ierc.scs.uiuc.edu
IERC Facilities
http://ierc.scs.uiuc.edu/pages/fac.html
160; . Currently, the instrumentation of the IERC. Is housed in laboratories at the Urbana-Champaign campus of the University of Illinois. The main IERC facilities are housed the basement of the Medical Sciences Building (MSB). Other facilities are housed in Noyes Laboratory (NL). IERC instrumentation located in MSB:. Bruker ElexSys E-580 FT-EPR X-band EPR spectrometer;. With both CW ENDOR. Varian E-line 12" Century Series X-band CW EPR. Varian E-line 15" Q-band CW EPR. With loop gap resonator and surf...
ierc.scs.uiuc.edu
users page
http://ierc.scs.uiuc.edu/pages/users.html
160; . University of Illinois on campus users:. EPR service is available at subsidized rates for on campus users. Users are expected to arrange for all supplies. Quartz EPR tubes can be ordered at the Chemistry glass shop. In Noyes Lab and liquid Helium is available from the Physics liquefier. In the NW corner of the 1st floor of Loomis Lab. Off campus, non-University of Illinois users:. EPR service is available for off-campus academic users. Users will be billed for supplies and instrument time.
ierc.med.uiuc.edu
IERC Facilities
http://ierc.med.uiuc.edu/pages/fac.html
160; . Currently, the instrumentation of the IERC. Is housed in laboratories at the Urbana-Champaign campus of the University of Illinois. The main IERC facilities are housed the basement of the Medical Sciences Building (MSB). Other facilities are housed in Noyes Laboratory (NL). IERC instrumentation located in MSB:. Bruker ElexSys E-580 FT-EPR X-band EPR spectrometer;. With both CW ENDOR. Varian E-line 12" Century Series X-band CW EPR. Varian E-line 15" Q-band CW EPR. With loop gap resonator and surf...
ierc.med.uiuc.edu
EPR
http://ierc.med.uiuc.edu/pages/epr.html
160; . The most commonly used EPR spectrometer is in the range of 9-10 GHz (X-band). However, advances in electronics have facilitated the development of spectrometers working at frequencies ranging from several hundred MHz to several hundred GHz. Currently maintains EPR spectrometers working at 1-2 GHz (L-band) and 2-4 GHz (S-band), 8-10 GHZ (X-Band), 35 Ghz (Q-band) and 95 GHz (W-band). Electron-nuclear double resonance, and S-band ESE. Weil and Bolton,. Abragam and Bleaney,. 160; . 2007 The Board o...
ierc.scs.uiuc.edu
Staff
http://ierc.scs.uiuc.edu/pages/staff.html
160; . Lab Manager: Prof. Mark J. Nilges. Visiting Professor from the Institute of Chemical Kinetics and Combustion, Novosibirsk: Rimma I. Samoilova. Samoilov@ns.kinetics.nsc.ru. Dr Amga. Baldansuren. 160; . 2007 The Board of Trustees at the University of Illinois. 160; .
ierc.scs.uiuc.edu
Links
http://ierc.scs.uiuc.edu/pages/links.html
160; . Some other EPR Sites:. National Biomedical EPR Center at Milwaukee. EPR Center for the Study of Viable Biological Systems, Dartmouth Medical School, NH. Very Low Frequency EPR Imaging for In Vivo Physiology, University of Chicago IL,. Very Low Frequency EPR Imaging for In Vivo Physiology, University of Denver, CO. ACERT-National Biomedical Center for Advanced ESR Technology. Cornell University, NY. ESR research group in Applied Electronics Division, Yamagata University. Some Useful EPR Tools:.
ierc.scs.uiuc.edu
ESEEM
http://ierc.scs.uiuc.edu/pages/eseem.html
160; . Odulation, and is an experimental magnetic resonance effect which can be observed in pulsed electron paramagnetic resonance experiments. Maintains pulsed EPR spectrometers operating at X-band and S-Band (2-4 GHz). The S-band instrument was designed and built in the late 1980's. Future plans call for the replacement of the S-band with a new system as well as the addition of a pulsed ENDOR system at 35 GHz (Q-band). Electron spin echo envelope modulation. Mims WB (1972) Envelope modulation in spin...
ierc.med.uiuc.edu
ENDOR
http://ierc.med.uiuc.edu/pages/endor.html
160; . ENDOR AT THE IERC. ENDOR (Electron-Nuclear DOuble Resonance) spectroscopy is an EMR technique that often is described as EPR-detected NMR. It is very useful for learning about the structure of paramagnetic molecules, as well as information about the distances and orientations of atoms surrounding paramagnetic centers (e.g. proteins and enzymes containing paramagnetic ions, and defects in solids). ENDOR makes use of the electron-nuclear hyperfine couplings ( I . A . S. J Am Chem. Soc. B Barquera,...
