20th-Century Chemical Instrumentation, -2002

Anderson, R. G. W. 1993. "Joseph Black and his chemical furnace." In Making Instruments Count, edited by R. G. W. Anderson and W. F. Ryan. Aldershot: Variorum, 118-26.

Andrew, Edward Raymond. 1984. "A historical review of NMR and its clinical applications." British Medical Bulletin, 40: 115-19.

Andrew, Edward Raymond, and Eugeniusz Szczesniak. 1995. "A historical account of NMR in the solid state." Progress in Nuclear Magnetic Resonance Spectroscopy, 28: 11-36.

Baird, Davis. 1988. "Five theses on instrumental realism." Proceedings of the Biennial Meetings of the Philosophy of Science Association 1988, 1: 165-73.

Baird, Davis. 1990. "Baird Associates' commercial three-meter grating spectrograph and the transformation of analytical chemistry." Rittenhouse, 5 (3): 65-80.

Baird, Davis. 1993. "Analytical chemistry and the 'big' scientific instrumentation revolution." Annals of Science, 50: 267-90.

Baird, Davis. 2000. "Encapsulating knowledge: The direct reading spectrometer." Foundations of Chemistry, 2: 5-46.

Baird, Davis. 2000. "Analytical instrumentation and instrumental objectivity." In Of Minds and Molecules: New Philosophical Perspectives on Chemistry, edited by N. Bhushan and S. Rosenfeld. Oxford: Oxford University Press, 90-113.

Becker, Edwin D., Cherie Fisk, and C. L. Khetrapal. 1996. "The development of NMR." In Encyclopedia of Nuclear Magnetic Resonance, vol. 1, Historical Perspectives, edited by D. M. Grant and R. K. Harris. Chichester: Wiley, 1-158.

Beckman, Arnold O., et al. 1977. "History of spectrophotometry at Beckman Instruments, Inc." Analytical Chemistry, 49: 280A-300A.

Benfey, Theodor, and Peter J. T. Morris, eds. 2001. Robert Burns Woodward. Architect and Artist in the World of Molecules. Philadelphia: Chemical Heritage Foundation.

Bennett, Stuart. 1976. "The emergence of a discipline: automatic control 1940-1960." Automatica, 12: 113-21.

Bennett, Stuart. 1979. History of Control Engineering: 1800 to 1930. Stevenage: Peter Peregrinus.

Bennett, Stuart. 1991. "The industrial instrument - master of industry, servant of management: automatic control in the process industries." Technology and Culture, 32: 69-81.

Bennett, Stuart. 1992. "The development of process control instruments: the early years." Transactions of the Newcomen Society, 63: 133-64.

Bennett, Stuart. 1993. A History of Control Engineering 1930-1955. Stevenage: Peter Peregrinus.

Bennett, Stuart. 1994. "The Society of Instrument Technology Ltd.: the early years." Measurement & Control, 27: 135-40.

Bennett, Stuart. 1998. "The use of measuring and controlling instruments in the chemical industry in Great Britain and the USA during the period 1900-1939." In Determinants in the Evolution of the European Chemical Industry, 1900-1939: New Technologies, Political Frameworks, Markets and Companies, edited by A. S. Travis, H. G. Schröter and E. Homburg. Dordrecht: Kluwer, 215-37.

Bennett, Stuart. 2002. "Production control instruments in the chemical and process industries." In From Classical to Modern Chemistry, edited by P. J. T. Morris. Cambridge: Royal Society of Chemistry, 149-68.

Bensaude-Vincent, Bernadette. 2000. "'The chemist's balance for fluids': hydrometers and their multiple identities, 1770-1810." In Instruments and Experimentation in the History of Chemistry, edited by F. L. Holmes and T. H. Levere. Cambridge, Mass.: MIT Press, 153-83.

Beynon, John H., and R. P. Morgan. 1978. "The development of mass spectrometry. An historical account." International Journal of Mass Spectrometry and Ion Processes, 27: 1-30.

Biemann, Klaus. 1994. "The Massachusetts Institute of Technology mass spectrometry school." Journal of the American Society for Mass Spectrometry, 5: 332-38.

Biemann, Klaus. 1995. "The coming of age of mass spectrometry in peptide and protein chemistry." Protein Science, 4: 1920-27.

Biemann, Klaus. 2002. "Four decades of structure determination by mass spectrometry: from alkaloids to heparin." Journal of the American Society for Mass Spectrometry, 13 (11): 1254-72.

Bigg, Charlotte. 2002. "Adam Hilger, Ltd and the Development of Spectrochemical Analysis." In From Classical to Modern Chemistry: The Instrumental Revolution, edited by P. J. T. Morris. London: Royal Society of Chemistry, 111-28.

Birch, Arthur J. 1995. To See the Obvious. Washington D.C.: ACS.

Bitter, Francis. 1959. Magnets: The Education of a Physicist. Garden City: Doubleday Anchor Books.

Bodenhausen, Geoffrey. 1984. "A retrospection on ten years of two-dimensional nuclear magnetic resonance spectroscopy." Chimia, 38: 215-18.

