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CITIRANOST RADOVA dr Branke Babić-Stojić

J. Konstantinović and B. Babić, ";On the nature of the phase transition in Mno";,

Solid State Commun. 18, 701-703 (1976).

Citiran u:

1. E. L. Nagaev,

";Anomalous magnetic structures and phase transitions in Non-Heisenberg magnets";,

Uspekhi Fizicheskikh Nauk, 136, Iss 1, 61-103 (1982).

2. E. L. Nagaev,

";Physics of Magnetic Semiconductors";, edited by the author, English translation, p. 92,

Mir Publishers, Moscow (1983).

3. B. F. Woodfielf, J. L. Shapiro, R. Stevens, J. Boeriogoates and M. L. Wilson,

";Critical phenomena at the antiferromagnetic transition in MnO";,

Physical Review B 60, Iss 10, 7335-7340 (1999).

M. Stojić and B. Babić, The electrical resistivity of liquid lead”, Fizika 10, Suppl. 2,

216-220 (1978).

Citiran u:

4. W. F. Calaway and M. L. Saboungi,

“Electrical resistivity of the Na –Pb System – measurements and interpretation”,

Journal of Physics F – Metal Physics, 13, Iss 6, 1213-1223 (1983).

B. Babić, F. Kajzar and G. Parette, “Iron moment in chromium-rich Cr-Fe alloys”,

J. Magn. Magn. Mater 15-18, 287-288 (1980), Proceedings of the International Conference on Magnetism, Munich, 3-7 September 1979.

Citiran u:

5. T. Cey and N. Kunitomi,

“High-field magnetic susceptibility in Cr-Fe Alloys”,

Journal of the Physical Society of Japan, 51, Iss 10, 3073-3074 (1982).

6. T. Cey and N.Kunitomi,

“Magnetization curves of Cr-Fe in a high magnetic field”,

Journal of Magnetism and Magnetic Materials, 31, 621-622 (1983).

B. Babić, F. Kajzar and G. Parette, “Magnetic properties and magnetic interactions in

chromium-rich Cr-Fe alloys”, J. Phys. Chem. Solids, 41, 1303-1309 (1980).

Citiran u:

7. G. Benediktsson, H. U. Astrom, L. Hedman and K. V. Rao,

“On magnetic 1-st order transitions in Cr-rich Cr-Fe and Cr-Si alloys – latent heat

and susceptibility studies”,

Journal of Physics F-Metal Physics, 12, Iss 7, 1439-1452 (1982).

8. L. Hedman, H. U. Astrom, A. Kjerulf, K. V. Rao and K. Svensson,

“The magnetic behaviour of iron in dilute chromium alloys in the commensurate

spin-density wave state”,

Physica Scripta, 25, Iss 6, 893-895 (1982).

9. T. Cey and N. Kunitomi,

“High field magnetic susceptibility in Cr-Fe Alloys”,

Journal of the Physical Society of Japan, 51, Iss 10, 3073-3074 (1982).

10. A. C. Palumbo, R. D. Parks and Y. Yeshrun,

“Magnetic relaxation measurements in Fe-Cr alloys”,

Journal of Magnetism and Magnetic Materials, 36, Iss1-2, 66-72 (1983).

11. S. K. Burke and B. D. Rainford,

“The evolution of magnetic order in Cr-Fe alloys - antiferromagnetic alloys close

to the critical concentration”,

Journal of Physics F-Metal Physics, 13, Iss 2, 441-450 (1983).

12. Y. I. Kondorskiy, T. I. Kostina, I. V. Lvova and N. V. Trubitsina,

“Magnetic state of cobalt ions in chromium alloys”,

Fizika Metallov i Metallovedenie, 56, Iss 2, 396-398 (1983).

13. T. Cey and N. Kunitomi,

“Magnetization Curves of Cr-Fe in a High Magnetic Field”,

Journal of Magnetism and Magnetic Materials, 31-34, 621-622 (1983).

14. S. M. Dubiel, C. Sauer and W. Zinn,

“Influence of an external magnetic field on the retrant spin-glass transition temperature

in a Cr75Fe25 alloy”,

Physical Review B 36, Iss1, 360-366 (1987).

