References

1. T. K. Shokhireva, A. Weichsel, K. M. Smith, R. E. Berry, N. V. Shokhirev, C. A. Balfour, H. J. Zhang, W. R. Montfort, F. A. Walker, Inorg. Chem., 46, No 6(2007)2041-2056. Assignment of the ferriheme resonances of the low-spin complexes of nitrophorins 1 and 4 by H-1 and C-13 NMR spectroscopy: Comparison to structural data obtained from X-ray crystallography. 
2. L. A. Yatsunyk, N.V.Shokhirev, F.A.Walker, Inorg. Chem., 44, No 8(2005)2848-2866. Magnetic Resonance Spectroscopic Investigations of the Electronic Ground and Excited States in Strongly Non-Planar Iron(III) Dodecasubstituted Porphyrins.(*)
3. C. T. Watson, S. Cai, N. V. Shokhirev, F. A. Walker, Inorg. Chem., 44, No 21(2005)7468 -7484. NMR and EPR Studies of Low-Spin Fe(III) Complexes of meso-Tetra-(2,6-Disubstituted Phenyl)Porphyrinates Complexed to Imidazoles and Pyridines of Widely Differing Basicities.(*)
4. F. A. Walker, T.Kh.Shokhireva, N. V. Shokhirev, J. Inorg. Biochem., 96(2003)25. NMR Investigations of the Four Nitrophorins from the Blood-Sucking Insect Rhodnius prolixus.(*)
5. T. Kh. Shokhireva, N. V. Shokhirev, F. A. Walker, Biochemistry, 42(2003)679-693. Assignment of Heme Resonances and Determination of the Electronic Structures of High- and Low-Spin Nitrophorin 2 by ¹H and ¹³C NMR Spectroscopy: An Explanation of the Order of Heme Methyl Resonances in High-Spin Ferriheme Proteins.(*)
6. M. J. M. Nesset, S. Cai, T. K. Shokhireva, N. V. Shokhirev, S. E. Jacobson, K. Jayaraj, A. Gold, F. A. Walker, Inorg. Chem., 39(2000)532-540. Electronic effects in transition metal porphyrins. 10. Effect of ortho substituents on the temperature dependence of the NMR spectra of a series of spin-admixed perchloratoiron(III) tetrakis(2,6-or 2,4,6-phenyl substituted)porphyrinates.(*)
7. N. V. Shokhirev, F. A. Walker, J. Biol. Inorg. Chem., 3, No 6(1998)581-594. The effect of axial ligand plane orientation on the contact and pseudocontact shifts of low-spin ferriheme proteins.(*)
8. L. Banci, I. Bertini, C. Luchinat, R. Pierattelli, N.V. Shokhirev, F.A. Walker, J. Am. Chem. Soc., 120, No 18(1998)8472-8479. Analysis of the temperature dependence of the ¹H and ¹³C isotropic shifts of horse heart ferricytochrome c: explanation of Curie and anti-Curie temperature dependence and nonlinear pseudocontact shifts in a two-level framework.(*)
9. N. V. Shokhirev, F. A. Walker, J. Am. Chem. Soc., 120(1998)981-990. Co- and counter-rotation of magnetic axes and axial ligands in low- spin Ferriheme Systems.(*)
10. A. I. Burshtein, N. V. Shokhirev, J. Phys. Chem. A, 101, No 1(1997)25-30. Viscosity and free energy dependence of photochemical charge separation.(*)
