BN AND BCN NANOTUBES

1. BN AND BCN NANOTUBES FLORIAN HASI Inst.f.Materialphysik Univ. Wien

2. WHAT ARE BN NANOTUBES BN sheet BN nanotube L.Wirtz et al.

3. METHODS TO PRODUCE BNTUBES Multi -wall nanotubes 1.-ARC DISCHARGE (Chopra et. al. 1995) 2.- LASER ABLATION (Golberg,Bando et al.1996)

4. 200 nm 5 nm TEM images from BN tubes produced with Arc discharge method (L.Wirtz.France 2001)

5. METHODS TO PRODUCE BN TUBES Multi -wall nanotubes 1.-ARC DISCHARGE (Chopra et. al. 1995) LASER ABLATION (Golberg,Bando et al.1996) 2.- Single- wall nanotubes 1.-SUBSTITION REACTION (Han,Bando,Kurashima,Sato.1998)

6. SUBSTITUTION REACTION B2O3 + 3C(nanotubes) + N2 2BN(nanotubes) + 3CO SWCNT BCNT BNT

7. SAMPLE(B2O3+SWCNT) 1200-1300°C

8. MIR SPECTRA OF THERESULTINGMATERIAL 1200°, 2h, N2

9. STARTING MATERIAL MIR SPECTRA OF SWCNT (HiPco samples) Small dipol Moment Low IR activity

10. STARTING MATERIAL MIR spectra of B2O3

11. MIRSPECTRA FROM THESTARTING AND THE RESULTINGMATERIAL 1300°C 1200°C B2O3

12. INFRARED ABSORPTION OF THE RESULTING MATERIAL 1200°C PRESENT WORK L.WIRTZ et al.

13. CONCLUSIONS A new material is produced 1- MIR spectra correspond to literature results 2- Different starting nanotubes and systematic study needed 3-