15. V. A. Makarov, I. M. Puzej, T. V. Sakharova and B. N. Tretyakov,

“Magnetic and mossbauer studies of spin-glasses in chromium-iron antiferromagnetic

alloys”

Fizika Metallov i Metallovedenie, 65, Iss 2, 302-309 (1988).

16. V. Y. Galkin and T. E. Tugusheva,

“Relation of the temperature anomalies in electrical resistivity to resonance

impurity scattering in dilute Cr-Fe Alloys”,

Fizika Tverdoga Tela, 30, Iss 3, 845-852 (1988).

17. H. Akai and P. H. Dederich,

“Local moment disorder in ferromagnetic alloys”,

Physical Review B 47, Iss 14, 8739-8747 (1993).

18. E. Fawcet, H. L. Alberts, V. Y. Galkin, D. R. Noakes and J. V. Yakhami,

“Spin density wave antiferromagnetism in chromium alloys”,

Review of Modern Physics, 66, Iss 1, 25-127 (1994).

19. V. Nika and J. Bigot,

“Experimental determination of the miscibility gap in high purity iron-chromium

alloys”,

Journal de Physique IV, 5, Iss C7, 265-270 (1995).

20. P. A. Stampe and G. Wiliams,

“Investigation of the spontaneous anisotropy in Cr-based alloys with Fe and Co”,

Physical Review B 55, Iss 9, 5592-5595 (1997).

21. R. S. Fishman, V. Y. Galkin and W. A. Ortiz,

“Susceptibility of dilutely doped Cr-Fe Alloys”,

Journal of Physics – Condensed Matter, 10, Iss 28, 6347-6366 (1998).

22. Y. Galkin, W. A. Ortiz, E. Fawcett, N. Ali and P. C. de Camargo,

“The moment of Fe in a Cr1-xVx host; II. Effect of magnetic field in the spin density

wave phase”,

Journal of Physics – Condensed Matter, 10, Iss 22, 4911-4917 (1998).

23. V. Y. Galkin, W. A. Ortiz and R. S. Fishman,

“Local Fe moment in commensurate and incommensurate spin density wave

Cr matrix”,

Journal of Magnetism and Magnetic Materials, 186, Iss 1-2, L1-L6 (1998).

24. S. M. Dubiel, J. Zukrowski, J. Cieslak,

“Unusual dynamics of Fe atoms in a chromium matrix”,

Journal of Physics – Condensed Matter, 22, Iss 43, 435403 (2010).

DOI: 10.1088/0953-8984/22/43/435403

25. S. M. Dubiel,

“Relationship between the magnetic hyperfine field and the magnetic moment”

Journal of Alloys and Compounds, 488, Iss 1, 18-22 (2009).

DOI: 10.1016/j.jallcom.2009.08.101

F. Kajzar, G. Parette and B. Babić, “Polarized neutron diffuse scattering experiments on disordered Cr-rich Cr-Fe alloys”, J. Phys. Chem. Solids, 42, 501-512 (1981).

Citiran u:

26. G. Benediktsson, H. U. Astrom, L. Hedman and K. V. Rao,

“On magnetic 1-st order transitions in Cr-rich Cr-Fe and Cr-Si alloys – latent heat

and susceptibility Studies”,

Journal of Physics F-Metal Physics, 12, Iss 7, 1439-1452 (1982).

27. L. Hedman, H. U. Astrom, A. Kjerulf, K. V. Rao and K. Svensson,

“The magnetic behaviour of iron in dilute chromium alloys in the commensurate

spin-density wave state”,

Physica Scripta, 25, Iss 6, 893-895 (1982).

28. S. K. Burke and B. D. Rainford,

“The evolution of magnetic order in Cr-Fe alloys - Antiferromagnetic alloys close

to the critical concentration”,

Journal of Physics F-Metal Physics, 13, Iss 2, 441-450 (1983).

29. N. H. March, F. Herman and P. Lambin,

“Cooperative magnetic properties in single-phase and 2-phase 3D metallic alloys

relevant to exchange and magnetocrystalline anisotropy”,

Journal of Magnetism and Magnetic Materials, 44, Iss 1-2, 1-19 (1984).