11. J. H. Bowen, N. V. Shokhirev, A. M. Raitsimring, D. H. Buttlaire, F.A.Walker, J. Phys. Chem. B, 101(1997)8683-8691. EPR Studies of the Dynamics of Rotation of Dioxigen in Model Cobalt(II) Hemes and Cobalt-Containing Hybrid Hemoglobins.(*)
12. W. Naumann, N. V. Shokhirev, A. Szabo, Phys. Rev. Lett., 79(1997)3074-3077. The exact asymptoyic relaxation of pseudo-first order reversible reactions.(*)
13. N. V. Shokhirev, T. Kh. Shokhireva, J. R. Polam, C. T. Watson, K. Raffii, U. Simonis, F. A. Walker, J. Phys. Chem. A, 101(1997)2778-2786. 2-D NMR Investigations of axial ligands in six-coordinate low-spin Iron(III) a nd Cobalt (III) tetraphenylporphyrinates having 2,6-phenyl substituents: Measurement of rate constant from ¹H EXSY cross-peak intensities.(*)
14. T. H. Lay, L. N. Krasnoperov, C. A. Venanzi, J. W. Bozzelli, N. V. Shokhirev, J. Phys. Chem., 100(1996)8240-8249. Ab initio Study of a-Chlorinated Ethyl Hydroperoxides, CH₃CH₂OOH, CH₃CHClOOH and CH₃CCl₂OOH: Conformational Analysis, Internal Rotation Barriers, Vibrational Frequencies, and Thermodynamic Properties.(*)
15. A. I. Kruppa, M. B. Taraban, N. V. Shokhirev, S. A. Svarovsky, T. V. Leshina, Chem. Phys. Lett., 258, No 1-2(1996)316-322. CIDNP: Calculation and experiment.(*)
16. F. A. Walker, H. Nasri, I. Turowska-Tyrk, K. Mohanrao, C. T. Watson, N. V. Shokhirev, P. G. Debrunner, W. R. Scheidt, J. Am. Chem. Soc., 118(1996)12109-12118. Ligands in Iron(III) Porphyrinates. Characterezation of Low-Spin Bis(t-Butylisocyanide)(porphyrinato)iron(III) Complexes Having (d_xzd_yz)⁴(d_xy)¹ Ground State.(*)
17. T. Vesala, T. Ahonen, P. Hari, E. B. Krissinel', N. V. Shokhirev, New Phytol., 132, No 2(1996)235-245. Analysis of stomatal CO₂ uptake by three-dimensional cylindrically symmetric model.
18. M. J. M. Nesset, N. V. Shokhirev, P. D. Enemark, S. E. Jacobson, F.A. Walker, Inorg. Chem., 35(1996)5188-5200. Models of the Cytochromes. Redox properties and thermodynamic stabilities of Complexes of"Hindered"Iron(III) and Iron(II) Tetraphenylporphyrinates with Substituted Pyridines and Imidazoles.(*)
19. P. A. Frantsuzov, N. V. Shokhirev, A. A. Zharikov, Chem. Phys. Lett., 236, No 1-2(1995)30-36. Nonstationary kinetics of noncontact electron transfer.(*)
20. V. V. Korolev, V. V. Bolotsky, N. V. Shokhirev, E. B. Krissinel', V. A. Bagryansky, N. M. Bazhin, Chem. Phys., 196, No 1-2(1995)317-325. Diffusion of molecular oxigen in glassy matrices, studied by luminescence quenching.(*)
21. N. V. Shokhirev, E. B. Krissinel', Chem. Phys. Lett., 236(1995)247-252. Simple analytical approach to the description of flash-CIDNP formation for Ion-Radicals.(*)
22. A. M. Raitsimring, P. Basu, N. V. Shokhirev, J. H. Enemark, Appl. Magn. Reson., 99(1995)173-192. EPR studies of weakly coupled oxomolybdenum (V) and low-spin iron (III) porphyrin centers.
