Joseph E. Sabol, Ph.D. - Refereed Publications

ORCID

14. Dr. E. G. (Gerry) Meyer,
Catalysis Today, Volume 374, 2021,
Pages 1-3,
ISSN 0920-5861,
Guest Editors: William Carroll, Jingbo L. Liu, Joseph Sabol

Dr. E. G. (Gerry) Meyer

13. The effect of doping on global lattice properties of magnetite Fe3−xMxO4, (M = Zn, Ti and Al). Z. Kakol, D. Owoc, J. Przewoźnik, M. Sikora, C. Kapusta, D. Zajac, A. Kozlowski, J.E. Sabol, J.M. Honig. Journal of Solid State Chemistry 192 120–126 (2012).  http://dx.doi.org/10.1016/j.jssc.2012.04.001

12. Magnetic AC susceptibility of stoichiometric and low zinc doped magnetite single crystals. M. Balanda, A. Wiechec, D. Kim, Z. Kakol, A. Kozlowski, P. Niedziela, J. Sabol, Z. Tarnawski and J.M. Honig. European Physical Journal: Solid and Condensed State Physics 43B, 201 (2005). 
http://link.springer.com/article/10.1140/epjb/e2005-00043-5

11. Magnetic AC susceptibility of stoichiometric and low zinc doped magnetite single crystals. M. Balanda, A. Wiechec, D. Kim, Z. Kakol, A. Kozlowski, P. Niedziela, J. Sabol, Z. Tarnawski, J. M. Honig, Physics of Condensed Matter 12/2004; 43(2):201-212. 

10. Activity of HF solutions and particle removal using HF solutions. S. Nelson, J. Sabol, and K. Christenson. Proceedings of the Electrochemical Society PV 2001-26, 164 (2001).

9. Powder neutron diffraction studies of Zn-doped magnetite. A. Kozlowski, Z. Kakol, R. Zalecki, K. S. Knight, J. Sabol, and J. M. Honig. Journal of Physics: Condensed Matter 11, 2749 (04/1999). DOI:10.1088/0953-8984/11/13/011

8. Influence of titanium doping on the magnetocrystalline anisotropy of magnetite. Z. Kakol, J. Sabol, J. Stickler, A. Kozlowski, and J. M. Honig. Physical Review B49(18), 12767-12772 (06/1994).  DOI:10.1103/PhysRevB.49.12767

7. Cation Distribution in Fe3(1−δ)O4 and Fe3−xMxO4, M = Ti, Zn, Al. Z. Kakol, A. Kozlowski, J. Sabol, P. Metcalf, and J. M. Honig. Acta Physica Polonica A85, 223 (1994).

6. Electrical conduction in single-crystal Fe 3−yTiyO4 (0 , y , 0.9). A. Kozlowski, R. Rasmussen, J. Sabol, P. Metcalf, and J. M. Honig. Physical Review B48(4), 2057-2062 (08/1993).  DOI:10.1103/PhysRevB.48.2057 

5. Effect of low-level titanium(IV) doping on the resistivity of magnetite near the Verwey transition. Z. Kakol, J. Sabol, J. Stickler, and J. M. Honig. Physical Review B46(4), 1975-1978 (08/1992).  DOI:10.1103/PhysRevB.46.1975

4. Magnetic properties of titanomagnetites, Fe3−xTixO4 (0 , x , 1). Z. Kakol, J. Sabol, and J. M.  Honig. Journal of Applied Physics 69, 4822 (05/1991). DOI:10.1063/1.348242

3. Cation Distribution and Magnetic Properties of Titanomagnetites, Fe 3−xTixO4 (0 , x , 1). Z. Kakol, J. Sabol, and J. M. Honig, Physical Review B43(1), 649-654 (02/1991).

2. Photoionization of highly vibrationally excited ground electronic state azulene near the ionization threshold. Joseph E. Sabol, Robert W. Carr. Chemical Physics Letters 03/1988; 144: 401-406. DOI:10.1016/0009-2614(88)87137-9

1. Absolute fluorescence quantum yields by relative fluorescence and photoacoustic measurements of low level luminescence quenching. Joseph E. Sabol, Mark G. Rockley, Journal of Photochemistry and Photobiology A Chemistry 40(2-3), 245-257 (11/1987). DOI:10.1016/1010-6030(87)85004-9

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