, 1999, p. 713-722
  • (Invited Review Article) Joan F. Brennecke and John E. Chateauneuf, “Homogeneous Organic Reactions as Mechanistic Probes in Supercritical Fluids,” Chemical Reviews, 99 (2), 1999, p. 433-452.
  • Lynnette A. Blanchard, Dan Hancu, Eric J. Beckman and Joan F. Brennecke, “Green Processing Using Ionic Liquids and CO 2,” Nature, 399, 1999, p. 28-29.
  • Mary J. Kremer, Karen A. Connery, Matthew M. DiPippo, Junbo Feng, John E. Chateauneuf and Joan F. Brennecke, “Laser Flash Photolysis Investigation of the Triplet-Triplet Annihilation of Anthracene in Supercritical Water,” J. Phys. Chem. A, 103(33), 1999, p. 6591-6598.
  • R. W. Maier, J. F. Brennecke and M. A. Stadtherr, “Computing Homogeneous Azeotropes Using Interval Analysis,” Chemical and Engineering Technology, 22, 1999, p. 1063-1067.

1998

  • Benito A. Stradi, James P. Kohn, Mark A. Stadtherr and Joan F. Brennecke, “Phase Behavior of the Reactants, Products and Catalysts Involved in the Allylic Epoxidation of trans-2-Hexen-1-ol to (2R,3R)-(+)-3-Propyloxiramethanol in High Pressure Carbon Dioxide,” J. Supercritical Fluids, 12, 1998, p. 109-122.
  • James Z. Hua, Joan F. Brennecke and Mark A. Stadtherr, “Reliable Computation of Phase Stability Using Interval Analysis: Cubic Equation of State Models,” Computers and Chemical Engineering, 22, 1998, p. 1207-1214.
  • James Z. Hua, Joan F. Brennecke and Mark A. Stadtherr, “Enhanced Interval Analysis for Phase Stability: Cubic Equation of State Models,” Ind. Eng. Chem. Res., 37, 1998, p. 1519-1527
  • Robert W. Maier, Joan F. Brennecke and Mark A. Stadtherr, “Reliable Computation of Homogeneous Azeotropes,” AIChE J., 44, 1998, p. 1745-1755.

1997

  • Jianwei Zhang, Daniel P. Roek, John E. Chateauneuf and Joan F. Brennecke, “A Steady-State and Time-Resolved Fluorescence Study of Quenching Reactions of Anthracene and 1,2 Benzanthracene by Carbon Tetrabromide and Bromoethane in Supercritical Carbon Dioxide,” J. Am. Chem. Soc., 119 (42), 1997, p. 9980-999

1996

  • Zhengmao Hua, Joan F. Brennecke and Mark A. Stadtherr, “Reliable Prediction of Phase Stability Using an Interval-Newton Method,” Fluid Phase Equilibria, 116, 1996, p. 52-59.
  • Jianwei Zhang, Karen A. Connery, Joan F. Brennecke and John E. Chateauneuf, “Pulse Radiolysis Investigations of Solvation Effects on Arylmethyl Cation Reactivity in Supercritical Fluids,” J. Phys. Chem., 100(30), 1996, p. 12394-12402.
  • James Z. Hua, Joan F. Brennecke and Mark A. Stadtherr, “Reliable Phase Stability Analysis for Cubic Equation of State Models,” Computers and Chemical Engineering, 20, 1996, p. S395-S400

1995

  • Christopher B. Roberts, John E. Chateauneuf and Joan F. Brennecke, “Solvation Effects on the Hydrogen Abstraction Reaction of Triplet-Benzophenone in Supercritical Fluids,” AIChE J., 41, 1995, p. 1306-1318.
  • Mark A. Stadtherr, Carol A. Schnepper and Joan F. Brennecke, “Robust Phase Stability Analysis Using Interval Methods,” in Proc. Fourth International Conference on Foundations of Computer Aided Process Design (FOCAPD '94), L. T. Biegler and M. F. Doherty, eds., AIChE Symp. Ser. 91 (304), 1995, p. 356-359.
  • Jianwei Zhang, Karen Connery, John E. Chateauneuf and Joan F. Brennecke, “Pulse Radiolysis to Study Intermolecular Interactions and Reactivity in Supercritical Fluids,” in Innovations in Supercritical Fluids, ACS Symposium Series 608, Keith Hutchenson and Neil Foster, Eds., 1995, p. 156-165.
  • Gina R. Shaub, Joan F. Brennecke and Mark J. McCready, “Radial Model for Particle Formation from the Rapid Expansion of Supercritical Solutions,” J. Supercritical Fluids, 8, 1995, p. 318-328.
  • Karen Connery, Jianwei Zhang, Richard B. Strebinger, John E. Chateauneuf and Joan F. Brennecke, “Optical Pulse Radiolysis Cell and Apparatus Designed to Study Reactions in Supercritical Fluids,” Rev. Sci. Instrum., 66(6), 1995, p. 3555-3559
  • Jianwei Zhang, Lloyd L. Lee and Joan F. Brennecke, “Fluorescence Spectroscopy and Integral Equation Studies of Preferential Solvation in Supercritical Fluid Mixtures,” J. Phys. Chem., 99, 1995, p. 9268-9277.
  • Christopher B. Roberts, Jianwei Zhang, John E. Chateauneuf and Joan F. Brennecke, “Laser Flash Photolysis and Integral Equation Theory to Investigate Reactions of Dilute Solutes with Oxygen in Supercritical Fluids,” J. Am. Chem. Soc., 117, 1995, p. 6553-6560.

