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Biological Spectroscopy
Stephen Bingham
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University of Bath
Department of Physics
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Publications

Journal Articles

  1. Monkara, F., S.J. Bingham, F.H.A. Kadir, A.G. McEwan, A.J. Thomson, A.G.P. Thurgood, and G.R. Moore, Spectroscopic studies of Rhodobacter capsulatus cytochrome c' in the isolated state and in intact cells. Biochimica et Biophysica Acta - Bioenergetics, 1992. 1100(2): p. 184-188. Article
  2. Bingham, S.J., D. Suter, A. Schweiger, and A.J. Thomson, Optical detection of transition metal ion electron paramagnetic resonance by coherent Raman spectroscopy. Chem. Phys. Letters, 1997. 266: p. 543-547. Article
  3. Bingham, S.J., B. Börger, D. Suter, and A.J. Thomson, The design and sensitivity of microwave frequency optical heterodyne receivers. Rev. Sci. Instrum., 1998. 69(9): p. 3403-3409. Article
  4. Neuhaus, R., M.J. Sellars, S.J. Bingham, and D. Suter, Breaking the Stokes-anti-Stokes symmetry in Raman heterodyne detection of magnetic-resonance transitions. Physical Review A, 1998. 58(6): p. 4961-4966. Article
  5. Borger, B., S.J. Bingham, J. Gutschank, M.O. Schweika, D. Suter, and A.J. Thomson, Optically detected electron paramagnetic resonance by microwave modulated magnetic circular dichroism. Journal of Chemical Physics, 1999. 111(18): p. 8565-8568. Article
  6. Bingham, S.J., B. Borger, J. Gutschank, D. Suter, and A.J. Thomson, Probing the electronic structure of transition metal ion centres in proteins by coherent Raman-detected electron paramagnetic resonance spectroscopy. Journal of Biological Inorganic Chemistry, 2000. 5(1): p. 30-35. Article
  7. Bingham, S.J., J. Gutschank, B. Borger, D. Suter, and A.J. Thomson, Magnetic circular dichroism anisotropy from coherent Raman detected electron paramagnetic resonance spectroscopy: Application to spin-1/2 transition metal ion centers in proteins. Journal of Chemical Physics, 2000. 113(10): p. 4331-4339. Article
  8. Borger, B., J. Gutschank, D. Suter, A.J. Thomson, and S.J. Bingham, Deconvolution and assignment of different optical transitions of the blue copper protein azurin from optically detected electron paramagnetic resonance spectroscopy. Journal of the American Chemical Society, 2001. 123(10): p. 2334-2339. Article
  9. Thomson, A.J., B. Boerger-Enkisch, D. Suter, and S.J. Bingham, Optical detection of microwave resonance (ODMR) - applications to metalloproteins. Journal of Inorganic Biochemistry, 2001. 86(1): p. 14. Article
  10. Bingham, S.J., J.J. Davies, and D. Wolverson, High-resolution optical detection of electron spin resonance in epitaxial semiconductor layers by coherent Raman spectroscopy. Physical Review B, 2002. 65(15): art. no.-155301. Article
  11. Bingham, S.J., D. Wolverson, and J.J. Davies, Ultra-high resolution studies of the strain dependence of electron g-values in ZnSe. Physica Status Solidi B, 2002. 229(2): p. 633-636. Article
  12. Davies, J.J., G.N. Aliev, S.J. Bingham, D. Wolverson, S. Stepanov, B. Yavich, and W.N. Wang, Optically detected magnetic resonance of paired defects in as- grown magnesium-doped GaN. Physical Review B, 2003. 67(3): art. no.-035203. Article
  13. Aliev, G.N., S.J. Bingham, D. Wolverson, J.J. Davies, H. Makino, and T. Yao, Optically-detected magnetic resonance studies of ZnO:N. Physica Status Solidi C, 2004. 1(4): p. 876 - 9. Article
  14. Aliev, G.N., S.J. Bingham, D. Wolverson, J.J. Davies, H. Makino, H.J. Ko, and T. Yao, Optically detected magnetic resonance of epitaxial nitrogen- doped ZnO. Physical Review B, 2004. 70(11): art. no.-115206. Article
  15. Aliev, G.N., S. Zeng, J. J. Davies, D. Wolverson, S. J. Bingham, P. J. Parbrook and T. Wang, Nature of acceptor states in magnesium-doped gallium nitride, Physical Review B, 2005. 71: art. no.-195204. Article
  16. Smith, L.C., S.J. Bingham, J.J. Davies, and D. Wolverson, Electron paramagnetic resonance of manganese ions in CdTe detected by coherent Raman spectroscopy. Applied Physics Letters, 2005. 87(20): art. no. 202101. Article
  17. Zeng, S., G.N. Aliev, D. Wolverson, J.J. Davies, S.J. Bingham, D.A. Abdulmalik, P.G. Coleman, T. Wang, and P.J. Parbrook, Origin of the red luminescence in Mg-doped GaN. Applied Physics Letters, 2006. 89(2): art. no. 022107. Article
  18. Zeng, S., L.C. Smith, J.J. Davies, D. Wolverson, S.J. Bingham, and G.N. Aliev, Optically detected electron spin-flip resonance in CdMnTe. Physica Status Solidi B-Basic Solid State Physics, 2006. 243(4): p. 887-891. Article
  19. Smith, L.C., D. Wolverson, S.J. Bingham, and J.J. Davies, Electron paramagnetic resonance of Mn2+ ions in CdTe detected by coherent Raman spectroscopy. Physica Status Solidi B-Basic Solid State Physics, 2006. 243(4): p. 892-896. Article
  20. Wolverson, D., L.C. Smith, S.J. Bingham, and J.J. Davies, Excitonic states of ZnSe detected by microwave-modulated reflectivity. Physica Status Solidi B-Basic Solid State Physics, 2006. 243(4): p. 897-901. Article
  21. Aliev, G.N., S. Zeng, S.J. Bingham, D. Wolverson, J.J. Davies, T. Wang, and P.J. Parbrook, Optically-detected magnetic resonance of spin-paired complexes emitting in the 2.3 eV spectral region in Mg-doped GaN. Physical Review B, 2006. 74(23): art. no. 235205. Article
  22. Bingham, S.J., T. Rasmussen, J. Farrar, D. Wolverson, and A.J. Thomson, Magnetic circular dichroism anisotropy of the CuA centre of nitrous oxide reductase from coherent Raman detected electron spin resonance spectroscopy. Molecular Physics, 2007. 105(15-16): p.2169. Article
  23. Smith, L. C., D. Wolverson, S. J. Bingham, J. J. Davies, M. Lentze, J. Geurts, M. Wiater, G. Karczewski and T. Wojtowicz, Coherent Raman Spectroscopy of Cd1-xMnxTe Quantum Wells. Journal of the Korean Physical Society, 2008. 53(5): 2787-2791.
  24. Bingham, S. J., D. Wolverson and A. J. Thomson, Coherent Raman detected electron spin resonance spectroscopy of metalloproteins: linking electron spin resonance and magnetic circular dichroism. Biochemical Society Transactions, 2008. 36: 1187-1190. Article

