Цитираност радова др наташе јовић орсини укупно: 242



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34. Zhan, Y., Meng, F., Yang, X., Zhao, R., Liu, X.

Solvothermal synthesis and characterization of functionalized graphene

sheets (FGSs)/magnetite hybrids

(2011) Materials Science and Engineering B: Solid-State Materials for

Advanced Technology, 176 (16), pp. 1333-1339. Cited 14 times.

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35. Zhan, Y., Meng, F., Lei, Y., Zhao, R., Zhong, J., Liu, X.

One-pot solvothermal synthesis of sandwich-like graphene nanosheets/Fe 3O4

hybrid material and its microwave electromagnetic properties

(2011) Materials Letters, 65 (11), pp. 1737-1740. Cited 36 times.

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36. Zhang, Y., Qi, S., Wu, X., Duan, G.

Electrically conductive adhesive based on acrylate resin filled with silver

plating graphite nanosheet

(2011) Synthetic Metals, 161 (5-6), pp. 516-522. Cited 21 times.

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37. Al-Hartomy, O.A., Al-Solamy, F., Al-Ghamdi, A.A., Ibrahim, M.A.,

Dishovsky, N., El-Tantawy, F.

Pressure sensors based on polyvinyl chloride/graphite/nickel nanocomposites

(2011) Journal of Elastomers and Plastics, 43 (2), pp. 137-153. Cited 3

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38. Kuilla, T., Bhadra, S., Yao, D., Kim, N.H., Bose, S., Lee, J.H.

Recent advances in graphene based polymer composites

(2010) Progress in Polymer Science (Oxford), 35 (11), pp. 1350-1375. Cited

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39. Min, C., Yu, D.

Simultaneously improved toughness and dielectric properties of

epoxy/graphite nanosheet composites

(2010) Polymer Engineering and Science, 50 (9), pp. 1734-1742. Cited 11

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40. Chow, W.S., Tan, P.L.

Epoxy/multiwall carbon nanotube nanocomposites prepared by sonication and

planetary mixing technique

(2010) Journal of Reinforced Plastics and Composites, 29 (15), pp. 2331-

2342. Cited 4 times.

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41. Škipina, B., Dudić, D., Kostoski, D., Dojčilović, J.

Dielectrical properties of low density polyethylene and carbon black

composites [Dielektrične osobine kompozita od polietilena niske gustine i

čadi]


(2010) Hemijska Industrija, 64 (3), pp. 187-191. Cited 1 time.

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42. Li, Q., Zeng, G.-Z., Zhao, W.-F., Chen, G.-H.

Preparation and characterization of nickel-coated graphite nanosheets

(2010) Synthetic Metals, 160 (1-2), pp. 200-202. Cited 9 times.

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43. Zheng, C., Fan, Z., Wei, T., Luo, G.

Temperature dependence of the conductivity behavior of graphite

nanoplatelet-filled epoxy resin composites

(2009) Journal of Applied Polymer Science, 113 (3), pp. 1515-1519. Cited 20

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44. Xie, Y.-C., Yu, D.-M., Min, C., Guo, X.-S., Wan, W.-T., Zhang, J.,

Liang, H.-L.

Expanded graphite-epoxy composites with high dielectric constant

(2009) Journal of Applied Polymer Science, 112 (6), pp. 3613-3619. Cited 10

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45. Al-Ghamdi, A.A., El-Tantawy, F., Abdel Aal, N., El-Mossalamy, E.H.,

Mahmoud, W.E.

Stability of new electrostatic discharge protection and electromagnetic

wave shielding effectiveness from poly(vinyl chloride)/graphite/nickel

nanoconducting composites

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46. Ansari, S., Giannelis, E.P.

Functionalized graphene sheet-Poly(vinylidene fluoride) conductive

nanocomposites

(2009) Journal of Polymer Science, Part B: Polymer Physics, 47 (9), pp.

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47. Park, O.-K., Jeevananda, T., Kim, N.H., Kim, S.-i., Lee, J.H.

Effects of surface modification on the dispersion and electrical

conductivity of carbon nanotube/polyaniline composites

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48. Sun, W., Chen, G., Zheng, L.