Bud, Robert, and Susan E. Cozzens, eds. 1992. Invisible Connections. Instruments, Institutions and Science. Bellingham: SPIE Optical Engineering Press.

Burchard, Ulrich. 1994. "The history and apparatus of blowpipe analysis." Mineralogical Record, 25: 251-77.

Büttner, Johannes. 1982. "Technical evolution in the clinical laboratory." Pure and Applied Chemistry, 54 (11): 2011-16.

Büttner, Johannes. 1992. "The origin of clinical laboratories." European Journal of Clinical Chemistry and Clinical Biochemistry, 30 (10): 585-93.

Büttner, Johannes. 1997. "Geräte zur chemischen Analyse in den ersten chemischen Laboratorien (1790-1850)." Mitteilungen - Gesellschaft Deutscher Chemiker, Fachgruppe Geschichte der Chemie, 13: 23-38.

Büttner, Johannes. 2002. "Naturwissenschaftliche Methoden im klinischen Laboratorium des 19. Jahrhunderts und ihr Einfluß auf das klinische Denken." Berichte zur Wissenschaftsgeschichte, 25 (2): 93-105.

Caraway, Wendell T. 1981. "Major developments in clinical chemical instrumentation." Journal of Clinical Chemistry and Clinical Biochemistry, 19 (7): 491-6.

Carrier, Martin. 1998. "New experimentalism and the changing significance of experiments: on the short-comings of an equipment-centered guide to history." In Experimental Essays - Versuche zum Experiment, edited by M. Heidelberger and F. Steinle. Baden-Baden: Nomos Verlagsgesellschaft, 175-91.

Cerruti, Luigi. 1998. "Chemicals as instruments. A language game." HYLE, 4: 39-61.

Cerruti, Luigi. 2002. "The impact of chromatographic and electrophoretic techniques on biochemistry and life sciences." In From Classical to Modern Chemistry. The Instrumental Revolution, edited by P. J. T. Morris. London: Royal Society of Chemistry, 309-32.

Cesaro, Nunziante, and E. Torracca. 1988. "Early applications of infrared spectroscopy to chemistry." Ambix, 35: 39-47.

Coblentz, William W. 1949. "Early history of Infrared spectroradiometry." Scientific Monthly, 68: 102-7.

Colthup, Norman B. 2002. The Origins of the IR Spectra-Structure Correlations Chart [cited 21 May 2002]. Available from http://www.s-a-s.org/epstein/colthup/index.html.

Cornides, Istvan. 1988. "Mass spectrometric analysis of inorganic solids - the historical background." In Inorganic Mass Spectrometry, edited by F. Adams, R. Gijbels and R. Van Grieken. New York: Wiley, 1-15.

Crosland, Maurice. 2000. "'Slippery substances': some practical and conceptual problems in the understanding of gases in the pre-Lavoisier era." In Instruments and Experimentation in the History of Chemistry, edited by F. L. Holmes and T. H. Levere. Cambridge, Mass.: MIT Press, 79-104.

Dimick, Keene P. 1990. "The emergence of a commercial gas chromatograph." LC-GC, 8 (10): 782-6.

Djerassi, Carl. 1990. Steroids Made it Possible. Washington, D.C.: American Chemical Society.

Djerassi, Carl. 1992. The Pill, Pygmy Chimps, and Degas' Horse. The Autobiography of Carl Djerassi. New York: Basic Books.

Djerassi, Carl. 1992. "Steroid research at Syntex: 'the pill' and cortisone." Steroids, 57: 631-41.

Dobson, Gordon Miller Bourne. 1968. "Forty years research on atmospheric ozone at Oxford." Applied Optics, 7: 387-405.

Dolan, Brian P. 1998. "Blowpipes and batteries: Humphry Davy, Edward Daniel Clarke, and experimental chemistry in early nineteenth-century Britain." Ambix, 45 (3): 137-62.

Emsley, James W., and James Feeney. 1995. "Milestones in the first fifty years of NMR." Progress in Nuclear Magnetic Spectroscopy, 28: 1-9.

Engel, Brita. 1997. "Das Berliner Akademielaboratorium Marggrafs und Achards." Mitteilungen - Gesellschaft Deutscher Chemiker, Fachgruppe Geschichte der Chemie, 13: 1-12.

Ernst, Richard R. 1991. "Without computers -- no modern NMR." In Computational Aspects of the Study of Biological Macromolecules by Nuclear Magnetic Resonance Spectroscopy, edited by J. C. Hoch, et al. New York: Plenum Press, 1-25.

Ernst, Richard R. 1994. "ENC, a motor of progress in NMR." Concepts in Magnetic Resonance, 6: 201-29.

Ernst, Richard R. 1997. "Nuclear magnetic resonance Fourier transform spectroscopy." In Nobel Lectures Chemistry 1991-1995, edited by B. G. Malmström. Singapore: World Scientific, 12-57.

Ernst, Richard R. 2001. "Arts and sciences. A personal perspective of Tibetan painting." Chimia, 55: 900-14.

Ettre, Leslie S. 1977. "Gas Chromatography." In A History of Analytical Chemistry, edited by H. A. Laitinen and G. W. Ewing. Washington DC: American Chemical Society, 296-306.