Patent applications

  1. Electron Spin Resonance Apparatus and Method, WO/2008/035068, 2008.

Presentations

  1. Optical detection of transition metal ion EPR by coherent Raman spectroscopy: application to metalloproteins, Royal Society of Chemistry International ESR conference, University of York, April 1999.
  2. Optical detection of electron paramagnetic resonance by coherent Raman spectroscopy: Application to metallo-enzymes and solid state physics, Department of Physics, University of Southampton, January 2001.
  3. Coherent Raman detected electron spin resonance spectroscopy: A double resonance technique linking electrons spin resonance and magnetic circular dichroism, Royal Society of Chemistry International ESR conference, University of Oxford, March 2007. Slides (pdf)
  4. Electron spin resonance imaging: A functional imaging tool for biomedical science, BBSRC technology development research initiative grant holders' conference, University of Warwick, March 2008. (6 minute video summary)
  5. Coherent Raman detected electron spin resonance spectroscopy: A double resonance technique linking electrons spin resonance and magnetic circular dichroism, Biochemical Society Transition metals in biochemistry meeting, University of East Anglia, Norwich, June 2008. Slides (pdf)
  6. Optical detection of magnetic resonance by coherent Raman scattering: Applications in biology and solid-state physics, Department of Physics, University of Exeter, October 2008. Slides (pdf)

Posters

  1. Optical detection of transition metal ion EPR by coherent Raman spectroscopy: application to metalloproteins, Royal Society of Chemistry International ESR conference, University of Bath, March 2005. Poster
  2. Coherent Raman detected electron spin resonance spectroscopy: A double resonance technique linking electrons spin resonance and magnetic circular dichroism, Biochemical society/IBDG Transition metals in biochemistry meeting, University of East Anglia, June 2008. Poster
  3. Natural linewidth limited magnetic resolution in metalloprotein Magnetic Circular Dichroism measurements by resonant microwave excitation, Royal Society of Chemistry Faraday Discussion 148: Spectroscopy, Theory and Mechanism in Bioinorganic Chemistry, Nottingham, July 2010. Poster

Press releases

  1. Research could lead to dramatic improvement in scanning for serious diseases. University of Bath. 27/9/06.
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