Light emission in silicon from carbon nanotubes

ACS Nano

Volumn 6, Issue 5, 2012, Pages 3813-3819

  Gaufrè, Etienne ^a,b   Izard, Nicolas ^a   Noury, Adrien ^a   Roux, Xavier Le ^a   Rasigade, Gilles ^a   Beck, Alexandre ^a   Vivien, Laurent ^a  

^a CNRS   (France)

^b UNIVERSITÉ DE MONTRÉAL   (Canada)

Author keywords

Nanotube; Photoluminescence; Photonics; Silicon

Indexed keywords

ABSORPTION PROPERTY; COMPATIBLE MATERIALS; METALLIC INTERCONNECTS; MICROELECTRONIC CIRCUITS; SILICON WAVEGUIDE; VIABLE SOLUTIONS; WAVELENGTH RANGES;

MICROELECTRONICS; NANOTUBES; PHOTOLUMINESCENCE; PHOTONICS; SILICON; WAVEGUIDES;

CARBON NANOTUBES;

EID: 84861966810     PISSN: 19360851     EISSN: 1936086X     Source Type: Journal    
DOI: 10.1021/nn204924n     Document Type: Article

References (34)

1. Ahmed, K.; Schuegraf, K. Transistor Wars. IEEE Spectrum 2011, 48, 50-66.
2. Meindl, J. Beyond Moore's Law: The Interconnect Era. IEEE Comput. Sci. Eng. 2003, 5, 20-24.
3. Assefa, S.; Xia, F.; Green, W.; Schow, C.; Rylyakov, A.; Vlasov, Y. CMOS-Integrated Optical Receivers for On-Chip Interconnects. IEEE J. Quantum Electron. 2010, 16, 1376-1385.
4. Zalevsky, Z. Integrated Micro-and Nanophotonic Dynamic Devices: A Review. J. Nanophotonics 2007, 1, 012504.
5. Lipson, M. Guiding, Modulating, and Emitting Light on Silicon: Challenges and Opportunities. J. Lightwave Technol. 2005, 23, 4222-4238.
6. Barwicz, T.; Byun, H.; Gan, F.; Holzwarth, C.; Popovic, M.; Rakich, P.; Watts, M.; Ippen, E.; Kärtner, F.; Smith, H.; et al. Silicon Photonics for Compact, Energy-Efficient Interconnects. J. Opt. Networking 2007, 6, 63-73.
7. Jalali, B. Can Silicon Change Photonics? Phys. Status Solidi A 2008, 205, 213-224.
8. Liu, A.; Liao, L.; Chetrit, Y.; Basak, J.; Nguyen, H.; Rubin, D.; Paniccia, M. Wavelength Division Multiplexing Based Photonic Integrated Circuits on Silicon-on-Insulator Platform. IEEE J. Quantum Electron. 2010, 16, 23-32.
9. Lardenois, S.; Pascal, D.; Vivien, L.; Cassan, E.; Laval, S.; Orobtchouk, R.; Heitzmann, M.; Bouzaida, N.; Mollard, L. Low-Loss Submicrometer Silicon-on-Insulator Rib Waveguides and Corner Mirrors. Opt. Lett. 2003, 28, 1150-1152.
10. Fang, A.; Park, H.; Kuo, Y.-H.; Jones, R.; Cohen, O.; Liang, D.; Raday, O.; Sysak, M.; Paniccia, M.; Bowers, J. Hybrid Silicon Evanescent Devices. Mater. Today 2007, 10, 28-35.
11. Ben Bakir, B.; Descos, A.; Olivier, N.; Bordel, D.; Grosse, P.; Augendre, E.; Fulbert, L.; Fedeli, J. Electrically Driven Hybrid Si/III-V Fabry-Pérot Lasers Based on Adiabatic Mode Transformers. Opt. Express 2011, 19, 10317-10325.
12. Jurgen, M.; Jifeng, L.; Kimerling, L. High-Performance Ge-on-Si Photodetector. Nat. Photonics 2010, 4, 527-534.
13. Vivien, L.; Osmond, J.; Fedeli, J.; Marris-Morini, D.; Crozat, P.; Damlencourt, J.; Cassan, E.; Lecunff, Y.; Laval, S. 42 GHz p. i. n. Germanium Photodetector Integrated in a Silicon-on-Insulator Waveguide. Opt. Express 2009, 17, 6252-6257.
14. Reed, G.; Mashanovich, G.; Gardes, F.; Thomson, D. Silicon Optical Modulators. Nat. Photonics 2010, 4, 518-526.
15. Bachtold, A.; Hadley, P.; Nakanishi, T.; Dekker, C. Logic Circuits with Carbon Nanotube Transistors. Science 2001, 294, 1317-1320.
16. O'Connell, M.; Bachilo, S.; Huffmann, C.; Moore, V.; Strano, M.; Haroz, E.; Rialon, K.; Boul, P.; Noon, W.; Kittrell, C.; et al. Band Gap Fluorescence from Individual Single-Walled Carbon Nanotubes. Science 2002, 297, 593-596.