23. P. Basu, N. V. Shokhirev, J. H. Enemark, F. A. Walker, J. Am. Chem. Soc., 117(1995)9042-9055. NMR studies of Electron spin relaxation, Magnetic anisotropy, hindered ligand rotation, Curie behavior and ligand exchange in some novel oxomolybdemum(V)/iron(III) porphyrinate complexes.(*)
24. N. V. Shokhirev, F. A. Walker, J. Phys. Chem., 99(1995)17795-17804. Analysis of the temperature dependence of the ¹H contact shifts in low-spin Fe(III) model hemes and heme proteins: explanation of"Curie"and"anti-Curie"behavior within the same molecule.(*)
25. T. Ahonen, M. Kulmala, P. Hari, T. Pohja, E. Krissinel', N. V. Shokhirev, A. A. Luzhnikov, Atmos. Env., 29, No 7(1995)825-836. Experimental and numerical analysis of stomatal absorption of sulfur dioxide and transpiration by pine needles.
26. P. Basu, N. V. Shokhirev, J. H. Enemark, F. A. Walker, J. Inorg. Biochem., 59, No 2-3(1995)479. NMR studies of electron spin relaxation, magnetic anisotropy, hindered ligand rotation and curie behavior in some novel oxomolybdenum(V)/iron(III) porphyrinate complexes.(*)
27. H. Tan, U. Simonis, N. V. Shokhirev, F. A. Walker, J. Am. Chem. Soc., 116, No 13(1994)5784-5790. Substituent effects on the orbital preferred for electron spin delocalization in two paramagnetic low-spin iron(III) porphyrins: mapping the spin density distribution at the pyrrole positions by ¹H COSY and NOESY techniques.(*)
28. N. V. Shokhirev, A. A. Zharikov, E. B. Krissinel', J. Chem. Phys., 99, No 4(1993)2643-2653. Analytical treatment of magnetic field effects in contact geminate recombination of radical ion pairs in solutions of arbitrary polarity.(*)
29. A. I. Kalugin, V. V. Konovalov, N. V. Shokhirev, A. M. Raitsimring, J. Electroanalytical Chem., 359(1993)63-80. Photoelectron injection into diluted electrolyte solutions. I. Methodology.
30. A. A. Zharikov, N. V. Shokhirev, Z. Phys. Chem., 117(1992)37-61. The influence of solvent polarity and viscosity on magnetic effects in geminate recombination. Balance approximation.
31. A. I. Burshtein, A. A. Zharikov,N. V. Shokhirev, J. Chem. Phys., 96(1992)1951-1956. Static and contact electron transfer within photoinduced geminate ion pairs.(*)
32. A. A. Zharikov, N. V. Shokhirev, Chem. Phys. Lett., 190, No 5(1992)423-429. Upper and lower bounds for the rate constant of bimolecular reactions: Integral approximation method.(*)
33. A. A. Zharikov, N. V. Shokhirev, Chem. Phys. Lett., 186(1991)253-263. Analytical treatment of the contact geminate charge recombination in solution of arbitrary polarity.(*)
34. A. I. Burshtein, A. A. Zharikov, N. V. Shokhirev, O. B. Spirina, E. B. Krissinel', J. Chem. Phys., 95(1991)8013-8021. Kinetic and diffusional control of geminate recombination.(*)
35. O. B. Spirina, N. V. Shokhirev, Theor. Exper. Chem., 27(1991)499-506. A semiempirical method for the calculation of potential surface of reaction CH₃ + CH₄ -> CH₄ + CH₃.
36. E. C. Korolenko, N. V. Shokhirev, Prog. Colloid Polym. Sci., 84(1991)112-114. Spin-controlled reactions on the micellar surface.
37. N. V. Shokhirev, E. C. Korolenko, M. B. Taraban, T. V. Leshina, Chem. Phys., 154(1991)237-244. Anomalous magnetic effects. The role of association in the recombination of singlet radical pairs in liquids.(*)
38. N. V. Shokhirev, A. I. Burshtein, Prog. Colloid Polym. Sci., 84(1991)285-287. The Change in Density and Pressure Tensor at the Liquid-Vapor Interface.
