... al., 1996; Da Ros and Prato, 1999; Tagmatarchis and Shinohara, 20 01; Bosi et al., 20 03; Nakamura and Isobe, 20 03; Sarova et al., 20 06; Bianco and Da Ros, 20 07) 1 .2 Cell Protection and Antioxidant ... acids and their impact on health 2.22. 2.1 CarbonNanotubes Structure and Characteristics CNTs, discovered in 1991 by Iijima (Iijima, 1991; Iijima and Ichihashi, 1993), display unique structures and ... Pantarotto et al (20 03a); (d) McDevitt et al (20 07); (e) Huang et al (20 02) , Jiang et al (20 04), Wohlstadter et al (20 03), Lin et al (20 04), Kam et al (20 04), Yim et al (20 05), Patolsky et al (20 04); (f)...
... 24 3 Journet, C., Maser, W K., Bemier, P., Loiseau, A., de la Chapelle, M Lamy, Lefrant, S., Deniard, P., Lee, R and Fischer, J E., Nature, 1997, 12 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 ... Acetylene 24 metal carbonyl Silica support Pore impregnation 700 Acetylene 22 ,23 22 Zeolite or Clay support Ion exchange 700 Acetylene 700 Acetylene 23 Graphite support Impregnation Ni Graphite ... van Tendeloo, G and van Landuyt, J., Ultramicroscopy, 1994, 54, 23 7 Iijima, S.,Ichihashi, T and Ando, Y., Nature, 19 92, 356,776 Liu, M and Cowley, J., Carbon, 1994, 32, 393; Liu, M and Cowley, J.,...
... Appl Phys 20 05, 97, 026 103 ( 32) Yoshida, A.; Kaburagi, Y.; Hishiyama, Y Carbon 20 06, 44, 23 33 (33) Maschmann, M R.; Amama, P B.; Goyal, A.; Iqbal, Z.; Fisher, T S Carbon 20 06, 44, 27 58 (34) Amama, ... under (e) +100 V and (f) + 20 0 V of Rao et al .28 and Sun et al .29 The Raman spectra are generally distinguished by two peaks around 1318 and 1595 cm-1 and a shoulder near 1 625 cm-1; the peaks ... components at 1573, 1599, and 1 625 cm-1 correspond to the E2g, E1g, and A1g modes, respectively ;28 ,29 these modes and the D-band are considered particular to the MWCNTs .28 The peak near 1576 cm-1...
... El, E2, A1 + E l +E2 (achiral) (chiral) The Raman active modes in carbonnanotubes are then + Raman active: I, El, 2A1, + 3E2, + 2E1, +4E2, 3A1+ 5E1+ 6Ez or 20 ~: + 30E; + ~ : or 2oAt + 2oE; ... chiral and achiral carbonnanotubes is givcn in Tables A1 and A2 of Ref 12. 461 In Tables 2. 4 and2. 5 we show the character tables of the point groups Dyh for even q in the molecular notation, and ... Structure and Symmetry 2. 1 Structure of CarbonNanotubes2.2 Experiments 2. 3 Symmetry of Single-walled CarbonNanotubes2. 3.1...
... single-wall nanotubes with a small diameter Physica B 1999, 26 3 -26 4:479-481 20 Popov VN: Theoretical evidence T1 /2 specific behavior in carbon nanotube systems Carbon 20 04, 42: 991-995 21 Li Q, Liu ... individual carbonnanotubes by the Raman shift method Nanotechnology 20 09; 20 :1457 02 22 Mingo N, Broido DA: Carbon nanotube ballistic thermal conductance and its limits Phys Rev Lett 20 05, 95:096105-096108 ... relationship in carbon nanotube/epoxy composites Carbon 20 06, 44:3 022 3 029 35 Debelak B, Lafdi K: Use of exfoliated graphite filler to enhance polymer physical properties Carbon 20 07, 45:1 727 -1734 36...
... layers [20 ,21 ] or amorphous carbon [22 ] forms nucleation caps Others argue the formation of convex structures on the surface enable initial cap formation [23 -25 ] Single-walled carbonnanotubes ... of carbonnanotubes produced from phenylboronic acid in a MgO matrix The images show a carbon outer shell and a core (nanowire) comprised B, O andMg Top image-zero loss image The C, B, O and MgO ... ACS Nano 20 10, 4: 420 6 56 Zhu MY, Wang JJ, Holloway BC, Outlaw RA, Zhao X, Hou K, Shutthanandan V, Manos DM: A mechanism for carbon nanosheet formation Carbon 45 :22 29 57 Wang JJ: Free-standing subnanometer...
