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History of Mass Spectrometry
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| 1922 | Then student Ian Wark (later Head of the Division of Industrial Chemistry, CSIRO) writes to Francis Aston in Cambridge seeking advice on building a mass spectrograph to measure ionisation potentials. Aston promptly replies ('I think a 12" coil should be ample for your purpose. 20,000 volts should not strain it seriously even with one pole earthed ... Wishing you every success, Sincerely F.W. Aston.') |
| 1946 | Construction of a 60 degree Nier-type mass spectrometer commences in the Physics Department, University of Melbourne, becoming operational in 1947. This and a subsequent all-metal mass spectrometer completed in 1948 (still in operation in 1971) were used as isotope separators for the production of milligram quantities of lithium, oxygen, neon, magnesium and zinc. |
| 1948 | Arrival of first commercial mass spectrometer in Australia - a CEC21102 instrument at CSIRO, Melbourne. |
| 1950s | Ian Lauder (U. Queensland) and Peter Jeffrey (UWA) construct mass spectrometers for isotope tracer and geological dating experiments. |
| 1953 | Jim Morrison constructs world's first mass spectral digitizer consisting of an analog-to-digital converter. |
| 1957 | Mark Ingram-inspired magnetic mass spectrometer built by Jim Morrison and colleagues in Melbourne. |
| 1959 | Arrival of commercial Metropolitan Vickers MS-2 instrument at UNSW for use by Jim Green and Jack Garnett. |
| 1960 | Jim Shannon CSIRO coal research section receives an Atlas CH4 mass spectrometer. |
| 1960s | Jim Shannon promotes use of "fish-hook arrows" for homolytic bond cleavages of ions. |
| 1962 | Second Atlas CH4 mass spectrometer installed at Defence Standards Laboratory in Melbourne. |
| 1962 | Jim Morrison and Don Swingler construct early quadrupole mass spectrometer at CSIRO, Melbourne. |
| 1966 | John Bowie initiates studies of organic anions by negative ion mass spectrometry, initially using a Hitachi RMU 7D mass spectrometer. |
| 1968 | Jim Shannon appointed Australian editor of Organic Mass Spectrometry journal. |
| 1968 | Thermal ionisation mass spectrometer installed at Waite Institute, now Curtin University of Technology, WA. |
| Late 1960s | Keith Murray acquires Atlas CH4 at CSIRO Food Research section in North Ryde Sydney. Instrument subsequently adapted for GC-MS experiments. |
| 1969 | Jim Morrison and John Smith construct the first fast scanning laminated magnet for a magnetic-sector GCMS. (Haertel, G.; Morrison, J.D.; Smith, J.F. Int. J. Mass Spectrom. Ion Phys. 5 (1970) 215-222). |
| 1970 | A community of Australian scientists who were working and were interested in mass spectrometry established a formal society known as the Australian Society for Mass Spectrometry. The society was initially chaired by Barry Batts. |
| 1970 | Bert Halpern constructs quadrupole mass spectrometer for early biomedical mass spectrometry experiments. |
| 1970s | First commercial ICRs arrive in Australia - U. Adelaide, ANU, CSIRO in Melbourne. |
| 1971 | First meeting of the Australian Society for Mass Spectrometry at Macquarie University (August 23-27). Name changed to Australian & New Zealand Society for Mass Spectrometry. |
| 1971 | Don McGilvery and Jim Morrison develop SIMION program for electrostatic potential and charged particle trajectory calculations. |
| 1974 | Jim Morrison and Don McGilvery construct a triple quadrupole for studying the photodissociation of ions. (McGilvery, D.C.; Morrison, J.D. J. Chem. Phys. 67 (1977) 368-369). |
| 1974 | John Traeger builds La Trobe University photoionization mass spectrometer. (Traeger, J.C.; McLoughlin, R.G. Int. J. Mass Spectrom. Ion Phys. 27 (1978) 319-333). |
| 1976 | ETP, manufacturer and developer of electron multipliers, founded in Sydney. |
| 1975 | Peter Derrick constructs large-scale (1 metre magnetic radius, 8 tonne magnet) reverse geometry sector mass spectrometer at La Trobe University. (Cullis, P.G.; Neumann, G.M.; Rogers, D.E.; Derrick, P.J. Adv. Mass Spectrom. 8B (1980) 1729-1738) |
| 1978 | First use of a triple quadrupole mass spectrometer for analytical tandem mass spectrometry in Melbourne. (Yost, R.A.; Enke, C.G.; McGilvery, D.C.; Smith, D.L.; Morrison, J.D. Int. J. Mass Spectrom. Ion Phys. 30 (1979) 127-136). |
| 1979 | GCMS analysis of volatile constituents of Australian honeys. (Graddon, A.D.; Morrison, J.D.; Smith, J.F. J. Agric. Food Chem. 27 (1979) 832-837). |