39. V. S. Bashurova, K. P. Koutsenogii, A. Yu. Pusep, N. V. Shokhirev, J. Aerosol Sci., 22(1991)373-388. Determination of atmospheric aerosol size distribution functions from screen diffusion battery data: Mathematical aspects.(*)
40. A. I. Kalugin, V. V. Konovalov, E. B. Krissinel', A. M. Raitsimring, N. V. Shokhirev, Elektrokhimiya, 26(1990)635-642. Photoinjection of electrons in diluted solutions of electrolytes.
41. E. B. Krissinel', N. V. Shokhirev, Chem. Phys., 143, No 1(1990)67-74. The influence of Coulomb and exchange interactions and of reactivity on recombination kinetics and CIDEP of geminate radical pairs.(*)
42. W. Stiller, R. Schmidt, E. Müller, N. V. Shokhirev, Z. phys. Chem. Neue Folge, 162(1989)119-123. Some remarks on Arrhenius activation energies.
43. N. V. Shokhirev, S. F. Bychkov, A. M. Raitsimring, High Energy Chem., 23(1989)27-32. The recombination of the charges in the many-particle clusters.
44. E. C. Korolenko, N. V. Shokhirev, K. M. Salikhov, R. Z. Sagdeev, Chem. Phys., 131(1989)315-324. Low-field CIDNP manifestation of the minor recombination channel via the triplet state of radical pairs.(*)
45. Yu. A. Rosenberg, N. V. Shokhirev, Sov. Phys. Crystallog., 34(1989)936-937. Forbidden Bragg reflections and the spatial electron distribution in crystals of diamond.
46. E. B. Krissinel', N. V. Shokhirev, K. M. Salikhov, Chem. Phys., 137(1989)207-219. The influence of singlet-triplet transitions on non-stationary kinetics of radical recombination in homogeneous solutions. 2.Numerical case studies.(*)
47. N. V. Shokhirev, E. B. Krissinel', K. M. Salikhov, Chem. Phys., 137(1989)197-205. The influence of singlet-triplet transitions on non-stationary kinetics of radical recombination in homogeneous solutions. 1.General theory and analytical model treatment.(*)
48. W. Naumann, N. V. Shokhirev, A. B. Doktorov, Chem. Phys., 119(1988)223-240. To the effect of time dependent kinematic and reactive properties of reactants on their bimolecular reactions.(*)
49. S. F. Bychkov, N. V. Shokhirev, A. M. Raitsimring, Latvijas Zinatnu Akad.Vestis.Fiz.Teh.Ser., , No 1(1988)89-97. Charge recombination in clusters.
50. N. V. Shokhirev, E. C. Korolenko, Khim. Fiz., 79(1988)1629-1636. The influence of the extent of chemical transformation region on magnetic and spin effects in ion-radical pair recombination.
51. N. V. Shokhirev, K. M. Salikhov, Theor. Exper. Chem., 23(1987)407-414,. Analysis of influence of spin relaxation on form of NMR spectra in liquids with radiofrequency pumping.
52. A. I. Kruppa, T. V. Leshina, R. Z. Sagdeev, E. C. Korolenko, N. V. Shokhirev, Chem. Phys., 114(1987)95-101. Low-field CIDNP study of photoinduced electron transfer reactions.(*)
53. Yu. A. Rosenberg, L. I. Kleschinsky, N. V. Shokhirev, A. I. Kolosovskii, V. I. Sizykh, Yu. M. Rotner, Sov. Phys. Solid State, 29(1987)710-711. Temperature dependence of the forbidden Bragg 222 reflection in diamond and Debye-Waller factor of valence electrons.
54. N. V. Shokhirev, Yu. A. Rosenberg, L. I. Kleschinsky, L. G. Andrievskaya, J. Struct. Chem., 28(1987)131-133. The use of bond functions for calculating the structure factors of diamond-like crystals.
55. E. C. Korolenko, N. V. Shokhirev, T. V. Leshina, Chem. Phys., 116(1987)45-52. CIDNP of radical ion pairs in arbitrary magnetic fields.(*)
56. Yu. A. Rosenberg, L. I. Kleschinsky, N. V. Shokhirev, L. G. Andrievska, Sov. Phys. Solid State, 28(1986)172-173. Use of forbidden Bragg reflections in determination of the spatial distribution of electrons in V₃Si below T_c.