Ettre, Leslie S. 2002. Milestones in the Evolution of Chromatography. Brentwood: ChromSource.

Ettre, Leslie S., and A. Zlatkis, eds. 1979. 75 years of Chromatography - a Historical Dialog. Vol. 17, Journal of Chromatography Library. Amsterdam u.a.: Elsevier Scientific Publishing Company.

Ewald, Paul Philip, ed. 1962. Fifty Years of X-Ray Diffraction. Utrecht: Oosthoek.

Ewing, Galen W. 1989. "Coulometric titrimetry." ACS Symposium Series, 390: 402-16.

Eyring, Henry. 1976. "Physical chemistry: the past 100 Years." Chemical and Engineering News, 54 (15): 88-94, 99-104.

Forman, Paul. 1987. "Behind quantum electronics: national security as basis for physical research in the United States, 1940-1960." Historical Studies in the Physical Sciences, 18 (1): 149-229.

Forman, Paul. 1995. "Swords to ploughshares: breaking new ground with radar hardware and technique in physical research after World War II." Reviews of Modern Physics, 67: 397-455.

Forman, Paul. 1998. "Lock-in detection/amplifier." In Instruments of Science. An Historical Encyclopedia, edited by R. Bud and D. J. Warner. New York: Garland Publishing, 359-61.

Forman, Paul. 1998. "Molecular beam measurements of nuclear moments before magnetic resonance, Part I." Annals of Science, 55: 111-60.

Futrell, Jean H. 2000. "Development of tandem mass spectrometry. One perspective." International Journal of Mass Spectrometry, 200 (1/3): 495-508.

Gehrke, Charles W., Robert L. Wixom, and Ernst Bayer. 2001. Chromatography: A Century of Discovery, 1900-2000. Amsterdam: Elsevier.

Gershinowitz, Harold. 1979. "The first infrared spectrometer." Journal of Physical Chemistry, 83: 1363-65.

Gerstein, Mark. 1994. "Purcell's role in the discovery of nuclear magnetic resonance: contingency versus inevitability." American Journal of Physics, 62: 596-601.

Gohlke, Roland S., and Fred W. McLafferty. 1993. "Early gas chromatography / mass spectrometry." Journal of the American Society for Mass Spectrometry, 4: 367-71.

Golinski, Jan. 1992. Science as Public Culture: Chemistry and Enlightenment in Britain, 1760-1820. Cambridge: Cambridge University Press.

Golinski, Jan. 2000. "'Fit instruments': thermometers in eighteenth-century chemistry." In Instruments and Experimentation in the History of Chemistry, edited by F. L. Holmes and T. H. Levere. Cambridge, Mass.: MIT Press, 185-210.

Grant, David M., and Robin K. Harris, eds. 1996. Encyclopedia of Nuclear Magnetic Resonance, vol. 1, Historical Perspectives. Chichester: Wiley.

Grayson, Michael A., ed. 2002. Measuring Mass. From Positive Rays to Proteins. Philadelphia: CHF.

Greenaway, Frank. 1977. "Analytical chemistry in modern society. 200 Years of development." Kemija u Industriji, 26 (6): 303-9.

Gutowsky, Herbert S. 1975. "Chemical aspects of nuclear magnetic resonance." Journal of Magnetic Resonance, 17: 281-94.

Heidelberger, Michael, and Friedrich Steinle, eds. 1998. Experimental Essays - Versuche zum Experiment. Baden-Baden: Nomos Verlagsgesellschaft.

Helden, Albert van, and Thomas L. Hankins. 1994. "Introduction: instruments in the history of science." Osiris, 9: 1-6.

Hentschel, Klaus. 1998. Zum Zusammenspiel von Instrument, Experiment und Theorie. Rotverschiebung im Sonnenspektrum und verwandte spektrale Verschiebungseffekte von 1880 bis 1960. 2 vols. Hamburg: Kovac.

Hentschel, Klaus. 2000. "Historiographische Anmerkungen zum Verhältnis von Experiment, Instrumentation und Theorie." In Instrument - Experiment: Historische Studien, edited by C. Meinel. Berlin: GNT-Verlag, 13-51.

Hentschel, Klaus. 2002. Mapping the Spectrum. Techniques of Visual Representation in Research and Teaching. Oxford: Oxford University Press.

Herzberg, Gerhard. 1985. "Molecular spectroscopy: a personal history." Annual Review of Physical Chemistry, 36: 1-30.

Hippel, Eric von. 1995 (1988). The Sources of Innovation. New York: Oxford University Press.

Holmes, Frederic L. 1989. "The complementarity of teaching and research in Liebig's laboratory." Osiris, 5: 121-64.

Holmes, Frederic L. 1992. "Do we understand historically how experimental knowledge is acquired?" History of Science, 30: 119-36.

Holmes, Frederic L. 2000. "The evolution of Lavoisier's chemical apparatus." In Instruments and Experimentation in the History of Chemistry, edited by F. L. Holmes and T. H. Levere. Cambridge, Mass.: MIT Press, 137-52.