30. S. M. Dubiel, C. Sauer and W. Zinn,

“Mossbauer effect investigation of a Cr-13.5 at percent Fe alloy doped with

0.7 at percent Sn-119”,

Physical Review B 32, Iss 5, 2745-2751 (1985).

31. O. Moze, P. W. Mitchell, S. K. Burke, J. G. Booth and J. R. Davis,

“Nature of the magnetic disturbance around iron sites in dilute antiferromagnetic

chromium-iron alloys”,

Journal of Physics F – Metal Physics, 18, Iss 3, 527-537 (1988).

32. V. P. Antropov, V. I. Anisimov. A. I. Liechtenstein and A. V. Postnikov,

“Electronic structure and magnetic properties of 3D impurities in antiferromagnetic

metals”,

Physical Review B 37, Iss 10, 5603-5605 (1988).

33. V. A. Makarov, I. M. Puzej, T. V. Sakharova and B. N. Tretyakov,

“Magnetic and Mossbauer studies of spin glasses in chromium-iron

antiferromagnetic alloys”,

Fizika Metallov i Metallovedenie, 65, Iss 2, 302-309 (1988).

34. V. I. Gomankov, I. M. Puzej, A. I. Zaitsev and B. N. Tretyakov,

“Cluster spin glass in a chromium-iron system”

Zhurnal Eksperimentalnoj i Teoreticheskoi Fiziki, 94, Iss 7, 292-297 (1988).

35. V. I. Gomankov, A. I. Zaitsev, I. M. Puzej and B. N. Tretyakov,

“Spinodal decomposition and magnetic states in the Cr-Fe system”,

Russian Metallurgy-USSR, Iss 2, 106-110 (1989).

36. E. Fawcet, H. L. Alberts, V. Y. Galkin, D. R. Noakes and J. V. Yakhami, “Spin density

wave antiferromagnetism in chromium alloys”,

Review of Modern Physics, 66, Iss 1, 25-127 (1994).

37. R. S. Fishman, V. Y. Galkin and W. A. Ortiz,

“Susceptibility of dilutely doped Cr-Fe alloys”,

Journal of Physics – Condensed Matter, 10, Iss 28, 6347-6366 (1998).

38. N. H. March,

“Magnetism of metals, alloys and clusters of transition metal atoms”

Journal of Materials Science &Technology, 17, Iss 6, 581-589 (2001).

B. Babić, M. Stojić, J. Konstantinović, M. Napijalo and L. Novaković, “Hall effect in the

Mn1.11Al0.89a”, J. Phys. F: Metal Phys. 14, 3015-3022 (1984).

Citiran u:

39. A. Gozlan, C. Berger, G. Fourcaudot, R. Omari, J. C. Lasjaunias and J. J. Prejan,

“Anomalous hall-effect related to the magnetization in pure decagonal Al-Mn phases”

Physical Review B 44, Iss 2, 575-583 (1991).

B. Stošić, M. Stojić, B. Babić Stojić and O. Žižić, “The effect of manganese on electrical properties of Hg1-xMnxSe”, Fizika, 18, 65-72 (1986).

Citiran u:

a) O. Žižić, Z. V. Popović, A. Milutinović and V. A. Kulbachinski,

“Free carrier scattering in Hg0.77Mn0.23Se at low temperatures”

Physica Status Solidi (b) 168, Iss 2, K103-K107 (1991).

b). O. Žižić, Z.V. Popović, V. A. Kulbachinskii and A. Milutinović,

“Low temperature optical and transport properties of Hg1-xMnxSe single crystals”,

Semiconductor Science and Technology, 7, Iss 12, 1484-1488 (1992).

c) M. Srećković, N. Ivanović, O. Žižić and S. Bojanić,

“Electrical, optical and thermodynamical aspects of sound propagation in

HgTe, HgSe, Hg1-xMnxSe and MnZn spinel ferrites”,

Journal of Electronic Materials, 32, Iss 4, 208-214 (2003).