57. A. Yu. Pusep, N. V. Shokhirev, Colloid J., 48(1986)108-113. Determination of particle-size distribution functions in aerosols from measurements by diffusion batteries.
58. N. V. Shokhirev, A. M. Raitsimring, L. A. Rapatsky, Chem. Phys., 105, No 1-2(1986)117-126. Electron-ion pair distance distribution functions reconstructed from radiation-chemical and photochemical experiments.(*)
59. Yu. A. Rosenberg, I. L. Lunev, V. M. Kiselev, L. I. Kleshchinskii, N. V. Shokhirev, L. G. Bochkareva, T. I. Pron'kina, Sov. Phys. Crystallog., 30(1985)691-692. X-ray diffraction monitoring of the stoichiometry of tin dioxide.
60. N. V. Shokhirev, V. V. Konovalov, A. Yu. Pusep, A. M. Raitsimring, Theor. Exper. Chem., 20(1984)316-321. Recovering the e-aq distribution in Photoemission.
61. A. Yu. Pusep, N. V. Shokhirev, Opt. Spectrosc., 57(1984)482-486. Application of a singular expansion for analyzing spectroscopic inverse problems.
62. Yu. A. Rosenberg, A. I. Kolosovsky, V. M. Kiselev, I. L. Feldman, N. V. Shokhirev, L. I. Kleshinsky, Acta Crystallogr. A, 40s(1984)C-333. The spectral dependence of integrated reflecting powers of Bragg reflections in diamond structure crystals of different perfection. Communicated abstracts of XIII International Congress of International Union of Crystallography.
63. N. V. Shokhirev, Yu. A. Rosenberg, I. L. Lunev, L. G. Andrievskaya, L. I. Kleshinsky, Acta Crystallogr. A, 40s(1984)C-436. On the singular expansion method applied to the analysis of a diffraction line shape. Communicated abstracts of XIII International Congress of International Union of Crystallography.
64. Yu. A. Rosenberg, I. L. Lunev, V. M. Kiselev, L. G. Andrievskaya, N. V. Shokhirev, L. I. Kleshinsky, Acta Crystallogr. A, 40s(1984)C-205. On the control of stoichiometry in SnO₂ by means of anionic reflections. Communicated abstracts of XIII International Congress of International Union of Crystallography.
65. N. V. Shokhirev, P. V. Schastnev, Sov. J. Coord. Chem., 6(1980)580-584. Model study of ligand-substitution reactions in octahedral complexes of transition metals by the CNDO method.
66. N. V. Shokhirev, P. V. Schastnev, Sov. J. Coord. Chem., 5(1979)898-903. Ligand interaction in octahedral complexes. Model MO study.
67. A. I. Burshtein, N. V. Shokhirev, Russ. J. Phys. Chem., 53(1979)1389-1394. The change of density and pressure tensor at the liquid-vapor interface.
68. N. V. Shokhirev, P. V. Schastnev, J. Struct. Chem., 19(1978)191-198. Study by the CNDO method of the structure of the contributions to the s-bond energy for the case of the hydrate complexes of the metals of the first transition series.
69. N. V. Shokhirev, P. V. Schastnev, J. Struct. Chem., 19(1978)186-190. Study of the influence of the choice of transition metal parameters in CNDO method on the calculated physicochemical properties of their hydrate complexes.
70. A. I. Burshtein, L. S. Veksler, N. V. Shokhirev, J. Struct. Chem., 18(1978)384-398. Origin and position of the extremal values of the intermolecular interaction in simple liquids.
71. N. V. Shokhirev, P. V. Schastnev, J. Struct. Chem., 17(1976)530-533. Model CNDO study of the influence of the electronegativity of ligands on the delocalization of spin density in Ni(II) complexes

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