Holmes, Frederic L., and Trevor H. Levere, eds. 2000. Instruments and Experimentation in the History of Chemistry. Cambridge, Mass.: MIT Press.

Jaselskis, Bruno, Carl E. Moore, and Alfred von Smolinski. 1989. "Development of the pH meter." In Electrochemistry, Past and Present, edited by J. T. Stock and M. V. Orna. Washington, D.C.: American Chemical Society, 254-71.

Jenemann, Hans R. 1982. "Zur Geschichte der Waage in der Wissenschaft." In Beiträge zur Geschichte der Laboratoriumstechnik und deren Randgebiete, edited by E. H. W. Giebeler and K. A. Rosenbauer. Darmstadt: GIT Verlag Ernst Giebeler, 97-119.

Jensen, William B. 1986. "Development of Blowpipe Analysis." In The History and Preservation of Chemical Instrumentation, edited by J. T. Stock and R. Orna. Dordrecht: Reidel, 123-48.

Joerges, Bernward, and Terry Shinn, eds. 2001. Instrumentation Between Science, State and Industry. Dordrecht: Kluwer Academic Publishers.

Johnson, William S. 1997. A Fifty-Year Love Affair with Organic Chemistry. Washington D.C.: American Chemical Society.

Johnston, Sean. 2001. "In search of space: Fourier spectroscopy 1950-1970." In Instrumentation Between Science, State and Industry, edited by B. Joerges and T. Shinn. Dordrecht: Kluwer, 121-41.

Jonas, Jiri, and Herbert S. Gutowsky. 1980. "NMR - an evergreen." Annual Review of Physical Chemistry, 31: 1-27.

Jones, Rebecca B. 2000. "Life before and after computers in the general chemistry laboratory." Journal of Chemical Education, 77 (8): 1085-87.

Jones, Ronald Norman. 1981. "Some retrospective thoughts on vibrational spectroscopy." Canadian Journal of Spectroscopy, 26 (1): 1-9.

Jones, Ronald Norman. 1981. "Vibrational spectroscopy and organic chemistry: thirty years of symbiosis." Journal of the Spectroscopical Society of Japan, 30: 423-36.

Karselis, Terence C. 1982. "Electrolyte instrumentation: then and now." American Journal of Medical Technology, 48 (5): 329-35.

Kay, Lily. 1988. "Laboratory technology and biological knowledge: the Tiselius electrophoresis apparatus, 1930-1945." History and Philosophy of the Life Sciences, 10: 51-72.

Knight, David. 2002. "Then ... and now." In From Classical to Modern Chemistry. The Instrumental Revolution, edited by P. J. T. Morris. Cambridge: Royal Society of Chemistry, 87-94.

Kohler, Robert E. 1991 / 1992. "Systems of production: Drosophila, Neurospora, and biochemical genetics." Historical Studies in the Physical and Biological Sciences, 22: 87-130.

Kohler, Robert E. 1994. Lords of the Fly. Drosophila Genetics and the Experimental Life. Chicago: University of Chicago Press.

Kohn, Moritz. 1950. "Remarks on the history of laboratory burners." Journal of Chemical Education, 17: 514-16.

Krell, Erich. 1982. "Zur Geschichte der Labordestillation." In Historia Scientiae naturalis: Beiträge zur Geschichte der Laboratoriumstechnik und deren Randgebiete, edited by E. H. W. Giebeler and K. A. Rosenbauer. Darmstadt: G-I-T Verlag Ernst Giebeler, 97-119.

Laidler, Keith J. 1993. The World of Physical Chemistry. Oxford: Oxford University Press.

Laitinen, Herbert A. 1973. "Trends in the teaching of analytical chemistry in American universities." Fresenius' Zeitschrift fuer Analytische Chemie, 263 (4): 307-13.

Laitinen, Herbert A. 1980. "Analytical chemistry in a changing world." Analytical Chemistry, 52 (6): 605A-09A.

Laitinen, Herbert A., and Galen W. Ewing, eds. 1977. A History of Analytical Chemistry. Washington, D.C.: Division of Analytical Chemistry of the American Chemical Society.

Laszlo, Pierre. 2002. "Tools, instruments and concepts: the influence of the second chemical revolution." In From Classical to Modern Chemistry, edited by P. J. T. Morris. Cambridge: Royal Society of Chemistry, 171-87.

Lenoir, Timothy, and Christophe Lécuyer. 1995. "Instrument makers and discipline builders: the case of nuclear magnetic resonance." Perspectives on Science, 3: 276-345.

LeVan, John E. 1978. "Friendly Jack's used instrument exchange." Chemtech, 8 (10): 594-6.

Levere, Trevor H. 2000. "Measuring gases and measuring goodness." In Instruments and Experimentation in the History of Chemistry, edited by F. L. Holmes and T. H. Levere. Cambridge, Mass.: MIT Press, 105-36.

Levere, Trevor H., and Frederic L. Holmes. 2000. "Introduction: a practical science." In Instruments and Experimentation in the History of Chemistry, edited by F. L. Holmes and T. H. Levere. Cambridge, Mass.: The MIT Press, vii-xvii.