Z. Šoškić, B. Babić Stojić and M. Stojić, Eelectron paramagnetic resonance studies of

Zn1-xMnxTe”, J. Phys.: Condens. Matter, 6, 1261-1268 (1994).

Citiran u:

40. J. K. Furdyna, M. Qazzas, G, Yang, L. Montes, S. H. Xin and H. Luo,

“Investigation of strains in II-VI Semiconductor superlattices using electron

paramagnetic resonance of Mn2+”,

Acta Physica Polonica A, 88, Iss 4, 607-618 (1995).

41. M. Taniguchi, N. Happo, K. Mimura, H. Sato, J. Harada, K. Miyazaki, H. Namatame,

Y. Ueda and M. Ohashi,

“Ultraviolet inverse-photoemission spectra of diluted magnetic semiconductor

Zn1-xMnxTe”,

Journal of Physics – Condensed Matter, 7, Iss 23, 4371-4383 (1995).

42. N. Happo, H. Sato, T. Mihara, K. Mimura, S. Hosokawa, Y.Ueda and M. Taniguchi,

“Zn, Mn, and Te K Edge EXAFS studies of the diluted magnetic semiconductor

Zn1-xMnxTe”,

Journal of Physics – Condensed Matter, 8, Iss 23, 4315-4323 (1996).

43. J. Partyka, P.W. Zukovski, P. Wegierek, A. Rodzik, Y.V. Sidorenko and Y.A. Shostak,

“Electron spin resonance in Cd1-xMnxTe and Zn1-xMnxTe compounds”,

Semiconductors, 36, 1347-1351 (2002).

44. G.P. Bernardini, M. Borgheresi, C. Cipriani, F. Di Benedetto and M. Romanelli,

“Mn distribution in sphalerite: an EPR study”,

Physics and Chemistry of Minerals, 31, 80-84 (2004).

45. M. Borgheresi, F. Di Benedetto, A. Caneschi, G. Pratesi, M. Romanelli and L. Sorace,

“An EPR and SQUID magnetometry study of bornite”,

Physics and Chemistry of Minerals, 34, Iss 9, 609-619 (2007).

DOI: 10.1007/s00269-007-0175-5

46. S. Bhattacharyya, D. Zitoun, Y. Estrin, O. Moshe, D. H. Rich and A. Gedanken,

“A one step, template-free synthesis, characterization, optical and magnetic properties of

Zn1-xMnxTe nanosheets”,

Chemistry of Materials, 21 Iss 2, 326-335 (2009).

DOI: 10.1021/cm8027737

47. D. Y. Inamdar, A. D. Lad, A. K. Pathak, I. Dubenko, N. Ali and S. Mahamuni,

“Ferromagnetism in ZnO nanocrystals: doping and surface chemistry”

Journal of Physical Chemistry C, 114, Iss 3, 1451-1459 (2010).

DOI: 10.1021/jp909053f

Z. Šoškić and B. Babić Stojić, “Cluster method analysis of the EPR line in

Zn1-xMnxTe”, J. Magn. Magn. Mater. 140-144, 2071-2073 (1995).

Citiran u:

48. J. Partyka, P.W. Zukovski, P. Wegierek, A. Rodzik, Y.V. Sidorenko and Y.A. Shostak,

“Electron Spin Resonance in Cd1-xMnxTe and Zn1-xMnxTe compounds”,

Semiconductors, 36, 1347-1351 (2002).

49. E. A. Zvereva, O. A. Savelieva, A. E. Primenko, S. A. Ibragimov and E. I. Slyn’ko,

“Anomalies in electron spin resonance spectra of Ge1-xMnxTe diluted magnetic

semiconductors”,

Journal of Applied Physics, 108, Iss 9, 093923 (2010).

DOI: 10.1063/1.3504604

J. Petković, M. Daković, J. Stanković, B. Babić Stojić and G. Bačić,Application of magnetic resonance techniques in measurements of absorbed dosed distribution from radiotherapeutic photon and proton sources”, Jugoslav Physiol. Pharmacol. Acta, 34, 189 (1998).

