1.

Activation of Stainless Steel for CO Hydrogenation. M. A. Matthews and R. G. Anthony, Chem. Eng. Comm., 52, 53‑60, 1987.

2.

Hard Sphere Theory for Correlation of Tracer Diffusion of Gases and Liquids in n‑Alkanes, M. A. Matthews and A. Akgerman, J. Chem. Phys., 87, 2285‑2291, 1987.

3.

High Temperature Diffusion of Hydrogen, Carbon Monoxide, and Carbon Dioxide in n-Heptane, n-Dodecane, and n-Hexadecane, M. A. Matthews, J. B. Rodden and A. Akgerman, J. Chem. Eng. Data, 32, 319‑322, 1987.

4.

High Temperature Diffusion, Viscosity, and Density Measurements in n‑Hexadecane, M. A. Matthews, J. B. Rodden, and A. Akgerman, J. Chem. Eng. Data, 32, 317‑319, 1987.

5.

Diffusion Coefficients for Binary Alkane Mixtures at Temperatures to 573 K and Pressures to 3.5 Mpa, M. A. Matthews and A. Akgerman, AIChE J., 33, 881‑885, 1987.

6.

A New Method for Measuring Fluid Densities Using the Taylor Dispersion Experiment. M. A. Matthews and A. Akgerman, Int. J. Thermophys., 8, 363‑373, 1987.

7.

Diffusion Coefficients for Methanol and Isopropanol in Water, M. A. Matthews and A. Akgerman, J. Chem. Eng. Data, 33, 122‑123, 1988.

8.

Application of Rough Hard Sphere Theory to Diffusion in n‑Alkanes, C. Erkey, J. B. Rodden, M. A. Matthews and A. Akgerman, Int. J. Thermophys., 10, 953‑962, 1989.

9.

A Comparison of Three Models for the Diffusion of Oxygen in Electrolyte Solutions, M. T. Holtzapple, P. T. Eubank and M. A. Matthews, Biotech. and Bioeng., 34, 964‑970, 1989.

10.

Diffusion in Supercritical Mixtures: CO + Cosolvent + Solute, S. A. Smith, V. Shenai and M. A. Matthews, J.  Supercritical Fluids, 3(4), 175‑179, 1991.

11.

Continuous‑Mixture VLE Computations Based on True Boiling Point Distillations, H. W. Haynes, Jr. and M. A. Matthews, Ind. Eng. Chem. Res., 30(8), 1911‑1915, 1991.

12.

Measurement and Modeling of Phase Equilibria with Synthetic Multicomponent Mixtures, C. P. Angelos, S. Bhagwat and M. A. Matthews, Fluid Phase Equilibria, 72, 189‑209, 1992.

13.

Isolation and Identification of Volatiles in Raw Beef with Supercritical Carbon Dioxide Extraction, M. ‑F. King, B. L. Hamilton, M. A. Matthews, D. C. Rule and R. A. Field, J. Ag. Food Chem., 41, 1974-1981, 1993.

14.

A Unit on Acid Rain in a High School Outreach Program, M. A. Matthews and J. Marsh. Chemical Engineering Education, 27(3), 210‑215, 1993.

15.

An Equation-Of-State Based Reservoir Model Incorporating Continuous-Mixture Thermodynamics, D. S. Chakravarty and M. A. Matthews, Ind. Eng. Chem. Res., 33(8), 1962-1970, 1994.

16.

Vapor-Liquid Equilibrium Measurements with Semi-continuous Mixtures, M. A. Matthews, F. Li, B. F. Towler and D. A. Bell, Fluid Phase Equilibria, 111, 101-111, 1995.

17.

Effect of Beef Packaging Method on Volatile Compounds Developed by Roasting or Microwave Cooking, M. ‑F. King, M. A. Matthews, D. C. Rule and R. A. Field, J. Ag. Food Chem., 43, 773-778, 1995.

18.

Tracer Diffusion in Systems Exhibiting Enhanced Local Composition. S. A. Winters, C. Denault, L. T. Nguyen and M. A. Matthews. Fluid Phase Equilibria, 117, 373-377, 1996.

19.

Influence of Adsorption on the Measurement of Diffusion Coefficient by Taylor Dispersion, B. L. Hamilton, G. Madras, and M. A. Matthews. Int. J. Thermophysics, 17(2), 373-389, 1996.

20.

Stabilization of Lithium Borohydride with Nitrogen Donor Chelate Ligands, D. L. Reger, J. E. Collins, M. A. Matthews, A. L. Rheingold, L. M. Liable-Sands and L. A. Guzei, Inorganic Chemistry,  36, 6266, 1997.

