Химия - Дулов, Александр Андреевич - Научная деятельность

28 февраля 2011


Оглавление:
1. Дулов, Александр Андреевич
2. Список песен
3. Научная деятельность

Александр Дулов работал в области гетерогенного катализа и химии полимеров и опубликовал более 80 научных работ.

Список научных трудов А. А. Дулова

1. Dulova, N.; Trapido, M.; Dulov, A. Catalytic degradation of picric acid by heterogeneous Fenton-based processes. Environmental Technology, 32, 439-446.

2. Dulov, A. A.; Koksharov, Yu. A.; Abramova, L. A.; Sherle, A. I. Electric and magnetic characteristics of metal-free polymers containing azaporphine macrocycles. Vysokomolekulyarnye Soedineniya, Ser. A i Ser. B, 50, 1506-1514.

3. Dulov, A. A.; Abramova, L. A.; Shcherbakova, I. M.; Sherle, A. I. Correlation of electric conductivity with the conjugation length and intermolecular barriers in polyazaporphine compounds: metal-containing complexes. Vysokomolekulyarnye Soedineniya, Ser. A i Ser. B, 48, 624-631.

4. Dulov, A. A.; Abramova, L. A.; Promyslova, V. V.; Sherle, A. I. Correlation of electric conductivity with the conjugation length and intermolecular barriers in polyazaporphine compounds: metal-free oligo- and polyphthalocyanines. Vysokomolekulyarnye Soedineniya, Ser. A i Ser. B, 47, 1822-1831.

5. Abramova, L. A.; Baranov, S. P.; Dulov, A. A. Modeling of surface CO oxidation using modified adsorption rules. Kinetics and Catalysis, 46, 96-99.

6. Abramova, L. A.; Baranov, S. P.; Dulov, A. A. A Model for the CO Oxidation Reaction over a Catalyst Surface with Microscopic Nonuniformities. Kinetics and Catalysis, 44, 862-864.

7. Abramova, L. A.; Baranov, S. P.; Dulov, A. A.; Vargaftic, M. N.; Moiseev, I. I. Giant clusters Pd561: charge distribution in the metal core and catalytic properties. Dokl. Akad. Nauk, 377, 344-347.

8. Dulov, A. A.; Abramova, L. A.; Morozova, O. S.; Zharov, A. A.; Fedorovskaya, E. A.; Slinkin, A. A. Transformation of nickel oxide crystals as a result of shear deformation under high pressure as a function of the history of the material. Khimiya v Interesakh Ustoichivogo Razvitiya, 6, 175-177.

9. Abramova, L. A.; Baranov, S. P.; Dulov, A. A. Lattice Monte Carlo simulations of the activity of supported liquid-phase catalysts. Part II. Nonuniform liquid distributions. Applied Catalysis, A: General, 193, 251-256.

10. Abramova, L. A.; Baranov, S. P.; Dulov, A. A. Lattice Monte Carlo simulations of the activity of supported liquid-phase catalysts. Part I. Uniform liquid distributions. Applied Catalysis, A: General, 193, 243-250.

11. Abramova, L. A.; Dulov, A. A.; Baranov, S. P. Dielectric constant and dielectric anomaly as a tool probing the phase-structure state of a material. J. Phys. Chem. Solids, 58, 441-447.

12. Abramova, L. A.; Baranov, S. P.; Dulov, A. A. Theoretical description of pores in modeling composite materials. Izv. Akad Nauk, Ser. Khim.,, 1349-1353.

13. Dulov, A. A.; Abramova, L. A.; Baranov, S. P. Phase analysis of the surface of catalysts and other dispersed materials using electric conductivity: TVE-curve method. Izv. Akad. Nauk, Ser. Khim.,, 271-297.

14. Abramova, L. A.; Baranov, S. P.; Dulov, A. A. Computer simulation analysis of conductivity of supported polydisperse systems. Izv. Akad Nauk, Ser. Khim.,, 1449-53.