Citiran u:

a) J. Petković, I. Mladenović, N. Vukelić, M. Mojović and G. Bačić,

“Lanthanide doped alkaline metal sulphates as candidates for EPR dosimetry”,

Journal of the Serbian Chemical Society, 65, 743-753 (2000).

J. Petković, I. Mladenović, A.S. Nikolić, B. Babić Stojić i G. Bačić, “EPR dozimetrija

jonizujujućeg zračenja: Ispitivanje novih tipova dozimetara na bazi alkalnih sulfata dopiranih lantanidima”, XX Simpozijum JDZZ, Tara'99, 3-5 novembar, Zbornik radova, 227-230 (1999).

Citiran u:

a) J. Petković, I. Mladenović, N. Vukelić, M. Mojović and G. Bačić,

“Lanthanide Doped Alkaline Metal Sulphates as Candidates for EPR Dosimetry”,

Journal of the Serbian Chemical Society, 65, 743-753 (2000).

B. Babić Stojić, Z. Šoškić, M. Stojić and D. Milivojević,

Magnetic susceptibility studies of Zn1-xFexSe and Zn1-xFexS”, J. Magn. Magn. Mater.

195, 76-80 (1999).

Citiran u:

50. A. Caneschi, C. Cipriani, F.D. Benedetto and Sessoli R,

“Caracterisation of the antiferromagnetic transition of Cu2FeSnS4 , the synthetic

analogue of stannite”

Physics and Chemistry of Minerals, 31, Iss 3, 190-193 (2004).

51. F. Di Benedetto, G.B. Andreozzi, G.P. Bernardini, M. Borgheresi, A. Caneschi,

C. Cipriani, D. Gatteschi and M. Romanelli,

“Short rang order of Fe2+ in sphalerite by Fe-57 Mössbauer spectroscopy and

magnetic susceptibility”

Physics and Chemistry of Minerals, 32, Iss 5-6, 339-348 (2005).

52. Q.J. Feng, D.Z. Shen, J.Y. Zhang, Y.M. Lu, Y.C. Liu and X.W. Fan,

“Influence of Fe content on the structural and optical properties of ZnFeS thin

films”

Materials Chemistry and Physics, 96, Iss 1, 158-162 (2006).

53. T.J. Boyle, H.D. Pratt, B.A. Hernandez-Sanches, T.N. Lambert and

T. J. Headley

“Synthesis and optical properties of naturally occurring fluorescent mineral,

ferroan sphalerite, inspired (Fe,Zn)S nanopoparticles”

Journal of Materials Science, 42, Iss 8, 2792-2795 (2007).

D. Milivojević, B. Babić Stojić, M. Stojić, V. A. Kulbachinskii, P. D. Maryanchuk

and I. A. Churilov,“Electron paramagnetic resonance studies of Hg1-xMnxTe1-ySey”,

Solid State Commun. 122, 389-393 (2002).

Citiran u:

54.W.K. Liu, K.M. Whitaker, K.R. Kittilstved and D.R. Gamelin,

“Stable photogenerated carriers in magnetic semiconductor nanocrystals”,

Journal of the American Chemical Society, 128, Iss 12, 3910-3911 (2006).

DOI: 10.1021/ja060488p

M.I. Čomor, B. Babić Stojić and J.M. Nedeljković, “Synthesis and characterization of

Cd1-xMnxS quantum dots”, Materials Science Forum, 413, 17-20 (2003).

Citiran u:

55. R. Kostić, N. Romčević, M.I. Čomor, M. Romčević, M. Grujić-Brojčin,

V.V. Vodnik and J.M. Nedeljković,

“Far-infrared phonon spectroscopy of Cd1-xMnxS quantum dots”

Materials Science Forum, 453-454, 293-297 (2004).

56. N. Romčević, R. Kostić, M. Romčević, M. Grujić-Brojčin, M.I. Čomor, V.V. Vodnik

and J.M. Nedeljković,

“Cd1-xMnxS nanoparticles: Far-infrared phonon spectroscopy”,

Materials Science Forum, 480-481, 237-241 (2005).

M. Stojić, B. Babić Stojić and D. Milivojević, “Influence of vacancies on the static and

dynamic properties of monoatomic liquids”,Physica B :Physics of Condensed Matter,

334, 274-286 (2003).

