Difference: DnpNotes (3 vs. 4)

Following papers from special issue of Applied Magnetic Resonance - should be in LIBRARY with standard names.

1. Wenckebach, W.T. (2008). The Solid Effect. Applied Magnetic Resonance 34, 227-235.

2. van den Brandt, B., Hautle, P., Konter, J.A., and Kurdzesau, F. (2008). Dynamic Nuclear Polarization – from Polarized Targets to Metabolic Imaging. Applied Magnetic Resonance 34, 475-481.

3. Tyler, D.J., Schroeder, M.A., Cochlin, L.E., Clarke, K., and Radda, G.K. (2008). Application of Hyperpolarized Magnetic Resonance in the Study of Cardiac Metabolism. Applied Magnetic Resonance 34, 523-531.

4. Toda, M., Fujii, Y., Mitsudo, S., Ogawa, I., Idehara, T., Saito, T., Ito, H., and Chiba, M. (2008). X-band 1H-DNP Experiments and High-Power Subterahertz Wave Irradiation Effect on BDPA-Doped Toluene Solution. Applied Magnetic Resonance 34, 277-287.

5. Reynolds, S., and Patel, H. (2008). Monitoring the Solid-State Polarization of 13C, 15N, 2H, 29Si and 31P. Applied Magnetic Resonance 34, 495-508.

6. Reese, M., Lennartz, D., Marquardsen, T., Höfer, P., Tavernier, A., Carl, P., Schippmann, T., Bennati, M., Carlomagno, T., Engelke, F., and Griesinger, C. (2008). Construction of a Liquid-State NMR DNP Shuttle Spectrometer: First Experimental Results and Evaluation of Optimal Performance Characteristics. Applied Magnetic Resonance 34, 301-311.

7. Ramanathan, C. (2008). Dynamic Nuclear Polarization and Spin Diffusion in Nonconducting Solids. Applied Magnetic Resonance 34, 409-421.

8. Prisner, T., and Kockenberger, W. (2008). Dynamic nuclear polarization: New experimental and methodology approaches and applications in physics, chemistry, biology and medicine. Applied Magnetic Resonance 34, 213-218.

9. Prandolini, M.J., Denysenkov, V.P., Gafurov, M., Lyubenova, S., Endeward, B., Bennati, M., and Prisner, T.F. (2008). First DNP Results from a Liquid Water-TEMPOL Sample at 400 MHz and 260 GHz. Applied Magnetic Resonance 34, 399-407.

10. Pomplun, N., Heitmann, B., Khaneja, N., and Glaser, S.J. (2008). Optimization of Electron–Nuclear Polarization Transfer. Applied Magnetic Resonance 34, 331-346.

11. Nelson, S.J., Vigneron, D., Kurhanewicz, J., Chen, A., Bok, R., and Hurd, R. (2008). DNP-Hyperpolarized 13C Magnetic Resonance Metabolic Imaging for Cancer Applications. Applied Magnetic Resonance 34, 533-544.

12. Münnemann, K., Bauer, C., Schmiedeskamp, J., Spiess, H.W., Schreiber, W.G., and Hinderberger, D. (2008). A Mobile DNP Polarizer for Clinical Applications. Applied Magnetic Resonance 34, 321-330.

13. Morley, G.W., Porfyrakis, K., Ardavan, A., and van Tol, J. (2008). Dynamic Nuclear Polarization with Simultaneous Excitation of Electronic and Nuclear Transitions. Applied Magnetic Resonance 34, 347-353.

14. Miesel, K., Ivanov, K.L., Köchling, T., Yurkovskaya, A.V., and Vieth, H.M. (2008). Field-Cycling Effects on Dynamic Nuclear Polarization. Applied Magnetic Resonance 34, 423-437.

15. Luchinat, C., and Parigi, G. (2008). Nuclear Relaxometry Helps Designing Systems for Solution DNP on Proteins. Applied Magnetic Resonance 34, 379-392.

16. Idehara, T., Saito, T., Ogawa, I., Mitsudo, S., Tatematsu, Y., La, A., Mori, H., and Kobayashi, S. (2008). Development of Terahertz FU CW Gyrotron Series for DNP. Applied Magnetic Resonance 34, 265-275.

17. Höfer, P., Carl, P., Guthausen, G., Prisner, T., Reese, M., Carlomagno, T., Griesinger, C., and Bennati, M. (2008). Studies of Dynamic Nuclear Polarization with Nitroxides in Aqueous Solution. Applied Magnetic Resonance 34, 393-398.

18. Heckmann, J., Hess, C., Meyer, W., Radtke, E., Reicherz, G., and Schiemann, M. (2008). Recent Progress in the Dynamic Nuclear Polarization of Solid Deuterated Butanol Targets. Applied Magnetic Resonance 34, 461-473.

19. Han, S., McCarney^?, E.R., and Armstrong, B.D. (2008). Dynamic Nuclear Polarization Studies of Local Water Dynamics in Soft Molecular Assemblies at 9.8 GHz. Applied Magnetic Resonance 34, 439-451.

20. Granwehr, J., and Köckenberger, W. (2008). Multidimensional Low-Power Pulse EPR under DNP Conditions. Applied Magnetic Resonance 34, 355-378.

21. Goldman, M. (2008). Overview of Spin Temperature, Thermal Mixing and Dynamic Nuclear Polarization. Applied Magnetic Resonance 34, 219-226.

22. Emwas, A.H., Saunders, M., Ludwig, C., and Günther, U.L. (2008). Determinants for Optimal Enhancement in Ex Situ DNP Experiments. Applied Magnetic Resonance 34, 483-494.

23. Denysenkov, V.P., Prandolini, M.J., Krahn, A., Gafurov, M., Endeward, B., and Prisner, T.F. (2008). High-Field DNP Spectrometer for Liquids. Applied Magnetic Resonance 34, 289-299.

24. Day, I.J., Mitchell, J.C., Snowden, M.J., and Davis, A.L. (2008). Investigation of the Potential of the Dissolution Dynamic Nuclear Polarization Method for General Sensitivity Enhancement in Small-Molecule NMR Spectroscopy. Applied Magnetic Resonance 34, 453-460.

25. Comment, A., van den Brandt, B., Uffmann, K., Kurdzesau, F., Jannin, S., Konter, J.A., Hautle, P., Wenckebach, W.T., Gruetter, R., and van der Klink, J.J. (2008). Principles of Operation of a DNP Prepolarizer Coupled to a Rodent MRI Scanner. Applied Magnetic Resonance 34, 313-319.

26. Barnes, A.B., Paepe, G.D., van der Wel, P.C., Hu, K.N., Joo, C.G., Bajaj, V.S., Mak-Jurkauskas, M.L., Sirigiri, J.R., Herzfeld, J., Temkin, R.J., and Griffin, R.G. (2008). High-Field Dynamic Nuclear Polarization for Solid and Solution Biological NMR. Appl Magn Reson 34, 237-263.

27. Barnes, A.B., De Paepe, G., van der Wel, P.C.A., Hu, K.N., Joo, C.G., Bajaj, V.S., Mak-Jurkauskas, M.L., Sirigiri, J.R., Herzfeld, J., Temkin, R.J., and Griffin, R.G. (2008). High-field dynamic nuclear polarization for solid and solution biological NMR. Applied Magnetic Resonance 34, 237-263.

28. Ardenkjaer-Larsen, J.H., Macholl, S., and Jóhannesson, H. (2008). Dynamic Nuclear Polarization with Trityls at 1.2 K. Applied Magnetic Resonance 34, 509-522.