Mackenzie, Robert C. 1984. "Origin and development of differential thermal analysis." Thermochimica Acta, 73: 307-67.

Marsden, K., and Ian D. Rae. 1990. "Nuclear magnetic resonance in Australia 1952-1986." Historical Records of Australian Science, 8: 120-50.

Mauskopf, Seymour H. 1990. "Chemistry and cannon: J.-L. Proust and gunpowder analysis." Technology and Culture, 31: 398-426.

Mauskopf, Seymour H. 2000. "Bridging chemistry and physics in the experimental study of gunpowder." In Instruments and Experimentation in the History of Chemistry, edited by F. L. Holmes and T. H. Levere. Cambridge, Mass.: MIT Press, 335-66.

Mayr, Otto. 1970. The Origins of Feedback Control. Cambridge: MIT Press.

Mayr, Otto. 1971. Feedback Mechanisms in the Historical Collections of the National Museum of History and Technology. Washington, D.C.: Smithsonian Institution Press.

McLafferty, Fred W. 1993. "Tandem mass spectrometry: from infancy to maturity in twenty-five years." Organic Mass Spectrometry, 28: 1403-06.

McLafferty, Fred W. 1997. "Billionfold data increase from mass spectrometry instrumentation." Journal of the American Society for Mass Spectrometry, 8: 1-7.

Meinel, Christoph, ed. 2000. Instrument - Experiment: Historische Studien. Berlin: GNT-Verlag.

Melville, Harry. 1962. "The effect of instrument development on the progress of chemistry." Transactions of the Society of Instrument Technology, 14: 216-18.

Meyer, Leon H. 1998. "NMR some fifty years later. Personal recollections." Chemical Heritage, 15: 47-48.

Meyerson, Seymour. 1986. "Reminiscences of the early days of mass spectrometry in the petroleum industry." Organic Mass Spectrometry, 21 (4): 197-208.

Meyerson, Seymour. 1994. "From black magic to chemistry. The metamorphosis of organic mass spectrometry." Analytical Chemistry, 66: 960A-64A.

Miller, Foil A. 1992. "The infrastructure of IR spectrometry: reminiscences of pioneers and early commercial IR instruments." Analytical Chemistry, 64: 824A-31A.

Morris, Peter J. T. 1995. "From Basel to Austin: a brief history of ozonolysis." Special Publications of the Royal Society of Chemistry, 170: 170-90.

Morris, Peter J. T., ed. 2002. From Classical to Modern Chemistry. The Instrumental Revolution. Cambridge: Royal Society of Chemistry.

Morris, Peter J. T. 2002. "'Parts per trillion is a fairy tale': the development of the electron capture detector and its impact in the monitoring of DDT." In From Classical to Modern Chemistry, edited by P. J. T. Morris. Cambridge: Royal Society of Chemistry, 259-84.

Morris, Peter J. T., and Anthony S. Travis. 1997. "The role of physical instrumentation in structural organic chemistry." In Science in the Twentieth Century, edited by J. Krige and D. Pestre. Amsterdam: Harwood Academic Publishers, 715-39.

Morris, Peter J. T., Anthony S. Travis, and Carsten Reinhardt. 2001. "Research fields and boundaries in twentieth-century organic chemistry." In Chemical Sciences in the 20^th Century. Bridging Boundaries, edited by C. Reinhardt. Weinheim: Wiley-VCH, 14-42.

National Research Council, National Academy of Sciences. 1965. Chemistry: Opportunities and Needs. A Report on Basic Research in U.S. Chemistry by the Committee for the Survey of Chemistry. Washington D.C.

Niinisto, Lauri. 1990. "Analytical instrumentation in the 18th century." Fresenius' Journal of Analytical Chemistry, 337 (2): 213-17.

Noble, Christopher A., and Kimberly A. Prather. 2000. "Real-time single particle mass spectrometry: A historical review of a quarter century of the chemical analysis of aerosols." Mass Spectrometry Reviews, 19 (4): 248-74.

Nowicki, Henry. 2000. "A tribute to Foil Miller. A career focus on infrared and Raman spectroscopy." Spectroscopy, 15 (11): 16-18.

Nye, Mary Jo. 1992. "Physics and chemistry: Commensurate or incommensurate sciences?" In The Invention of Physical Science. Intersections of Mathematics, Theology and Natural Philosophy Since the Seventeenth Century, edited by M. J. Nye, J. L. Richards and R. H. Stuewer. Dordrecht: Kluwer, 205-24.

Nye, Mary Jo. 1993. From Chemical Philosophy to Theoretical Chemistry. Dynamics of Matter and Dynamics of Disciplines, 1800-1950. Berkeley: University of California Press.

Nye, Mary Jo. 2000. "Laboratory practice and the physical chemistry of Michael Polanyi." In Instruments and Experimentation in the History of Chemistry, edited by F. L. Holmes and T. H. Levere. Cambridge, Mass.: MIT Press, 367-400.

Orville-Thomas, William James. 1981. "The history of matrix isolation spectroscopy." In Matrix Isolation Spectroscopy, edited by A. J. Barnes, et al. Dordrecht: Reidel, 1-11.