Citiran u:

57. Y.C. Liu, M.D. Deal and J.D. Plummer,

“Rapid melt growth of germanium crystals with self-aligned microcrucibles on

Si substrates”,

Journal of the Electrochemical Society, 152, Iss 8, G688-G693 (2005).

DOI: 10.1149/1.1946368

58. P. J. Scot and R. W. Smith,

“Implementation of a perturbation model for a dilute binary liquid and comparison of

model mass diffusion coefficients with microgravity experiment results for liquid

Pb wt% Au”,

Canadian Journal of Physics, 87, Iss 8, 933-944 (2009).

DOI: 10.1139/P09-079

59. P. J. Scot and R. W. Smith,

“Estimation of the solute diffusion coefficient of a dilute liquid alloy: static structure

factor and isothermal compressibility estimates obtained using the rational function

approximation of the radial distribution

Journal of Physics-Condensed Matter, 21, Iss. 33, 335104 (2009).

DOI: 10.1088/0953-8984/21/33/335104

60. S. Hu, P. W. Leu, A. F. Marshall and P. C. Mclntyre,

“Single crystal germanium layers grown on silicon by nanowire seeding”,

Nature Nanotechnology, 4, Iss. 10, 649-653 (2009)

DOI: 10.1038/nnano.2009.233

B. Babić Stojić, D. Milivojević, M. Čomor and V. Vodnik, “Optical and electron

paramagnetic resonances spectroscopy of Cd1-xMnxS quantum dots”,

J. Phys.: Condens. Matter 16, 4625-4633 (2004).

Citiran u:

61. N. Romčević, R. Kostić, M. Romčević, M.I. Čomor, and J.M. Nedeljković,

“Raman spectroscopy of Cd1-xMnxS quantum dots”,

Journal of Physics D: Applied Physics, 38, Iss. 24, 4321-4324 (2005).

62. M. Sima, I. Enculescu, V. Ghiordanescu and L. Mihut,

“Absorption and photoluminescence properties of CdS: Mn2+:Cu2+ nanostructures”

Journal of Optoelectronics and Advanced Materials, 7, Iss. 4, 1949-1955 (2005).

63. V. Ghiordanescu, M. Sima, I. Enculescu, M.N. Grecu, L. Mihut, M. Secu and

R. Neumann,

“Photoluminescence of manganese- and copper-doped CdS nanowires”,

Physica Status Solidi (a)-Applied Research, 202, Iss. 3, 449-454 (2005).

64. Y.Y. Zhang, J.F. Chen, X.S. Zheng and X.H. Dong,

“Preparation of manganese-doped ZnSe precursors nanoribbon bundles and

investigation of its magneto-optical properties”,

Chinese Journal of Chemical Physics, 20, Iss 5, 607-612 (2007).

65. M. Romčević, N. Romčević, R. Kostić, L. Klopotowski, W. D. Dobrowolski,

J. Kossut and M. I. Čomor,

“Photoluminescence of highly doped Cd1-xMnxS nanocrystals”

Journal of Alloys and Compounds, 497, Iss. 1-2, 46-51 (2010).

DOI: 10.1016/j.jallcom.2010.03.072

Dj. Jovanović, D. Milivojević, M. Romčević, B. Babić-Stojić and N. Romčević,

Optical and magnetic properties of Hg1-xMnxSe alloys”, Materials Science Forum,

494, 277-282 (2005).

Citiran u:

a) N. Romčević, A. Golubović, M. Romčević, J. Trajić, S. Nikolić, S. Durić,

V. N. Nikiforov,

“Raman spectra of Pb1-xMnxTe alloys”

Journal of Alloys and Compounds, 402, Iss 1-2, 36-41 (2005).