15. Abramova, L. A.; Baranov, S. P.; Dulov, A. A. Probing the catalyst structure by electroconductivity using computer simulation analysis. Mendeleev Communications,, 150-1.

16. Dulov, A. A.; Abramova, L. A.; Sherle, A. I.; Epshtejn, V. R. Material for elements of electric switches. U.S.S.R., SU 1559992 A1 19931130 CAN 123:46208

17. Dulov, A. A.; Stasenko, E. M.; Abramova, L. A.; Akhverdiev, R. B.; Ashavskaya, G. A.; Golosman, E. Z.; Yakerson, V. I. The surface state of copper-nickel cement catalysts in the process of heavy residue cracking. Kinetics and Catalysis, 36, 260-3.

18. Abramova, L. A.; Baranov, S. P.; Dulov, A. A. Analysis of electroconductivity of binary solid-state catalysts via computer simulation. Izv. Akad Nauk, Ser. Khim.,, 1874-7.

19. Abramova, L. A.; Baranov, S. P.; Dulov, A. A. Computer models for electroconductivity of multicomponent solid-phase systems. Izv. Akad. Nauk, Ser. Khim.,, 1868-73.

20. Dulov, A. A.; Abramova, L. A.; Stasenko, E. M.; Efremov, V. N.; Tesakova, G. M.; Golosman, E. Z.; Yakerson, V. I. Surface solid-state interactions in copper-nickel-cement catalysts of oxygen hydrogenation. Izv. Akad Nauk, Ser. Khim.,, 1559-62.

21. Abramova, L. A.; Dulov, A. A.; Baranov, S. P. Computer simulations aimed at the analysis of the state and the evolution of multicomponent systems-II. Binary mechanical mixtures analyzed with conductivity. J. Phys, Chem. Solids, 55, 373-6.

22. Abramova, L. A.; Dulov, A. A.; Baranov, S. P. Computer simulations aimed at the analysis of the state and the evolution of multicomponent systems-I. Electroconductivity models for system monitoring. J. Phys. Chem. Solids, 55, 367-72.

23. Dulov, A. A.; Stasenko, E. M.; Abramova, L. A.; Karamanenko, S. V.; Mamaeva, I. A.; Golosman, E. Z.; Yakerson, V. I. Relations between activity and surface composition of the catalysts nickel oxide-cupric oxide-cement in hydrogenation of oxygen. Kinetika i Kataliz, 33, 1183-9.

24. Dulov, A. A.; Kuznetsov, B. N.; Stasenko, E. M.; Yakerson, V. I. Surface state of active and inactive cement-supported nickel catalysts. Kinetika i Kataliz, 34, 362-4.

25. Dulov, A. A.; Stasenko, E. M.; Efremov, V. N.; Tesakova, G. M.; Abramova, L. A.; Golosman, E. Z.; Yakerson, V. I. Reproducibility of phase composition of the surface in standard synthesis of cement-containing nickel-copper oxide catalysts. Kinetika i Kataliz, 33, 411-15.

26. Dulov, A. A.; Sherle, A. I.; Abramova, L. A.; Epshtein, V. R.; Shashkin, D. P. Electrical properties of metal-free and metal-containing oligo- and polyphthalocyanines of various structures. Vysokomolekulyarnye Soedineniya, Ser. A, 33, 380-5.

27. Dulov, A. A.; Abramova, L. A.; Gershenzon, I. Sh. Surface migration of a cupric oxide component and anionic stabilization of phases in the nickel monoxide-cupric oxide system from the data of the method of thermal vacuum electric conductivity curves. Kinetika i Kataliz, 31, 1510-14.

28. Dulov, A. A.; Abramova, L. A.; Goryashchenko, S. S.; Slovetskaya, K. I. State of active phase on the surface of manganese oxide/silica catalysts based on electric, chemisorption, and x-ray data. Development of strong oxide-oxide interaction. Kinetika i Kataliz, 31, 1258-64.

