Unusually tight aggregation in detonation nanodiamond: Identification and disintegration

Carbon

Volumn 43, Issue 8, 2005, Pages 1722-1730

  Kruger A ^a,b   Kataoka, F ^c,d   Ozawa, M ^b,e   Fujino, T ^c   Suzuki, Y ^c   Aleksenskii, A E ^f   Vul', A Ya ^b,f   Osawa, E ^b,c  

^a UNIVERSITY OF KIEL   (Germany)

^b TOYOHASHI UNIVERSITY OF TECHNOLOGY   (Japan)

^c NanoCarbon Research Institute   (Japan)

^d Futaba Corporation   (Japan)

^e UNIVERSITY OF TOKYO   (Japan)

^f IOFFE INSTITUTE   (Russian Federation)

Author keywords

Diamond; Modelling, Electron microscopy, X ray diffraction; Particle size

Indexed keywords

COLLOIDS; DETONATION; DIAMONDS; ELECTRON MICROSCOPY; LIGHT SCATTERING; PARTICLE SIZE ANALYSIS; SOLUTIONS; X RAY DIFFRACTION ANALYSIS;

AGGLUTINATES; DETONATION SOOT; NANODIAMOND; SONICATION;

NANOSTRUCTURED MATERIALS;

EID: 19744371219     PISSN: 00086223     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.carbon.2005.02.020     Document Type: Article

References (32)

1. Danilenko VV. The history of the nanodiamond discovery. Book of Abstract, First Int Symp, Detonation Nanodiamonds, July 7-9, 2003, St Petersburg, Russia, p. 27.
2. Danilenko VV. Synthesis and sintering of diamond by explosion. Moscow, Energoatomizdat, 2003, p. 138.
3. O.A. Shenderova, V.V. Zhirnov, and D.W. Brenner Carbon nanostructure Crit. Rev. Solid State Mater. Sci. 27 2002 227 356
4. A.E. Aleksenskii, M.V. Baidakova, A.Y. Vul', and V.I. Siklitskii The structure of diamond nanoclusters Phys. Solid Stat. 41 1999 668 671
5. D. Gruen Ultrananocrystalline diamond films from fullerene precursors E. Ōawa Perspectives of Fullerene Nanotechnology 2002 Kluwer Academic Publ. Dortrecht
6. A.I. Lyamkin, E.A. Petrov, A.P. Ershov, G.V. Sacovich, A.M. Staver, and V.M. Titov Production of diamond from explosives (in Russian) Sov. Phys. Dokl. 33 1988 705 706
7. See also R.N. Greiner, D.S. Phillips, J.D. Johnson, and F. Volk Diamonds in detonation soot Nature 333 1988 440 442
8. A. Vul', V. Dolmatov, and O. Shenderova Bibliography index of detonation nanodiamonds and related materials 2003 Ioffe Physico-Technical Inst. St. Petersburg
9. G. Harlow The Nature of Diamonds 1998 Cambridge Univ. Press Cambridge
10. R.M. Hazen The Diamond Makers 1999 Cambridge Univ. Press Cambridge
11. W.J. Wilks, and E. Wilks The properties and applications of diamond 1995 Butterworth-Heinemann Stoneham, MS
12. G.V. Sakovich, V.D. Gubarevich, F.Z. Badaev, P.M. Brylyakov, and O.A. Besedina Aggregation of diamonds obtained from explosives Dokl. Akad. Nauk. SSSR 310 1990 402 404
13. G.A. Chiganova The effect of particle hydration on the aggregation stability of ultradispersed diamond hydrosols Colloid J. 59 1997 87 89
14. G.A. Chiganova Aggregation of particles in ultradispersed diamond hydrosols Colloid J. 62 2000 238 243
15. E.E. Lin Aggregation of crystalline clusters in the shock wave front propagating through condensed species Sov. J. Chem. Phys. 12 1994 404 409
16. A.E. Aleksenskii, V.Y. Osipov, A.T. Dideykin, A.Y. Vul', G.J. Adreaenssens, and V.V. Afanasev Ultradisperse diamond cluster aggregation studied by atomic force microscopy Tech. Phys. Lett. 26 2000 819 821
17. Rao CNR, Müller A, Cheetham AK, editors. The chemistry of nanomaterials, vol. 1-2. Weinheim: WILEY-VCH; 2004.
18. C.P. Poole Jr., and F.J. Owens Introduction to nanotechnology 2003 Wiley-Interscience New Jersey
19. V. Rotello Nanoparticles-building block for nanotechnology 2004 Kluwer Academic/Plenum Press New York
20. J.E. Dahl, S.G. Liu, and R.M.K. Carlson Isolation and structure of higher diamondoids, nanometer-sized diamond molecules Science 299 2003 96 99
21. Vereshchagin AL. Japanese Patent 2,799,337. Materials containing artificial diamond and their production method. July 10, 1998.
22. See also J.B. Donnet, C. Lemoigne, T.K. Wang, C.M. Peng, M. Samirant, and A. Eckhardt Synthesis of nanodiamond via explosives and shock waves Bull. Soc. Chim. Fr. 134 1997 875 890
23. I.D. Morrison, and S. Ross Colloidal dispersions 2002 Wiley New York Chapter 5.5
24. B.D. Cullity, and S.R. Stock Elements of X-ray diffraction 2001 Prentice Hall Upper Saddle River, NJ Chapter 12
25. B.J. Berne, and R. Pecora Dynamic light scattering with applications to chemistry, biology and physics 2000 Dover Mineola, NY
26. R.G. Alargova, S. Deguchi, and K. Tsuji Stable colloidal dispersions of fullerenes in polar organic solvents J. Am. Chem. Soc. 123 2001 10460 10467
27. V.L. Kuznetsov, A.L. Chivilin, E.M. Moroz, V.N. Kolomiichuk, Sh.K. Shikhutdinov, and Yu.V. Butenko Effect of explosion conditions on the structure of detonation soots: ultradisperse diamond and onion carbon Carbon 32 1994 873 882
28. V.L. Kuznetsov, Yu.V. Butenko, V.I. Zaikovskii, and A.L. Chuvilin Carbon redistribution process in nanocarbons Carbon 42 2004 1057 1061
29. J.Y. Raty, G. Galli, C. Bostedt, T.W. van Buuren, and L.J. Terminello Quantum confinement and fullerenic-like surface reconstructions in nanodiamond Phys. Rev. Lett. 90 2003 037401
30. M.V. Baidakova, V.I. Siklitsky, and A.Y. Vul' Ultradisperse diamond nanoclusters. Fractal, structure and diamond-graphite phase transition Chaos, Solitons & Fractals 10 1999 2153 2163
31. M. Ozawa, H. Goto, M. Kusunoki, and E. Ōsawa Continuously growing spiral carbon nanoparticles as the intermediates in the formation of fullerenes and nano-onions J. Phys. Chem. B 106 2002 7135 7138
32. J.B. Donnet, R.C. Bansal, and M.J. Wang Carbon black, science and technology second edition 1993 Marcel Dekker NY