6. Bibliography:

1. Abu-Samra, A.; Morris, J. S.; Koirtyohann, S. R. "Wet Ashing of Some Biological Samples in a Microwave Oven" Anal. Chem. 1975, 47, 1475-1477.

2. Abu-Samra, A.; Morris, J. S.; Koirtyohann, S. R. "Wet Ashing of Some Biological Samples in a Microwave Oven" Trace Substances in Environmental Health 1975, 9, 297-301.

3. Abu-Samra, A.; Koirtyohann, S. R.; Morris, J. S. "U.S. PATENT 4,080,168" 1978.

4. Kingston, H. M.; Jassie, L. B. "Microwave Energy for Acid Decomposition at Elevated Temperatures and Pressures Using Biological and Botanical Samples" Anal. Chem. 1986, 58, 2534-2541.

5. Kingston, H. M.; Jassie, L. B.; Chapter 6: Monitoring and Predicting Parameters in Microwave Dissolution In Introduction to Microwave Sample Preparation: Theory and Practice; Jassie, L. B., Kingston, H. M., Eds.; ACS: Washington, D.C., 1988, pp 93-154.

6. Kingston, H. M.; Walter, P. J. "Comparison of Microwave versus Conventional Dissolution for Environmental Applications" Spectroscopy 1992, 7, 20-27.

7. Matthes, S. A.; Farrell, R. F.; Mackie, A. J. in "A Microwave System for the Acid Dissolution of Metal and Mineral Samples"; Technical Progress Report:120, Bureau of Mines, April, 1983

8. Kingston, H. M.; Cronin, D. J.; Epstein, M. S. "Investigation of a Precise Static Leach Test for the Testing of Simulated Nuclear Waste Materials" Nuclear and Chemical Waste Management 1984, 5, 3-15.

9. Research & Development, "R&D Magazine Presents The 1987 R&D 100 Award Winners" Vol. 29, No. 10, 1987, pages 55-94.

10. Lautenschläger, W. ; MLS Mikrowellen-Labor Systeme: US, 1995.

11. ASTM Method D4309-91: Standard practice for sample digestion using closed vessel microwave heating technique for the determination of total recoverable metals in water ; The American Society for Testing and Meterials: Philadelphia, 1991.

12. SW-846 EPA Method 3051: Microwave assisted acid digestion of sediments, sludges, soils, and oils In Test Methods for Evaluating Solid Waste, 3rd edition, 3rd update; U.S. Environmental Protection Agency: Washington, DC, 1995.

13. SW-846 EPA Method 3015: Microwave assisted acid digestion of aqueous sample and extracts In Test Methods for Evaluating Solid Waste, 3rd edition, 3rd update; U.S. EPA: Washington, DC, 1995.

14. Walter, P. J., Special Publication IR4718: Microwave calibration program, 2.0 ed.; National Institutes of Standards and Technology: Gaithersburg, MD, vol. , p. , 1991.

15. Settle, F. A.; Walter, P. J.; Kingston, H. M.; Pleva, M. A.; Snider, T.; Boute, W. "An Expert-Database System for Sample Preparation by Microwave Dissolution. II. Electronic Transfer and Implementation of Standard Methods" J. Chem. Inf. Comput. Sci. 1992, 32, 349-353.

16. Kingston, H. M.; Walter, P. J.; Settle Jr., F. A.; Pleva, M. A.; Encapsulation and Transfer of Standard Methods Using Automated Equipment In Advances in Laboratory Automation Robotics, 1991; Vol. 8.

17. Kingston, H. M.; Jassie, L. B. "Microwave Acid Sample Decomposition for Elemental Analysis" J. Res. Natl. Bur. Stand. (U.S.) 1988, 93, 269-274.

18. Pagano, S. T.; Smith, B. W.; Winefordner, J. D. "Determination of mercury in microwave-digested soil by laser-excited atomic-fluorescence spectrometry with electrothermal atomization" Talanta 1994, 41, 2073-2078.

19. AOAC Official Method 977.11: Moisture in Cheese In Official Methods of Analysis of AOAC International; Cunniff, P., Ed.; AOAC International: Arlington, VA, 1995.

20. AOAC Official Method 985.14: Moisture in Meat and Poultry Products In Official Methods of Analysis of AOAC International; Cunniff, P., Ed.; AOAC International: Arlington, VA, 1995.

21. AOAC Official Method 985.15: Fat (Crude) in Meat and Poultry Products In Official Methods of Analysis of AOAC International; Cunniff, P., Ed.; AOAC International: Arlington, VA, 1995.