29. Ryashentseva, M. A.; Dulov, A. A.; Abramova, L. A.; Tkachenko, O. P.; Fomichev, V. V.; Vetrov, A. E. Hydrogenation activity and surface composition of perovskite-type mixed rhenium oxides. J. Catalysis, 125, 1-8.

30. Dulov, A. A.; Abramova, L. A.; Golosman, E. Z.; Yakerson, V. I. Interphase reactions in surface layers of nickel oxide-copper oxide-calcium aluminate cement catalysts according to the electrical conductivity method data. Kinetika i Kataliz, 31, 186-90.

31. Dulov, A. A.; Abramova, L. A.; Golosman, E. Z.; Efremov, V. N.; Yakerson, V. I. Surface phase interactions in a nickel oxide - copper oxide system according to the electric conductivity method data. Kinetika i Kataliz, 29, 749-52.

32. Slinkin, A. A.; Dulov, A. A.; Shpiro, E. S.; Ermolov, L. V.; Abramova, L. A.; Stakheev, A. Yu.; Kucherova, T. N. Study of the effect of strong interaction of metal with a support. II. Surface properties and catalytic activity of nickel/titania catalysts. Kinetika i Kataliz, 29, 694-700.

33. Dulov, A. A.; Abramova, L. A.; Golosman, E. I.; Yakerson, V. I. Interaction between components of a cupric oxide-zinc oxide binary catalyst under different genesis conditions according to the electric conductivity data. Vopr. Kinet. i Katal.: Mekhanizm i Kinet. Formir. Katalizatora, Ivanovo, 49-52.

34. Dulov, A. A.; Abramova, L. A.; Frankfurt, G. I.; Golosman, E. Z.; Lapidus, A. L.; Sominskii, S. D.; Yakerson, V. I. Surface phase analysis of supported copper cobalt oxide catalysts via thermovacuum electrical conductivity curves. Izv. Akad Nauk, Ser. Khim.,, 1724-7.

35. Dulov, A. A.; Abramova, L. A.; Sherle, A. I.; Epshtein, V. R. Modification of electrical properties of polyphthalocyanines with different metals. Elektron. Org. Mater., 242-3.

36. Dulov, A. A.; Abramova, L. A.; Kondrat'ev, S. I.; Nikishenko, S. B.; Antoshin, G. V.; Minachev, Kh. M. Phase composition of the surface of cobalt molybdenum sulfide catalysts derived from thermovacuum curves of conductivity. Kinetika i Kataliz, 26, 1510-13.

37. Dulov, A. A.; Abramova, L. A.; Kucherova, T. N.; Slinkin, A. A. Composition of the surface of nickel-molybdenum oxide catalysts derived from thermovacuum curves of conductivity. Kinetika i Kataliz, 25, 1432-6.

38. Dulov, A. A.; Abramova, L. A. Potentialities of the method of electric conductivity in studies of catalysts. Itogi Nauki i Tekhn. Viniti. Kinet. i Kataliz,, 144-94.

39. Dulov, A. A.; Lavrovskaya, T. K.; Slinkin, A. A.; Rubinshtein, A. M. Physicochemical properties and activities of nickel oxide-magnesium oxide catalysts. 3. Catalytic activity of nickel oxide-magnesium oxide solid solutions in nitrous oxide decomposition. Izv. Akad Nauk SSSR, Ser. Khim.,, 986-91.

40. Dulov, A. A.; Slinkin, A. A.; Abramova, L. A.; Gershenzon, I. Sh.; Fedorovskaya, E. A.; Rubinshtein, A. M. Physicochemical properties and activities of nickel oxide-magnesium oxide catalysts. 2. Nickel distribution in the nickel oxide-magnesium oxide system determined from electric and magnetic measurement data. Izv. Akad Nauk SSSR, Ser. Khim.,, 979-86.