... Ucoul and Uvan are the coulomb energy and the van der Waals energy extracted from the MD simulations The coefficients f = -2. 0 625 76 and f = -8.98 422 3 kcal mol-1 at 29 8 K, f1 = -2. 058061 and f2 = ... at 29 8 K, f1 = -2. 058061 and f2 = -8.7 426 94 kcal mol-1 at 325 K, and f1 = -2. 06 528 0 and f = -8.5 021 27 kcal mol -1 at 350 K Thus, by using Equations 1, 2, and 3, the viscosity of water can be predicted ... 0.0 028 5 mPa s, p = 16 32 K, p 11 = 0.00 022 5 1/K, p 12 = -0.055547, p 13 = 1197.417113 K, p21 = -0.007639 1/K, p 22 = 4.910991, p31 = -0.011533 1/K, and p 32 = 7 .24 0463 The computational results of...
... dispersion and separation of carbonnanotubes Nat Mater 20 03, 2: 338-3 42 Figure Lattice thermal conductivity of tube (4 ,2) as a function of temperature Results from the Callaway-Holland model and the ... conductivity Phys Rev B 20 02, 65:144306 21 Brandbyge M, Mozos JL, Ordejόn P, Taylor J, Stokbro K: Density-functional method for nonequilibrium electron transport Phys Rev B 20 02, 65:1-17 22 Soler JM, Artacho ... J Chem Phys 1997, 106:60 82 19 Osman MA, Srivastava D: Temperature dependence of the thermal conductivity of single-wall carbonnanotubes Nanotechnology 20 01, 12: 21 -24 20 Schelling PK, Phillpot...
... (V/lm) 548 3,995 3.51 4.38 B 322 6,066 4.01 4.94 C D J(mA/cm ) bH A 1.0 0.8 1,389 1,199 15,881 12, 266 2. 3 2. 59 2. 85 3.15 0.6 0.4 0 .2 0.0 2. 1 2. 4 2. 7 3.0 3.3 3.6 3.9 4 .2 4.5 4.8 5.1 E(V/ µ m ) (b) ... Display, 20 02) , p 11 32 18 J.H Park, J.H Choi, J.S Moon, D.G Kushinov, J.B Yoo, C.Y Park, Carbon 43, 698 (20 05) 19 M.M Shaijumon, N Bijoy, S Ramaprabhu, Appl Surf Sci 24 2(1 2) , 1 92 (20 05) 20 I.W ... coated over carbon paper with and without graphitic layer (sample A and sample B) and that of purified MWNT spin coated over carbon paper with and without graphitic layer (sample C and sample D)...
... 24 3 Journet, C., Maser, W K., Bemier, P., Loiseau, A., de la Chapelle, M Lamy, Lefrant, S., Deniard, P., Lee, R and Fischer, J E., Nature, 1997, 12 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 ... Acetylene 24 metal carbonyl Silica support Pore impregnation 700 Acetylene 22 ,23 22 Zeolite or Clay support Ion exchange 700 Acetylene 700 Acetylene 23 Graphite support Impregnation Ni Graphite ... van Tendeloo, G and van Landuyt, J., Ultramicroscopy, 1994, 54, 23 7 Iijima, S.,Ichihashi, T and Ando, Y., Nature, 19 92, 356,776 Liu, M and Cowley, J., Carbon, 1994, 32, 393; Liu, M and Cowley, J.,...
... 24 3 Journet, C., Maser, W K., Bemier, P., Loiseau, A., de la Chapelle, M Lamy, Lefrant, S., Deniard, P., Lee, R and Fischer, J E., Nature, 1997, 12 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 ... Acetylene 24 metal carbonyl Silica support Pore impregnation 700 Acetylene 22 ,23 22 Zeolite or Clay support Ion exchange 700 Acetylene 700 Acetylene 23 Graphite support Impregnation Ni Graphite ... van Tendeloo, G and van Landuyt, J., Ultramicroscopy, 1994, 54, 23 7 Iijima, S.,Ichihashi, T and Ando, Y., Nature, 19 92, 356,776 Liu, M and Cowley, J., Carbon, 1994, 32, 393; Liu, M and Cowley, J.,...