22. AOAC Official Method 985.26: Solids (Total) in Processed Tomato Products In Official Methods of Analysis of AOAC International; Cunniff, P., Ed.; AOAC International: Arlington, VA, 1995.

23. ASTM Method E1358-90: Standard test method for determination of moisture content of particulate wood fuels using a microwave oven ; The American Society for Testing and Meterials: Philadelphia, 1990.

24. ASTM Method D5258-92: Standard practice for acid extraction of elements from sediments using closed vessel microwave heating ; The American Society for Testing and Meterials: Philadelphia, 1992.

25. ASTM Method D4643-93: Standard test method for determination of water (moisture) content by soil by the microwav oven method ; The American Society for Testing and Meterials: Philadelphia, 1993.

26. SW-846 EPA Method 3031: Acid digestion of oils for metals, analysis by FLAA or ICP spectroscopy In Test Methods for Evaluating Solid Waste, 3rd edition, 3rd update; U.S. EPA: Washington, DC, 1995.

27. SW-846 EPA Method 3050B: Acid digestion of sediments, sludges, and soils In Test Methods for Evaluating Solid Waste, 3rd edition, 3rd update; U.S. EPA: Washington, DC, 1995.

28. SW-846 EPA Method 3052: Microwave assisted acid digestion of siliceous and organically based matricies In Test Methods for Evaluating Solid Waste, 3rd edition, 3rd update; U.S. EPA: Washington, DC, 1995.

29. Method 3030K: Microwave assisted digestion In Standard Methods for the Examination of Water and Wastewater; Greenberg, A. E., Clesceri, L. S., Eaton, A. d., Eds.; American Public Health Association: Washington, D.C., 1992.

30. Method V 03-100: Kjeldahl Nitrogen ; French Standard.

31. NIEA Method C303.01T: Acid digestion of fish and shellfish ; Republic of China.

32. Labrecque, J. M.; Chapter 10: Manual and Robotically Controlled Microwave Pressure Dissolution of Minerals In Introduction to Microwave Sample Preparation: Theory and Practice; Jassie, L. B., Kingston, H. M., Eds.; ACS: Washington, D.C., 1988, pp 203-230.

33. Walter, P. J.; Kingston, H. M.; Settle, F. A.; Pleva, M. A.; Buote, W.; Christo, J.; Automated Intelligent Control of Microwave Sample Preparation In Advances in Laboratory Automation Robotics; Strimaitis, J. R., Little, J. N., Eds.: Hopkinton, MA, 1990; Vol. 7, pp 405-416.

34. Settle, F. A. J.; Diamondstone, B. I.; Kingston, H. M.; Pleva, M. A. "An Expert-Database System for Sample Preparation by Microwave Dissolution. 1. Selection of Analytical Descriptors" J. Chem. Inf. Comput. Sci. 1989, 29, 11-17.

35. Norris, J. D.; Preston, B.; Ross, L. M. "Robotic Microwave Digestion System for Dissolution of Titanium Dioxide" Analyst 1992, 117, 3-7.

36. Salit, M. L.; Guenther, F. R.; Kramer, G. W.; Griesmeyer, J. M. "Integrating Automated Systems with Modular Architecture" Anal. Chem. 1994, 66, 361A-367A.

37. Kingston, H. M. "Consortium on Automated Analytical Laboratory Systems" Anal. Chem. 1989, 61, 1381A-1384A.

38. Walter, P. J. Ph.D. "The Development and Validation of Advanced Reaction Control Techniques for Microwave Sample Preparation", Duquesne University, 1996.

39. Petersen, J. V. in "Documentation for the Microwave-Assisted Dissolution Station"; Consortium on Automated Analytical Laboratory Sytems Report:National Institute of Standards and Technology, May 18, 1992

40. Cotton, F. A.; Wilkinson, G., Advanced Inorganic Chemistry, 5th ed.; John Wiley & Sons: New York, vol. , p. , 1988.

41. Bock, R., A Handbook of Decomposition Methods in Analytical Chemistry, Marr, I. L., 1st ed.; John Wiley and Sons: New York, vol. , p. , 1979.

42. Sulcek, Z.; Povondra, P., Methods of Decomposition in Inorganic Analysis, CRC Press: Boca Raton, vol. , p. , 1989.

43. Schilt, A. A., Perchloric Acid and Perchlorates, G. Frederick Smith Chemical Company: Columbus, OH, vol. , p. , 1979.

44. Sulcek, Z.; Povondra, P.; Dolezal, J. "Decomposition Procedures in Inorganic Analysis" CRC Critical Reviews in Analytical Chemistry 1977, 255-323.

45. Gorsuch, T. T., The Destruction of Organic Matter, 1st ed.; Pergamon Press: New York, vol. , p. , 1970.

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