| 1980 | Application of computerized GCMS to oil exploration in Australia. (Philp, R.P.; Gilbert, T.D. APEA Journal 20 (1980) 221-228). |
| 1982 | ETP develops replaceable dynode multipliers. |
| 1983 | GCMS analysis of constitutents associated with off-flavors in crustaceans from Australian coastal waters. (Whitfield, F.B.; Freeman, D.J. Water Sci. Tech. 15 (1983) 85-95). |
| 1987 | Composition of wax made by the Australian stingless bee Trigona australis. (Milborrow, B.V.; Kennedy, J.M.; Dollin, A. Aust. J. Biol. Sci. 40 (1987) 15-25). |
| 1989 | GCMS analysis of volatile oils in eucalyptus leaves. (Barton, A.F.M.; Tjandra, J.; Nicholas, P.G. J. Agric. Food Chem. 37 (1989) 1253-1257). |
| 1989 | Jim Dawson and Michael Guilhaus propose an orthogonal-acceleration time-of-flight mass spectrometer as a new way to couple TOF with continuous ion sources. (Dawson, J.H.J.; Guilhaus, M. Rapid Commun. Mass Spectrom. 3 (1989) 155-159). |
| 1990 | First commercial electrospray mass spectrometer in Australia (Sciex API-III) installed at Bond University. |
| 1991 | Early tandem TOF/TOF mass spectrometer built at UNSW. (Jardine, D.R.; Alderdice, D.S.; Derrick, P.J. Org. Mass Spectrom. 26 (1991) 915-916). |
| 1991 | ETP develops air-stable "active film" multiplier technology. |
| 1992 | Guilhaus and Coles complete construction of first orthogonal-acceleration time-of-flight mass spectrometer at UNSW. (Coles, J.; Guilhaus, M. Trends Anal. Chem. 12 (1993) 203-213). |
| 1992 | Waldron, Dowsett, and Derrick patent hybrid double-focusing magnetic-sector time-of-flight mass spectrometer). |
| 1995 | Construction of a pentaquadrupole mass spectrometer capable of performing MS/MS/MS experiments at Monash University. (Thomas, P.D.; Morrison, R,J.S. Proc. ANZSMS15 ThP-07). |
| 1996 | Guilhaus and Mlynski complete construction of first MALDI orthogonal-acceleration time-of-flight mass spectrometer at UNSW. (Mlynski, V.; Guilhaus, M. Rapid Commun. Mass Spectrom. 10 (1996) 1524-1530). |
| 1997 | Michael Guilhaus receives the Curt Brunnée Award at the 14th International Mass Spectrometry Conference. (Adv. Mass Spectrom. 14 (1997) xxv-xxviii). |
| 1998 | Don McGilvery shares ASMS Distinguished Contribution in Mass Spectrometry for development and application of SIMION, an algorithm to simulate for electrostatic fields and ion trajectories. (J. Am. Soc. Mass Spectrom. 9 (1998) 657). |
| 1998 | First record of host defence peptides in tadpoles using mass spectrometry. (Wabnitz, P.A.; Walters, H.; Tyler, M.J.; Wallace, J.C.; Bowie, J.H. J. Peptide Res. 52 (1998) 477-481). |
| 1999 | Aquatic sex pheromone detected in a male tree frog by mass spectrometry. (Wabnitz, P.A.; Bowie, J.H.; Tyler, M.J.; Wallace, J.C. Nature 401 (1999) 444-445). |
| 2000 | Special honour issue of the International Journal of Mass Spectrometry for Jim Morrison (Int. J. Mass Spectrom. 194(2/3) (2000)). |
| 2000 | Guilhaus group demonstrates resolution and sensitivity advantages of parallel wire grids and rectangular repeat cell meshes in orthogonal TOF mass analysers for MALDI and commercial ESI instruments. (Selby, D.; Mlynski, V.; Guilhaus, M. Int. J. Mass Spectrom. 206 (2001) 201-210. Lewin, M.J.; Guilhaus, M.; Wildgoose, J.; Hoyes, J.; Bateman, R. Rapid Commun. Mass Spectrom. 16 (2001) 609-615). |
| 2000 | Measurement of proton affinities on a pentaquadrupole mass spectrometer by the kinetic method. (Thomas, P.D.; Morrison, R.J.S. Int. J. Mass Spectrom. 194 (2000) 133-143. |
| 2001 | AMS radiocarbon dating of early human occupation 50,000 years ago in Southwestern Australia. (Turney, C.S.M.; Bird, M.I.; Fifield, L.K.; Roberts, R.G.; Smith, M.; Dortch, C.E.; Grun, R.; Lawson, E.; Ayliffe, L.K.; Miller, G.H.; Dortch, J.; Cresswell, R.G. Quatern. Res. 55 (2001) 3-13). |
| 2001 | Implementation of ion mobility spectrometry (IMS) within the Australian Customs Service for narcotic detection. (Webster, J. Int. J. Ion Mob. Spectrom. 4 (2001) 65-66). |
| 2001 | Selby, Mlynski and Guilhaus complete construction of compact MALDI reflecting orthogonal-acceleration time-of-flight mass spectrometer at UNSW. (Selby, D.S.; Mlynski, V.; Guilhaus, M. Int. J. Mass Spectrom. 210/211 (2001) 89-100). |
| 2003 | Special honour issue of the Australian Journal of Chemistry for John Bowie (Aust. J. Chem.56(5) (2003)). |
| 2006 | John H. Bowie receives a Thomson Gold Medal from the International Mass Spectrometry Foundation recognising "his considerable contributions to fundamental organic mass spectrometry, particularly those involving the study of negative ions". |