DOI: 10.1016/j.jallcom.2005.04.133

b) A. Milutinović, M. Romčević and N. Romčević,

“Raman spectroscopy of Hg1-xMnxSe alloys: Part II”,

Materials Science Forum, 518, 459-464 (2006).

c) N. Romčević, M. Romčević, A. Milutinović and R. Kostić,

“Far infrared spectroscopy of HgMnTe-MnSe mixture”,

Physica Status Solidi C, 3, Iss. 4, 1139-1142 (2006)

DOI: 10.1002/pssc.200564620

d) J. Trajić, A. Golubović, M. Romčević, N. Romčević, S. Nikolić and V. N. Nikiforov,

“Pb1-xMnxTe and PbTe1-xSx compounds and their optical properties”,

Journal of the Serbian Chemical Society, 72, Iss 1, 55-62 (2007).

DOI: 10.2298/JSC0701055T

e). N. Romčević, A.J. Nadolny, M. Romčević, T. Story, B. Taliashvili,

A. Milutinović, J. Trajić, E. Lusakowska, D. Vasiljević-Radović,

D. Domukhovski, V. Osinniy, B. Hadžić and P. Dziawa,

“Far-infrared phonon spectroscopy of Pb1-xMnxTe layers grown by molecular

beam epitaxy”

Journal of Alloys and Compounds, 438, Iss1-2. 34-40 (2007).

DOI: 10.1016/j.jallcom.2006.08.053

V. Djordjević, J. Djustebek, J. Cvetićanin, S. Veličković, M. Veljković, M. Bokorov,

B. Babić-Stojić and O. Nešković, “Methods of purification and characterization of

carbon nanotubes”, Journal of Optoelectronics and Advanced Materials, 8, 1631-1634

(2006).

Citiran u:

66. S. Lee, J. W. Peng and C. H. Liu,

“Raman study of carbon nanotube purification using atmospheric pressure plasma”,

Carbon, 46, Iss. 15, 2124-2132 (2008).

DOI: 10.1016/j.carbon.2008.09.029

67. J. K. Seo, K. H. Ko, J. Kim, Y. S. Lee, E. K. Kang, J. H. Lee and W. S. Choi,

“Growth of metal free carbon nanotubes with amorphous carbon catalyst layer on glass

substrates by microwave plasma enhanced chemical vapor deposition”,

INEC: 2010 3rd International Nanoelectronics Conference, Vols. 1 and 2, 79-80 (2010).

68. J. Cveticanin, G. Joksić, A. Leskovac, S. Petrović, A. V. Sobot and O. Neković

“Using carbon nanotubes to induce micronuclei and double strand breaks of the DNA in

human cells”,

Nanotechnology, 21, Iss. 1, 015102 (2010).

DOI: 10.1088/0957-4484/21/1/015102

69. J. K. Seo, H. Jung, J. H. Lee, S. Y. Deok, J. J. Joung and W. S. Choi,

“Metal-free CNTsgrown on glass substrate by microwave PECVD”,

Current Applied Physics, 10, Iss. 3, S447-S450 (2010).

DOI: 10.1016/j.cap.2010.02.022

70. R. N. Goyal and S. Bishnoi,

“A novel multi-walled carbon nanotube modified sensor for the selective determination

of epinephrine in smokers”

Electrochimica Acta, 56, Iss. 6, 2717-2724 (2011).

DOI: 10.1016/j.electacta.2010.12.047

D. Milivojević, J. Blanuša, V. Spasojević, V. Kusigerski and B. Babić-Stojić, “Room

temperature ferromagnetism in Zn-Mn-O”, Solid State Commun. 141, 641-644 (2007).

Citiran u:

71. E. Cespedes, G. R. Castro, F. Jimenez-Villacorta, A. de Andres and C. Prieto,

“Mn local order in room temperature ferromagnetic Mn/ZnO multilayers”,

Journal of Physics-Condensed Matter, 20, Iss. 9, 095207 (2008).

DOI: 10.1088/0953-8984/20/9/095207

72. J. H. Yang, L. Y. Zhao, Y. J. Zhang, Y. X. Wang and H. L. Liu,

“Paramagnetic behavior of Zn1-xMnxO at room temperature”,

Crystal Research and Technology, 43, Iss. 9, 999-1003 (2008).

DOI: 10.1002/crat.200800010

73. S. Chattopadhyay, S. Chattopadhay, S. Dutta, A. Banerjee, D.Jana, S. Bandyopadhyay,

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