Electroless deposition of silver particles on graphite nanosheets

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J. Blanusa, N. Jovic, T. Dzomic, B. Antic, A. Kremenovic, M. Mitric , V. Spasojevic

Magnetic susceptibility and ordering of Yb and Er in phosphors Yb,Er:Lu2O3

OPTICAL MATERIALS 30(7) (2008) 1153-1156



Times Cited: 5

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1. Khachatourian, A.M., Golestani-Fard, F., Sarpoolaky, H., Vogt, C.,

Vasileva, E., Mensi, M., Popov, S., Toprak, M.S.

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2. Yan, S., Qiao, W., Zhong, W., Au, C.-T., Dou, Y.

Effects of site occupancy and valence state of Fe ions on ferromagnetism in

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3. Heiba, Z.K., Bakr Mohamed, M., Fuess, H.

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4. Artini, C., Costa, G.A., Masini, R.

Study of the formation temperature of mixed LaREO3 (RE ≡ Dy, Ho, Er, Tm,

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5. Artini, C., Costa, G.A., Carnasciali, M.M., Masini, R.

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M. Vittori Antisari, A. Montone, N. Jovic, E. Piscopiello, C. Alvani, L. Pilloni



Low energy pure shear milling: A method for the preparation of graphite nanosheets

SCRIPTA MATERIALIA 55 (2006) 1047-1050



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1. Guan, G., Lu, J., Jiang, H.

Preparation, characterization, and physical properties of graphene

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2. Dash, P., Dash, T., Rout, T.K., Sahu, A.K., Biswal, S.K., Mishra, B.K.

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3. Shin, S.E., Bae, D.H.

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5. Mei, K.-C., Guo, Y., Bai, J., Costa, P.M., Kafa, H., Protti, A., Hider,

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7. Yi, M., Shen, Z.

A review on mechanical exfoliation for the scalable production of graphene

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8. Panjiar, H., Gakkhar, R.P., Daniel, B.S.S.

Strain-free graphite nanoparticle synthesis by mechanical milling

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9. Aravind, S.S.J., Ramanujachary, K., Mugweru, A., Vaden, T.D.

Molybdenum phosphide-graphite nanomaterials for efficient electrocatalytic

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10. Wang, P., Liu, W., Chen, L., Mu, C., Qi, G., Bian, F.

Bio-inspired laminated graphite nanosheets/copper composites

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11. Lee, E., Choi, K.B., Lee, S.-M., Kim, J.-Y., Jung, J.-Y., Baik, S.-W.,

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A scalable and facile synthesis of alumina/exfoliated graphite composites

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12. He, G., Ding, J., Zhang, J., Hao, Q., Chen, H.

One-step ball-milling preparation of highly photocatalytic active CoFe2O4-

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Strengthening behavior of few-layered graphene/aluminum composites

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14. Kalantari, K., Ahmad, M.B., Shameli, K., Khandanlou, R.

Size-controlled synthesis of Fe3O4 magnetite nanoparticles on the exterior

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15. Güler, O., Evin, E.

Effect of milling type on formation of carbon nanostructures

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16. Liu, L., Zhang, M., Xiong, Z., Hu, D., Wu, G., Chen, P.

Ammonia borane assisted solid exfoliation of graphite fluoride for facile

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Preparation of graphene and its applications in biomedicine

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18. Ota, J., Hait, S.K., Sastry, M.I.S., Ramakumar, S.S.V.

Graphene dispersion in hydrocarbon medium and its application in lubricant

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19. Rubio, N., Serra-Maia, R., Kafa, H., Mei, K.-C., Al-Jamal, K.T.,

Luckhurst, W., Zloh, M., Festy, F., Richardson, J.P., Naglik, J.R., Pach,

E., Ballesteros, B.

Production of water-soluble few-layer graphene mesosheets by dry milling

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20. Liu, Z.G.

Nanostructure evolution evolution of expanded graphite during high-energy

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21. Cui, M., Wang, S.-L., Tian, H.-Q.

Effect of roller vibration milling on the structure of graphite

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22. Wang, H., Li, Y., Zhu, T., Sang, S., Wang, Q.

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23. Sun, P., Kuga, S., Wu, M., Huang, Y.

Exfoliation of graphite by dry ball milling with cellulose

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24. Panjiar, H., Gakkhar, R.P., Daniel, B.S.S.

Modeling mechanical milling process for synthesis of graphite nanoparticles

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Morphology characterization of expanded graphite by ball-milling and

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