Osteryoung, Janet. 1982. "Developments in electrochemical instrumentation." Science, 218: 261-65.

Phillips, V. J. 1987. Waveforms: A History of Early Oscillography. Bristol: Adam Hilger.

Rabkin, Yakov M. 1977. "La chimie et le petrole: 'Les debuts d'une liaison'." Revue d'Histoire des Sciences, 30: 303-36.

Rabkin, Yakov M. 1987. "Technological innovation in science. The adoption of infrared spectroscopy by chemists." Isis, 78: 31-54.

Rabkin, Yakov M. 1993. "Uses and images of instruments in chemistry." In Chemical Sciences in the Modern World, edited by S. H. Mauskopf. Philadelphia: University of Pennsylvania Press, 25-42.

Rambaldi, Gabriella. 1996. "For a laboratory museum: chemical instruments and experiments in 19th-century Genoa." Chimica e l'Industria (Milan), 78 (1): 87-9.

Ramsey, Norman F. 1999. "Early history of magnetic resonance." Physics in Perspective, 1: 123-35.

Rasmussen, Nicolas. 1996. "Making a machine instrumental." Studies in the History and Philosophy of Science, 27: 311-49.

Rasmussen, Nicolas. 1997. Picture Control: The Electron Microscope and the Transformation of Biology in America, 1940-1960. Stanford: Stanford University Press.

Rasmussen, Nicolas. 2002. "Innovation in chemical separation and detection instruments: reflections on the role of research-technology in the history of science." In From Classical to Modern Chemistry, edited by P. J. T. Morris. Cambridge: Royal Society of Chemistry, 251-58.

Ravetz, Jerome R. 1971. Scientific Knowledge and Its Social Problems. Oxford: Clarendon Press.

Redhead, Paul A. 1994. "History of Ultrahigh Vacuum Pressure Measurements." Journal of Vacuum Science and Technology A, 12: 904-14.

Reinhardt, Carsten. 2002. "The chemistry of an instrument: mass spectrometry and structural organic chemistry." In From Classical to Modern Chemistry, edited by P. J. T. Morris. Cambridge: Royal Society of Chemistry, 229-47.

Reinhardt, Carsten. 2002. "Instrument der Einheit? Nuclear Magnetic Resonance und chemische Forschung um 1950." In Chemie - Kultur - Geschichte. Festschrift für Hans-Werner Schütt anlässlich seines 65. Geburtstages, edited by A. Schürmann and B. Weiss. Berlin: GNT-Verlag, 327-37.

Reinhardt, Carsten. 2004. "Chemistry in a physical mode. Molecular spectroscopy and the emergence of NMR." Annals of Science, 61: 1-32.

Remane, Horst. 1987. "Zur Entwicklung der Massenspektroskopie von den Anfängen bis zur Strukturaufklärung organischer Verbindungen." NTM, 24 (2): 93-106.

Rigden, John S. 1985. "The birth of the magnetic resonance method." In Observation, Experiment, and Hypothesis in Modern Physical Science, edited by P. Achinstein and O. Hannaway. Cambridge, Mass., 205-37.

Rigden, John S. 1986. "Quantum states and precession: the two discoveries of NMR." Reviews of Modern Physics, 58: 433-48.

Roberts, John D. 1990. The Right Place at the Right Time. Washington D.C.: ACS.

Roberts, L. 1995. "The death of the sensuous chemist: the 'new' chemistry and the transformation of sensuous technology." Studies in History and Philosophy of Science, 26: 503-29.

Rocke, Alan J. 2000. "Organic analysis in comparative perspective: Liebig, Dumas, and Berzelius, 1811-1837." In Instruments and Experimentation in the History of Chemistry, edited by F. L. Holmes and T. H. Levere. Cambridge, Mass.: MIT Press, 273-310.

Russell, Colin A. 1987. "The changing role of synthesis in organic chemistry." Ambix, 34: 169-80.

Russell, Colin A. 2000. "Chemical techniques in a preelectronic age: the remarkable apparatus of Edward Frankland." In Instruments and Experimentation in the History of Chemistry, edited by F. L. Holmes and T. H. Levere. Cambridge, Mass.: MIT Press, 311-34.

Russell, Nicholas C., Elisabeth M. Tansey, and P. V. Lear. 2000. "Missing links in the history and practice of science: teams, technicians and technical work." History of Science, 38: 237-41.

Schummer, Joachim. 2002. "The impact of instrumentation on chemical species identity: From chemical substances to molecular species." In From Classical to Modern Chemistry, edited by P. J. T. Morris. Cambridge: Royal Society of Chemistry, 188-211.

Servos, John W. 1990. Physical Chemistry from Ostwald to Pauling. The Making of a Science in America. Princeton: Princeton University Press.

Settle, Frank A. 2002. "Analytical chemistry and the Manhattan Project." Analytical Chemistry, 74 (1): 37A-43A.

Severinghaus, John W., and Paul B. Atrup. 1987. "Leland Clark's invention of the membrane-covered oxygen-electrode." In History of Blood Gas Analysis. Boston, 115-29.