1994

  • David E. Tarantino, James P. Kohn and Joan F. Brennecke, “Phase Equilibria Behavior of the Carbon Dioxide-Benzophenone Binary System,” J. Chem. Eng. Data, 39, 1994, p. 158-160.
  • J. Bryan Ellington, Kayleen M. Park and Joan F. Brennecke, “Local Composition Enhancement of the Esterification of Phthalic Anhydride in Supercritical Carbon Dioxide,” Ind. Eng. Chem. Res., 33, 1994, p. 965-974.
  • Olivier R. Carre, Daniel J. Phillips and Joan F. Brennecke, “Spectrofluorometric Measurements of Local Compositions and Comparison to Thermodynamic Models,” Ind. Eng. Chem. Res., 33, 1994, p. 1355-1362.

1993

  • Joan F. Brennecke, “Spectroscopic Investigations of Reactions in Supercritical Fluids: A Review,” in Supercritical Fluid Engineering Science, ACS Symposium Series 514, E. Kiran and J. F. Brennecke, eds., 1993, p. 201-219.
  • Thomas K. McBride and Joan F. Brennecke, “Physicochemical Model of Solid-Liquid Solubilities Using NMR Measured Equilibrium Constants,” Fluid Phase Equilbria, 85, 1993, p. 191-215.
  • Daniel J. Phillips and Joan F. Brennecke, “Spectroscopic Measurement of Local Compositions in Binary Liquid Solvents and Comparison to the NRTL Equation,” Ind. Eng. Chem. Res., 32, 1993, p. 943-951.
  • Christopher B. Roberts, Joan F. Brennecke and John E. Chateauneuf, “Spectral Shifts in the Triplet-Triplet Absorption Spectrum of Anthracene in Supercritical Fluids,” J. Chem. Soc., Chem. Comm., 10, 1993, p. 868-869.
  • J. Bryan Ellington and Joan F. Brennecke, “Pressure Effect on the Esterification of Phthalic Anhydride in Supercritical CO 2,” J. Chem. Soc., Chem. Comm., 13, 1993, p. 1094-1095
  • Christopher B. Roberts, Jianwei Zhang, John E. Chateauneuf and Joan F. Brennecke, “Diffusion-Controlled Reactions in Supercritical CHF 3 and CO 2/Acetonitrile Mixtures,” J. Am. Chem. Soc., 115, 1993, p. 9576-9582.

1992

  • John E. Chateauneuf, Christopher B. Roberts and Joan F. Brennecke, “Laser Flash Photolysis Studies of Benzophenone in Supercritical CO 2,” in Supercritical Fluid Technology, ACS Symposium Series 488, F.V. Bright and M. E. P. McNally, eds., 1992, p. 106-120.
  • Christopher B. Roberts, John E. Chateauneuf and Joan F. Brennecke, “Unique Pressure Effects on the Absolute Kinetics of Triplet Benzophenone Photoreduction in Supercritical CO2,” J. Am. Chem. Soc., 114 (22), 1992, p. 8455-8463.

1990

  • Joan F. Brennecke, David L. Tomasko, Julie Peshkin and Charles A. Eckert, “Fluorescence Spectroscopy Studies of Dilute Supercritical Solutions,” Ind. Eng. Chem. Res., 29, 1990, p. 1682-1690.
  • Joan F. Brennecke, David L. Tomasko and Charles A. Eckert, “Naphthalene/Triethylamine Exciplex and Pyrene Excimer Formation in Supercritical Fluid Solutions,” J. Phys. Chem., 94 (19), 1990, p. 7692-7700.

1989

  • Joan F. Brennecke and Charles A. Eckert, “Phase Equilibria for Supercritical Fluid Process Design,” invited review article, AIChE J., 35(9), 1989, p. 1409-1427
  • Joan F. Brennecke and Charles A. Eckert, “Fluorescence Spectroscopy Studies of Intermolecular Interactions in Supercritical Fluids,” in Supercritical Fluid Science and Technology, ACS Symposium Series 406, K. P. Johnston and J. M. L. Penninger, eds., 1989, p. 14-26.