41. Dulov, A. A.; Sherle, A. I.; Epshtein, V. R. Some characteristics of electrical conductivity of metal-free polyphthalocyanine. Deposited Doc.,, 10 pp. CAN 101:7906

42. Slinkin, A. A.; Fedorovskaya, E. A.; Abramova, L. A.; Kucherova, T. N.; Lavrovskaya, T. K.; Dulov, A. A. Interaction and distribution of components in nickel-molybdenum oxide catalysts. Kinetika i Kataliz, 25, 436-8.

43. Dulov, A. A.; Abramova, L. A.; Amirbekov, E. N.; Aliev, F. V.; Rubinshtein, A. M. Composition of the surface of ferrite catalysts of the oxidative dehydrogenation of butenes determined from electrical measurements. Kinetika i Kataliz, 24, 413-17.

44. Liogon'kii, B. I.; Shamraev, G. M.; Dulov, A. A.; Berlin, A. A. Pyrolysis of polymers with a conjugation system in vacuo as a method for preparing electrically conducting film coatings. Vysokomolekulyarnye Soedineniya, Ser. B: Kratkie Soobshcheniya, 18, 58-62.

45. Dulov, A. A.; Abramova, L. A.; Yakerson, V. I.; Golosman, E. Z.; Artamonov, V. I.; Rubinshtein, A. M. Use of the conductivity method for the phase-structural study of catalysts based on calcium aluminates. Kinetika i Kataliz, 20, 937-45.

46. Dulov, A. A.; Abramova, L. A.; Rubinshtein, A. M. New method of phase-structural analysis of catalysts involving conductivity measurements. Kinetika i Kataliz, 20, 931-6.

47. Dulov, A. A.; Forissier, Michel; Noguerol Perez, Manuel; Vergnon, Pierre. Effect of the composition of vanadium-titanium-oxygen catalysts on their catalytic properties in propene oxidation. Bull. Soc. Chim. France,, 129-33.

48. Dashevskii, M. I.; Yakerson, V. I.; Dulov, A. A.; Klyachko-Gurvich, A. L.; Rubinshtein, A. M. Electron microscopic study on the formation of mixed oxides of nickel catalysts. Mater. Vses. Konf. Elektron. Mikrosk., 9th, 293-4.

49. Dulov, A. A.; Abramova, L. A.; Slinkin, A. A.; Klyachko, A. L.; Dashevskii, M. I.; Ashavskaya, G. A.; Lafer, L. I.; Yakerson, V. I.; Rubinshtein, A. M. Physicochemical properties and activity of nickel monoxide-magnesium oxide catalysts. 1. Formation of solid solutions during preparation of the nickel monoxide-magnesium oxide system by the coprecipitation method. Izv. Akad Nauk SSSR, Ser. Khim.,, 265-72.

50. Zelenetskii, A. N.; Sel'skaya, O. G.; Dulov, A. A.; Liogon'kii, B. I.; Berlin, A. A. Structural changes in polyindigoids during thermal and oxidative thermal actions. Vysokomolekulyarnye Soedineniya, Ser. A, 16, 2730-7.

51. Rubinshtein, A. M.; Dulov, A. A.; Slinkin, A. A.; Abramova, L. A.; Gershenzon, I. Sh.; Gorskaya, L. A.; Danyushevskii, V. Ya.; Dashevskii, M. I.; Klyachko-Gurvich A. L.; et al. Role of structure and electronic interactions in the catalytic behavior of nickel oxide-titanium oxide system. J. Catalysis, 35, 80-91.

52. Rubinshtein, A. M.; Dulov, A. A.; Yakerson, V. I.; Gorskaya, L. A.; Abramova, L. A. Preparation and properties of coprecipitated nickel monoxide-titanium dioxide catalysts. Izv. Akad Nauk SSSR, Ser. Khim.,, 1645-7.