21.

Recycling Steel from Grinding Swarf, H. Fu, M. A. Matthews and L. S. Warner, Waste Management, 18, 321-329, 1998.

22.

The Thermal Characterization of Novel Complex Hydrides, J. E. Stearns, M. A. Matthews, D. L. Reger and J. E. Collins,  Int. J. Hydrogen Energy, 23(6), 469-474, 1998.

23.

Comparison Between Supercritical Carbon Dioxide Extraction and Aqueous Surfactant Washing of an Oily Machining Waste, H. Fu and M. A. Matthews, J. Hazardous Material,  B67, 197-213, 1999.

24.

Thermodynamic Considerations of the Reversible Potential for the Nickel Electrode.  M. Jain, A. L. Elmore, M.A. Matthews and J. W. Weidner, Electrochemica Acta, 43 (18), 2649-2660, 1998.

25.

Production of Hydrogen Gas from Novel Chemical Hydrides, R. Aiello, M. A. Matthews,  D. L. Reger and J. E. Collins, Int. J. Hydrogen Energy,  23(12), 1103-1108, 1998.

26.

Separation Processes for Recovering Alloy Steels from Grinding Sludge: Supercritical carbon dioxide extraction and aqueous cleaning, H. Fu and M.A. Matthews, Separation Science and Technology, 34 (6&7), 1411-1427, 1999.

27.

Production of Hydrogen from Chemical Hydrides via Hydrolysis with Steam, R. Aiello, J. H. Sharp,  and M. A. Matthews, Int. J. Hydrogen Energy, 24(12), 1123-1130, 1999.

28.

Diffusion Coefficients of Model Contaminants in Dense CO₂, H. Fu and M. A. Matthews, J. Supercritical Fluids, 18(2), 141-155, 2000.

29.

Near-Critical Behavior of Mutual Diffusion Coefficients for Five Solutes in Supercritical Carbon Dioxide, X. Yang, L. A. F. Coelho, and M. A. Matthews, I&EC Research, 39(8), 3059-3068, 2000.

30.

Diffusion of Organic Solutes in Aqueous Surfactant Solutions, X. Yang and M.A. Matthews, J. Colloid Interface Sci, 229, 53-61, 2000.

31.

Effect of Pressure on the Static Forces of Particulate Removal, J. Becnel and M. A. Matthews, I&EC Research, 39(12), 4481-4486, 2000.

32.

Diffusion of Chelating Agents in CO₂ and a Predictive Approach for Diffusion Coefficients, X. Yang and Michael A. Matthews, J. Chem. Eng. Data.  46, 588-595 (2001).

33.

Prevention of Photoresist Pattern Collapse by Using Liquid Carbon Dioxide, Y. Jincao and M. A. Matthews, Industrial and Engineering Chemistry Research, 40(4), 5858-5860, 2001.

34.

Role of Attractive Forces in Self-Diffusion and Mutual Diffusion in Dense Simple Fluids and Real Substances, J. V. de Oliveira, F. W. Tavares, X. N. Yang, Luiz A. F. Coelho and M. A. Matthews.  Fluid Phase Equilibria , 194-197, pp. 1131-1140  2002.

35.

Electrochemical Generation of Superoxide in  Ionic Liquids, I. M. AlNashef,  M. L. Leonard, M. C. Kittle, M. A. Matthews and J. W. Weidner. Electrochemical and Solid State Letters, 4(11), D16-D18, 2001.

36.

Green Electrochemistry: Opportunities and Challenges, M. A. Matthews, Pure Appl. Chem., 73(8),  1305-1308 (2001).

37.

Superoxide Electrochemistry in an Ionic Liquid,   I. M. AlNashef, M. L. Leonard, M. A. Matthews and J. W. Weidner, I&EC Research, 41 (18), 4475-4478 (2002).

38.

Supercritical Fluid Extraction of 1,2,4-Trichlorobenzene from Job Control Waste, Jun Li, Thomas Davis and Michael A. Matthews. Sep. Science Tech., 38(12-13), 2979-2993 (2003).

39.

Supercritical Fluid Process for Removal of Polychlorinated Biphenyl from DOE Job Control Waste, Jun Li, Thomas A. Davis and Michael A. Matthews, Environmental Progress, 22(1), 7-13, (2003).

40.

