J. A. Panitz

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J. A. Panitz is the co-inventor of the Atom-Probe Field Ion Microscope[1] and the inventor of the 10-cm atom-probe[2] which was the precursor of his Imaging Atom-Probe mass spectrometer[3][4]; the LIFE detector[5] a liquid field-emission chemical sensor; Isothermal Ramped Field-Desorption Spectroscopy[6] the electric field analog of Thermal Desorption Spectroscopy; Field-Ion tomography[7]for non destructive imaging of biological molecules in high electric fields, and the PhotoFEEM technique[8] for nanoscale mapping of work function variations on a metal surface. J. A. Panitz discovered the field-adsorption phenomenon[9]. His research interests focus on the binding of biological molecules to metals and semiconductors in aqueous environments; field-ionization; field electron emission tunneling phenomena, and field ionization of liquid metals.

[edit] Website

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[edit] References

  1. ^ Müller, Erwin W.; John A. Panitz, S. Brooks McLane (1968). "The Atom-Probe Field Ion Microscope". Review of Scientific Instruments 39 (1): 83-86. DOI:10.1063/1.1683116. ISSN 0034-6748. 
  2. ^ Panitz, John A. (1973). "The 10 cm Atom Probe". Review of Scientific Instruments 44 (8): 1034-1038. DOI:10.1063/1.1686295. ISSN 0034-6748. 
  3. ^ Panitz, John A. (1974). "The Crystallographic Distribution of Field-Desorbed Species". Journal of Vacuum Science and Technology 11 (1): 207-210. DOI:10.1116/1.1318570. ISSN 0022-5355. 
  4. ^ Panitz, John A. (1978). "Imaging Atom-Probe Mass Spectroscopy". Progress in Surface Science 8 (6): 219-263. DOI:10.1016/0079-6816(78)90002-3. ISSN 0079-6816. 
  5. ^ Panitz, John A. (1978). "Biomolecular adsorption and the LIFE detector". Journal de Physique 45 (C9): 285-291. 
  6. ^ Panitz, John A. (1999). "Isothermal ramped field-desorption of benzene from tungsten". Journal of Vacuum Science and Technology 16 (3): 868-874. DOI:10.1116/1.570103. ISSN 0022-5355. 
  7. ^ Panitz, John A. (1986). "Field-Ion Tomography", in A. D. Romig and W. F. Chambers: Microbeam Analysis-1986. San Francisco, CA: San Francisco Press, 196-198. 
  8. ^ Condon, G. R.; John A. Panitz (1998). "Nanoscale imaging of the electronic tunneling barrier at a metal surface". Journal of Vacuum Science and Technology B 16 (1): 23-29. DOI:10.1116/1.589787. ISSN 1071-1023. 
  9. ^ Müller, Erwin W.; S. Brooks McLane, John A. Panitz (1969). "Field adsorption and desorption of helium and neon". Surface Science 17 (2): 430-438. DOI:10.1016/0039-6028(69)90110-1. ISSN 0039-6028. 
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