53. Dulov, A. A.; Sherle, A. I.; Kushnerev, M. Ya.; Razvodovskii, E. F.; Kuzina, V. V.; Abramova, L. A.; Berlin, A. A. Electrical properties and structural order of ion-radical salts of tetracyanoguinodimethan with nitrogen-containing polymers. Vysokomolekulyarnye Soedineniya, Ser. B: Kratkie Soobshcheniya, 16, 83-8.

54. Dulov, A. A.; Gershenzon, I. Sh.; Rubinshtein, A. M. Nickel monoxide-titanium dioxide catalysts studied by the contact potential difference method. Kinetika i Kataliz, 15, 197-200.

55. Dulov, A. A.; Abramova, L. A.; Gershenzon, I. Sh.; Rubinshtein, A. M. Electrical properties and phase-structural state of nickel oxide-titanium oxide system catalysts. Dokl. Akad. Nauk SSSR, 210, 345-8.

56. Dulov, A. A.; Dashevskii, M. I.; Klyachko-Gurvich, A. L.; Slinkin, A. A.; Rubinshtein, A. M. Structure and texture of nickel oxide-titanium dioxide catalysts as influenced by their composition and heat treatment. Izv. Akad Nauk SSSR, Ser. Khim.,, 2156-61.

57. Liogon'kii, B. I.; Shamraev, G. M.; Dulov, A. A.; Berlin, A. A. Electrical conducting thermostable polymeric films. U.S.S.R., SU 317689 19711019 CAN 76:141969.

58. Dulov, A. A.; Abramova, L. A.; Shashkin, D. P.; Rubinshtein, A. M. Electrical properties and structure of nickel monoxide-titanium dioxide system catalysts. Kinetika i Kataliz, 13, 180-7.

59. Dulov, A. A.; Slinkin, A. A. Organic Semiconductors. Polymers with Conjugate Bonds., 126 pp. CAN 76:72976

60. Berlin, A. A.; Sherle, A. I.; Kuzina, V. V.; Dulov, A. A. Modification of poly. U.S.S.R., SU 280834 19700903 CAN 74:76835

61. Kazanskii, B. A.; Rozengart, M. I.; Slinkin, A. A.; Dulov, A. A.; Polinin, V. L.; Bryukhanov, V. G. Catalyst for dehydrocyclization of n-paraffins. U.S.S.R., SU 265076 19700309.

62. Shamraev, G. M.; Dulov, A. A.; Liogon'kii, B. I.; Berlin, A. A. Thermal transformations of some aromatic polyamido and polyaminoamido acids. Vysokomolekulyarnye Soedineniya, Ser. A, 12, 401-8.

63. Dulov, A. A.; Gurov, A. A.; Liogon'kii, B. I.; Berlin, A. A. Electrical conductivity of polyquinones and its dependence on the chemical structure of the polymer molecules. Vysokomolekulyarnye Soedineniya, Seriya A, 12, 74-80.

64. Slinkin, A. A.; Dulov, A. A.; Glantseva, I. M.; Rubinshtein, A. M. Catalytic activity of thermally treated poly in the decomposition of formic acid. Kinetika i Kataliz, 8, 136-40.

65. Dulov, A. A. Electronic properties and structure of polymeric organic semiconductors. Usp. Khimii, 35, 1853-82.

66. Dulov, A. A.; Slinkin, A. A.; Rubinshtein, A. M.; Kotlyarevskii, I. L.; Shvartsberg, M. S.; Andrievskii, V. N.; Zanina, A. S.; Shergina, S. I. Influence of conjugation failure on the properties of semi conducting polymers. Dokl. Akad. Nauk SSSR, 169, 111-13.

67. Dulov, A. A.; Liogon'kii, B. I.; Ragimov, A. V.; Slinkin, A. A.; Berlin, A. A. Electrical properties of polymers of semiquinones. Zh. Fiz. Khim., 39, 1590-4.