17. Bachilo, S.; Strano, M.; Kittrell, C.; Hauge, R.; Smalley, R.; Weisman, R. Structure-Assigned Optical Spectra of Single-Walled Carbon Nanotubes. Science 2002, 298, 2361-2366.
18. Nguyen, D.; Roussignol, P.; Roquelet, C.; Lauret, J.; Cassabois, G. Elastic Exciton-Exciton Scattering in Photoexcited Carbon Nanotubes. Phys. Rev. Lett. 2011, 107, 127401.
19. Gaufrès, E.; Izard, N.; Vivien, L.; Kazaoui, S.; Marris-Morini, D.; Cassan, E. Enhancement of Semiconducting Single-Wall Carbon-Nanotube Photoluminescence. Opt. Lett. 2009, 34, 3845-3847.
20. Misewich, J.; Martel, R.; Avouris, P.; Tsang, J.; Heinze, S.; Tersoff, J. Electrically Induced Optical Emission from a Carbon Nanotube FET. Science 2003, 300, 783-786.
21. Marty, L.; Adam, E.; Albert, L.; Doyon, R.; Ménard, D.; Martel, R. Exciton Formation and Annihilation during 1D Impact Excitation of Carbon Nanotubes. Phys. Rev. Lett. 2006, 96, 136803.
22. Adam, E.; Aguirre, C.; Marty, L.; St-Antoine, B.; Meunier, F.; Desjardins, P.; Ménard, D.; Martel, R. Electroluminescence from Single-Wall Carbon Nanotube Network Transistors. Nano Lett. 2008, 8, 2351-2355.
23. Weisman, R.; Bachilo, S. Dependence of Optical Transition Energies on Structure for Single-Walled Carbon Nanotubes in Aqueous Suspension: An Empirical Kataura Plot. Nano Lett. 2003, 3, 1235-1238.
24. Mueller, T.; Kinoshita, M.; Steiner, M.; Perebeinos, V.; Bol, A.; Farmer, D.; Avouris, P. Eficient Narrow-Band Light Emission from a Single Carbon Nanotube p-n Diode. Nat. Nanotechnol. 2009, 5, 27-31.
25. Gaufrès, E.; Izard, N.; Le Roux, X.; Marris-Morini, D.; Kazaoui, S.; Cassan, E.; Vivien, L. Optical Gain in Carbon Nanotubes. Appl. Phys. Lett. 2010, 96, 231105.
26. Kishida, H.; Nagasawa, Y.; Imamura, S.; Nakamura, A. Direct Observation of Dark Excitons in Micelle-Wrapped Single-Wall Carbon Nanotubes. Phys. Rev. Lett. 2008, 100, 097401.
27. Izard, N.; Gaufrès, E.; Le Roux, X.; Kazaoui, S.; Murakami, Y.; Marris-Morini, D.; Cassan, E.; Maruyama, S.; Vivien, L. Electroabsorption Study of Index-Defined Semiconducting Carbon Nanotubes. Eur. Phys. J. Appl. Phys. 2011, 55, 20401.
28. Freitag, M.; Martin, Y.; Misewich, J.; Martel, R.; Avouris, P. Photoconductivity of Single Carbon Nanotubes. Nano Lett. 2003, 3, 1067-1071.
29. St-Antoine, B.; Ménard, D.; Martel, R. Single-Walled Carbon Nanotube Thermopile for Broadband Light Detection. Nano Lett. 2011, 11, 609-613.
30. International Technology Roadmap for Semiconductors, 2009 ed., http://www.itrs.net.
31. Gaufrès, E.; Izard, N.; Le Roux, X.; Kazaoui, S.; Marris-Morini, D.; Cassan, E.; Vivien, L. Optical Microcavity with Semiconducting Single-Wall Carbon Nanotubes. Opt. Express 2010, 18, 5740-5745.
32. Berciaud, S.; Cognet, L.; Lounis, B. Luminescence Decay and the Absorption Cross Section of Individual Single-Walled Carbon Nanotubes. Phys. Rev. Lett. 2008, 101, 077402.
33. Hertel, T.; Himmelein, S.; Ackermann, T.; Stich, D.; Crochet, J. Diffusion Limited Photoluminescence Quantum Yields in 1-D Semiconductors: Single-Wall Carbon Nanotubes. ACS Nano 2010, 4, 7161-7168.
34. Fallahkhair, A.; Li, K.; Murphy, T. Vector Finite Difference Modesolver for Anisotropic Dielectric Waveguides. J. Lightwave Technol. 2008, 26, 1423-1431.