Equilibrium and Kinetics Properties of p-Dichlorobenzene and Toluene on Silica Gel in Dense CO₂ by Chromatography Analysis, Xiaoning Yang and Michael A. Matthews, Chemical Engineering Journal, 93, 163-172 (2003).

41.

Diffusion Coefficients of Methyl Orange in Dense Carbon Dioxide with the Micelle-forming Surfactant Dehypon Ls-54, James M. Becnel and Michael A. Matthews. J. Chem. Eng. Data, 48(6), 1413-1417 (2003).

42.

Integrating Undergraduate Research into Engineering Education: A Communications Approach to Holistic Education. Thompson, N.S., Alford, E.M., Johnson, R., Liao, Cl, and Matthews, M.A. Journal of Engineering Education, 94(3). (2005)

43.

Characterizing Discourse Among Undergraduate Researchers in an Inquiry-Based Community of Practice. Donath, L., Spray, R., Thompson, N.S., Alford, E.M., Craig, N., and Matthews, M.A. Journal of Engineering Education, 94(4), 403-417. (2005)

44.

Identification of marker proteins for B. anthracis using MALDI-TOF MS and ion trap MS-MS after direct extraction of electrophoretic separation. Stump, M.J., Black, G., Fox, A., Fox, K.F., Turick, C.E., and Matthews, M.A. J. Separation Science, 29(14), 1642-1647. (2005)

45.

Sterilizing Bacillus pumilus spores using supercritical carbon dioxide. Zhang, J., Burrows, S., Matthews, M.A., Drews, M.J., LaBerge, M., and An, Y.H. Journal of Microbiological Metheds, accepted. (2005)

46.

Effects of sterlization on implant mechanical property and biocompatibility - A concise review. An, Y.H., Alvi, F.I., Kang, Q. Drews, M.J., LaBerge, M., Zhang, J., Matthews, M.A., and Arciola, C.R. Int. J. Artificial Organs. 28, 1126-1137. (2005)

47.

Sterilization using high-pressure carbon dioxide - A review. Zhang, J. Davis, T.A., Matthews, M.A., Drews, M.J., LaBerge, M. and An, Y.H. Journal of Supercritical Fluids, in press. (2006)

48.

Mechanisms of sterilization of B. atrophaeus spores using supercritical carbon dioxide. J. Zhang, M.A. Matthews, C. Gleason, L. Waller, A. Fox, K. Fox, M. Drews, M. Laberge, and Y. An. Journal of Supercritical Fluids, in press. (2006).

1.

Electrochemically Generated Superoxide Ion in Ionic Liquids: Applications to Green Chemistry. I. M. AlNashef, M. A. Matthews, and J. W. Weidner. In “Ionic Liquids as Green Solvents: Progress and Prospects.” R.D. Rogers and K. R. Seddon, Eds. ACS Symposium Series 856, 2003. American Chemical Society, Washington DC.

2.

Green Chemistry and Green Chemical Engineering Technology. Online article appearing in the Kirk-Othmer Online Encyclopedia of Chemical Technology. February 2003, Wiley Interscience.

3.

Superoxide Ion Electrochemistry in Ionic Liquids. M. L. Leonard, M. C. Kittle, I. M. AlNashef, M.A. Matthews, and J. W. Weidner. In “Ionic Liquids. Industrial Applications for Green Chemistry.” R. D. Rogers and K. R. Seddon, Eds. ACS Symposium Series 818, 2002. American Chemical Society, Washington DC.

4.

Diffusion in Liquid and Supercritical Fluid Mixtures. V. M. Shenai, B. L. Hamilton and M. A. Matthews. Chapter 8 in: “Supercritical Fluid Engineering Science. Fundamentals and Applications”, E. Kiran and J. F. Brenneke, editors. ACS Symposium Series 514, American Chemical Society, Washington, D.C., 1993.

5.

Continuous Phase Equilibrium Thermodynamics for Sequential Operations. M.A. Matthews, K. C. Mani, and H. W. Haynes, Jr. In: Proceedings, ACS Symposium on “Kinetic and Thermodynamic Lumping of Multicomponent Mixtures,” Atlanta, GA, April 15, 1991. Elsevier Press, Amsterdam, 1991.

1.

Supercritical Carbon Dioxide Technology for Sterilizing and Processing Biomedical Devices. Symposium in Honor of Professor Aydin Akgerman, Texas A&M University, November 7, 2003.

2.

An Innovative Approach for the Sterilization of Biomaterials. Clemson University, Bioengineering and Biomedical Sciences Institute Annual Symposium, August 8, 2003.