68. Davydova, I. R.; Kiperman, S. L.; Slinkin, A. A.; Dulov, A. A. Catalytic activity of some synthetic organic polymers. Izv. Akad Nauk SSSR, Ser. Khim.,, 1591-8.

69. Slinkin, A. A.; Dulov, A. A.; Rubinshtein, A. M. Magnetic and electric properties of chelate polymers. Izv. Akad Nauk SSSR, Ser. Khim.,, 1769-75.

70. Dulov, A. A.; Liogon'kii, B. I.; Ragimov, A. V.; Slinkin, A. A.; Berlin, A. A. Electric and magnetic properties of polyarylenequinones. Izv. Akad Nauk SSSR, Ser. Khim.,, 909-12.

71. Rubinshtein, A. M.; Dulov, A. A.; Pribytkova, N. A. The effect of K2O on the activity, selectivity, and electrical properties of Al2O3-Cr2O3 catalysts. Izv. Akad Nauk SSSR, Ser. Khim.,, 604-13.

72. Dulov, A. A.; Slinkin, A. A.; Rubinshtein, A. M. Electric and magnetic properties of thermally treated poly. Izv. Akad Nauk SSSR, Ser. Khim.,, 26-34.

73. Dulov, A. A.; Slinkin, A. A.; Rubinshtein, A. M.; Kotlyarevskii, I. L. Electroconductivity, electron paramagnetic resonance spectra, and the structure of polyarylene-polyacetylenes. Izv. Akad Nauk SSSR, Ser. Khim.,, 1910-20.

74. Dulov, A. A.; Slinkin, A. A.; Rubinshtein, A. M. Electric and magnetic properties of thermally treated ferrocene polymers. Vysokomolekulyarnye Soedineniya, 5, 1441-6.

75. Slinkin, A. A.; Dulov, A. A.; Rubinshtein, A. M. Catalytic properties of chelate polymers. Izv. Akad Nauk SSSR, Ser. Khim.,, 1140-1.

76. Dulov, A. A.; Slinkin, A. A.; Liogon'kii, B. I.; Rubinshtein, A. M. The significance of conjugation and orderliness for the semiconducting properties of polymers. Dokl. Akad. Nauk SSSR, 143 1355-7.

77. Kotlyarevskii, I. L.; Fisher, L. B.; Dulov, A. A.; Slinkin, A. A.; Rubinshtein, A. M. Synthesis and some physical properties of poly. Vysokomolekulyarnye Soedineniya, 4 174-81.

78. Nesmeyanov, A. N.; Rubinshtein, A. M.; Dulov, A. A.; Slinkin, A. A.; Rybinskaya, M. I.; Slonimskii, G. L. Catalytic properties of polymers prepared from methyl  -chlorovinyl ketone. Dokl. Akad. Nauk SSSR, 135 609-12.

79. Kotlyarevskii, I. L.; Fisher, L. B.; Dulov, A. A.; Slinkin, A. A. Oxidative polycondensation of p-diethynylbenzene. Izv. Akad Nauk SSSR, Ser. Khim., 950-1.

80. Rubinshtein, A. M.; Dulov, A. A. Preparation of corundum at low temperatures and its catalytic activity. Zh. Neorg. Khim., 4 1498-500.

81. Agronomov, A. E.; Dulov, A. A. The relation of catalytic activity to structure and composition of a catalyst of copper on aluminum oxide. III. Vestnik Moskovskogo Universiteta, 12, 215-22.

82. Rubinshtein, A. M.; Dulov, A. A.; Kulikov, S. G.; Pribytkova, N. A. Activity of oxides, sulfides, and selenides of nickel, chromium, and zinc in reactions of reduction of nitrobenzene and selective hydrogenation of diolefin to olefin. Izv. Akad Nauk SSSR, Ser. Khim., 596-603.

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