Sheppard, Norman. 1992. "The U.K.'s contributions to IR spectroscopic instrumentation. From wartime fuel research to a major technique for chemical analysis." Analytical Chemistry, 64 (18): 877A-83A.

Sherman, Larry R., and James A. Goodrich. 1985. "The historical development of sodium dodecyl sulfate-polyacrylamide gel electrophoresis." Chemical Society Reviews, 14: 225-36.

Shinn, Terry. 2001. "The research-technology matrix: German origins, 1860-1900." In Instrumentation Between Science, State and Industry, edited by B. Joerges and T. Shinn. Dordrecht: Kluwer Academic Publishers, 29-45.

Shinn, Terry. 2002. "Research-technology instrumentation: the place of chemistry." In From Classical to Modern Chemistry, edited by P. J. T. Morris. Cambridge: Royal Society of Chemistry, 95-110.

Shoolery, James N. 1993. "NMR spectroscopy in the beginning." Analytical Chemistry, 65: 731A-41A.

Sibum, Heinz Otto. 1995. "Reworking the mechanical value of heat: instruments of precision and gestures of accuracy in early Victorian England." Studies in History and Philosophy of Science, 26: 73-106.

Slater, Leo B. 2001. "Woodward, Robinson, and strychnine: chemical structure and chemists' challenge." Ambix, 48: 161-89.

Slater, Leo B. 2002. "Instruments and rules: R. B. Woodward and the tools of twentieth-century organic chemistry." Studies in History and Philosophy of Science, 33: 1-33.

Slater, Leo B. 2002. "Organic chemistry and instrumentation: R. B. Woodward and the reification of chemical structures." In From Classical to Modern Chemistry: The Instrumental Revolution, edited by P. J. T. Morris. Cambridge: Royal Society of Chemistry, 212-28.

Slavin, Walter. 1991. "Atomic absorption spectroscopy: why has it become successful?" Analytical Chemistry, 63: 1033A-38A.

Slichter, Charles P. 1975. "Some scientific contributions of Herbert S. Gutowsky." Journal of Magnetic Resonance, 17: 274-80.

Smeaton, William A. 2000. "Platinum and ground glass: some innovations in chemical apparatus by Guyton de Morveau and others." In Instruments and Experimentation in the History of Chemistry, edited by F. L. Holmes and T. H. Levere. Cambridge, Mass.: MIT Press, 211-37.

Solla Price, Derek de. 1980. "Philosophical mechanism and mechanical philosophy: some notes toward a philosophy of scientific instruments." Annali Dell' Instituto é Muséo di Storia Della Scienza di Firenze, 5: 75-85.

Stahl, Egon. 1964. "Development and application of thin-layer chromatography." In Thin-Layer Chromatography, edited by G. B. Marini-Bettolo. Amsterdam: Elsevier, 3-12.

Steyermark, Al. 1958. "Historical developments in quantitative organic microanalysis." Microchemical Journal, 2: 21-42.

Stine, Jeffrey K. 1992. "Scientific instrumentation as an element of U.S. science policy: National Science Foundation support of chemistry instrumentation." In Invisible Connections. Instruments, Institutions, and Science, edited by R. Bud and S. E. Cozzens. Bellingham: SPIE Optical Engineering Press, 238-63.

Stock, John T. 1969. Development of the Chemical Balance. London: Her Majesty's Stationery Office.

Stock, John T. 1975. "Looking backward in science." Chemistry and Industry, 48 (9): 12-14.

Stock, John T. 1989. "A century and a half of silver-based coulometry." Journal of Chemical Education, 66: 417-19.

Stock, John T. 1993. "From the Volt-electrometer to the electronic coulometer." Journal of Chemical Education, 70: 576-79.

Stock, John T. 1995. "Bunsen's batteries and the electric arc." Journal of Chemical Education, 72: 99-102.

Stock, John T. 1996. "The 1992 Dexter address. Historic chemical instrumentation: From the cellar upwards." Bulletin for the History of Chemistry, 1994 (15/16): 1-8.

Stock, John T., and Mary Virginia Orna. 1986. The History and Preservation of Chemical Instumentation. [Proceedings of the ACS Division of the History of Chemistry Symposium Held in Chicago, Ill., September 9-10, 1985]. Dordrecht: D. Reidel Publ. Co.

Stroke, Henry H. 1969. "The first magnet laboratory at M.I.T." In Francis Bitter. Selected Papers and Commentaries, edited by T. Erber and C. M. Fowler. Cambridge, Ma.: M.I.T. Press, 282-301.

Sutton, M. A. 1976. "Spectroscopy and the chemists: a neglected opportunity?" Ambix, 23: 16-26.

Svec, Harry J. 1985. "Mass spectroscopy - ways and means: a historical prospectus." International Journal of Mass Spectrometry and Ion Processes, 66: 3-29.

Sydenham, P. H. 1979. Measuring Instruments: Tools of Knowledge and Control. Stevenage: Peter Peregrinus for the Science Museum.

Szabadváry, Ferenc. 1966. History of Analytical Chemistry. Oxford and London: Pergamon.

Tarbell, Dean Stanley, and Ann Tracy Tarbell. 1986. "The instrumental revolution, 1930-1955." In Essays on the History of Organic Chemistry in the United States, 1875-1955. Nashville, TN: Folio Press, 335-52.

Taylor, John K. 1985. "The impact of instrumentation on analytical chemistry." In The History and Preservation of Chemical Instrumentation. Proceedings of the ACS Division of History of Chemistry Symposium held in Chicago, Ill., Sept. 9-10, 1985, edited by J. T. Stock and M. V. Orna. Dordrecht: Reidel, 1-10.

Thackray, Arnold, and Minor Myers. 2000. Arnold O. Beckman: One Hundred Years of Excellence. Philadelphia: Chemical Heritage Foundation.

Travis, Anthony S. 2000. "Surrogate instruments: industrial chemical reactors and organic chemistry." In Instrument - Experiment: Historische Studien, edited by C. Meinel. Berlin: GNT-Verlag, 201-16.

Travis, Anthony S. 2002. "Instrumentation in environmental analysis, 1935-1975." In From Classical to Modern Chemistry, edited by P. J. T. Morris. Cambridge: Royal Society of Chemistry, 285-308.

Turner, Gerard L. E. 1980. Essays on the History of the Microscopes. Oxford: Senecio.

Turner, Gerard L. E. 1989. The Great Age of the Microscope: The Collection of the Royal Microscopical Society through 150 Years. Bristol: Adam Hilger.

Turner, S. T. 1994. "Applying a new science to a new industry: the promise of spectrum analysis and the reality of the Bessemer process of making steel." Rittenhouse, 8: 53-9.

Twyman, Frank. 1927. On the Development and Present Position of Chemical Analysis by Emission Spectra. London: Adam Hilger Ltd.

Van Vleck, John H. 1970. "A third of a century of paramagnetic relaxation and resonance." In Magnetic Resonance. Proceedings of the International Symposium on Electron and Magnetic Resonance, held in Melbourne, August 1969, edited by C. K. Coogan, et al. New York, London: Plenum Press, 1-10.

Van Vleck, John H. 1992. "Quantum Mechanics: the key to understanding magnetism. Nobel lecture, 8 December 1977." In Nobel Lectures Physics, edited by S. Lindqvist. Singapore: World Scientific, 353-69.

Vesterberg, Olof. 1993. "A short history of electrophoretic methods." Electrophoresis, 14: 1243-49.

Warner, Mary, ed. 1994. Milestones in Analytical Chemistry. Washington D.C.: American Chemical Society.

Waugh, John S. 1993. "NMR spectroscopy in solids: a historical review." Analytical Chemistry, 65: 725A-29A.

Wehrli, Felix W. June 1992. "The origins and future of nuclear magnetic resonance imaging." Physics Today, 45: 34-42.

Wendel, Bernhard. 1999. "Liebig's glass blown instruments. Part 3. Steam sound generator." Praxis der Naturwissenschaften, Chemie, 48 (8): 27.

Wendel, Bernhard. 1999. "Liebig's glassware. Part 1. Liebig condenser and fermentation tube." Praxis der Naturwissenschaften, Chemie, 48 (6): 43.

Wendel, Bernhard. 2000. "Liebig's glass blown instruments. Part 4. Sound analyzer and tabacophone." Praxis der Naturwissenschaften, Chemie, 49 (1): 40.

Willis, J. B. 1990. "Spectroscopic research in the CSIRO division of chemical physics 1944-1986." Historical Records of Australian Science, 8: 151-81.

Wintermeyer, Ursula. 1989. Die Wurzeln der Chromatographie - Historischer Abriss von den Anfängen bis zur Dünnschicht-Chromatographie. Darmstadt: Git Verlag GmbH.

Wright, Norman. 1941. "Application of infrared spectroscopy to industrial research." Industrial and Engineering Chemistry, Analytical Edition, 13: 1-7.

Zaffaroni, Alejandro. 1992. "From paper chromatography to drug discovery: Zaffaroni." Steroids, 57 (12): 642-8.

Zandvoort, Henk. 1986. Models of Scientific Development and the Case of Nuclear Magnetic Resonance. Dordrecht: Reidel.

Zandvoort, Henk. 1988. "Nuclear magnetic resonance and the acceptability of guiding assumptions." In Scrutinizing Science. Empirical Studies of Scientific Change, edited by A. Donovan, et al. Dordrecht: Kluwer, 337-58.

Zandvoort, Henk. 1995. "Concepts of interdisciplinarity and environmental science." In Cognitive Patterns in Science and Common Sense. Groningen Studies in Philosophy of Science, Logic and Epistemology, edited by T. A. F. Kuipers and A. R. Mackor. Amsterdam: Rodopi, 45-68.

Zolotov, Yuri A. 1983. "Analytical chemistry in the USSR." Fresenius' Zeitschrift fuer Analytische Chemie, 316 (8): 765-9.

Zubritsky, Elizabeth. 2002. "How analytical chemists saved the human genome project ... or at least gave it a helping hand." Analytical Chemistry, 74 (1): 23A-26A.