Copyright (c) 2013 AJC
This work is licensed under a Creative Commons Attribution 4.0 International License.
Facile Synthesis of Novel PbS Dendritic Nanostructures with Tetraphenylphosphonium Bromide as a Ligand via Simple Hydrothermal Process
Corresponding Author(s) : Gang Liu
Asian Journal of Chemistry,
Vol. 25 No. 2 (2013): Vol 25 Issue 2
Abstract
Well-defined PbS dendritic nanostructures were prepared with tetraphenylphosphonium bromide as a ligand via simple hydrothermal process. The Pbs dendritic nanostructures were characterized by X-ray diffraction, (high-resolution) transmission electron microscopy and scanning electron microscopy images. Structural characterization indicates individual PbS dendritic have three-dimensional structures with one trunk (long axis) and four branches (short axis). The nanorods in each branch are parallel to each other and in the same plane and are perpendicular to the trunk.
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- X.G. Peng, L. Manna, W.D. Yang, J. Wickham, E. Scher, A. Kadavanich and A.P. Alivisators, Nature, 404, 59 (2004).
- L. Bakueva, G. Konstantatos, L. Levina, S. Musikhin and E.H. Sargent, Appl. Phys. Lett., 84, 3459 (2004).
- M. Nirmal and L.E. Brus, Acc. Chem. Res., 32, 407 (1999).
- D. Kuang, A. Xu, Y. Fang, H. Liu, C. Frommen and D. Fenske, Adv. Mater., 15, 1747 (2003).
- S. Wang and S. Yang, Langmuir, 16, 389 (2000).
- S.M. Lee, Y.W. Jun, S.N. Cho and J.W. Cheon, J. Am. Chem. Soc., 124, 11244 (2002).
- E. Leontidis, M. Orphanou, T. Kyprianidou-Leondidou, F. Krumeich and W. Caseri, Nano Lett., 3, 569 (2003).
- Y. Ni, H. Liu, F. Wang, Y. Liang, J. Hong, X. Ma and Z. Xu, Cryst. Res. Technol., 39, 200 (2004).
- D. Kuang, A. Xu, Y. Fang, H. Liu, C. Frommen and D. Fenske, Adv. Mater., 15, 1747 (2003).
- Y. Ni, X. Wei, J. Hong and X. Ma, Cryst. Res. Technol., 41, 885 (2006).
- Y.K.A. Lau, J.C. Davin, J.B. Matthew and J. Song, J. Am. Chem. Soc., 131, 16461 (2009).
- Z.P. Qiao, Y. Zhang, L.T. Zhou and Q. Xire, Crystal Growth Design, 7, 2394 (2007).
- F. Gao, Q. Lu, X. Liu, Y. Yan and D. Zhao, Nano Lett., 12, 743 (2001).
- N. Wang, X. Cao, L. Guo, S. Yang and Z. Wu, ACS Nano, 2, 184 (2008).
- R. Xie, D. Li, D. Yang and M. Jiang, J. Mater. Sci., 42, 1376 (2007).
- N. Zhao and L. Qi, Adv. Mater., 18, 359 (2006).
- D. Kuang, A. Xu, Y. Fang, H. Liu, C. Frommen and D. Fenske, Adv. Mater., 15, 1747 (2003).
- J. Xiang, H. Cao, Q. Wu, S. Zhang and X. Zhang, Crystal Growth Design, 8, 3935 (2008).
- B.L. Wehrenberg, C. Wang and P. Guyot-Sionnest, J. Phys. Chem. B, 106, 10634 (2002).
- K.A. Dick, K. Deppert, M.W. Larsson, T. Mårtensson, W. Seifert, L.R. Wallenberg and L. Samuelson, Nat. Mater., 3, 380 (2004).
- S.M. Lee, S.N. Cho and J. Cheon, Adv. Mater., 15, 441 (2003).
- S.M. Lee, W.W. Jun, S.N. Cho and J. Cheon, J. Am. Chem. Soc., 124, 11244 (2002).
- G. Russell, P. Henrichs, J. Hewitt, H. Grashof and M. Sandhu, Macromolecules, 14, 1764 (1981).
- N. Wu, L. Fu, M. Su, M. Aslam, K.C. Wong and V.P. Dravid, Nano Lett., 4, 383 (2004).
- Z.L. Wang, J. Phys. Chem. B, 104, 1153 (2000).
- A. Lobo, T. Mo1ller, M. Nagel, H. Borchert, S.G. Hickey and H. Weller, J. Phys. Chem. B, 109, 17422 (2005).
References
X.G. Peng, L. Manna, W.D. Yang, J. Wickham, E. Scher, A. Kadavanich and A.P. Alivisators, Nature, 404, 59 (2004).
L. Bakueva, G. Konstantatos, L. Levina, S. Musikhin and E.H. Sargent, Appl. Phys. Lett., 84, 3459 (2004).
M. Nirmal and L.E. Brus, Acc. Chem. Res., 32, 407 (1999).
D. Kuang, A. Xu, Y. Fang, H. Liu, C. Frommen and D. Fenske, Adv. Mater., 15, 1747 (2003).
S. Wang and S. Yang, Langmuir, 16, 389 (2000).
S.M. Lee, Y.W. Jun, S.N. Cho and J.W. Cheon, J. Am. Chem. Soc., 124, 11244 (2002).
E. Leontidis, M. Orphanou, T. Kyprianidou-Leondidou, F. Krumeich and W. Caseri, Nano Lett., 3, 569 (2003).
Y. Ni, H. Liu, F. Wang, Y. Liang, J. Hong, X. Ma and Z. Xu, Cryst. Res. Technol., 39, 200 (2004).
D. Kuang, A. Xu, Y. Fang, H. Liu, C. Frommen and D. Fenske, Adv. Mater., 15, 1747 (2003).
Y. Ni, X. Wei, J. Hong and X. Ma, Cryst. Res. Technol., 41, 885 (2006).
Y.K.A. Lau, J.C. Davin, J.B. Matthew and J. Song, J. Am. Chem. Soc., 131, 16461 (2009).
Z.P. Qiao, Y. Zhang, L.T. Zhou and Q. Xire, Crystal Growth Design, 7, 2394 (2007).
F. Gao, Q. Lu, X. Liu, Y. Yan and D. Zhao, Nano Lett., 12, 743 (2001).
N. Wang, X. Cao, L. Guo, S. Yang and Z. Wu, ACS Nano, 2, 184 (2008).
R. Xie, D. Li, D. Yang and M. Jiang, J. Mater. Sci., 42, 1376 (2007).
N. Zhao and L. Qi, Adv. Mater., 18, 359 (2006).
D. Kuang, A. Xu, Y. Fang, H. Liu, C. Frommen and D. Fenske, Adv. Mater., 15, 1747 (2003).
J. Xiang, H. Cao, Q. Wu, S. Zhang and X. Zhang, Crystal Growth Design, 8, 3935 (2008).
B.L. Wehrenberg, C. Wang and P. Guyot-Sionnest, J. Phys. Chem. B, 106, 10634 (2002).
K.A. Dick, K. Deppert, M.W. Larsson, T. Mårtensson, W. Seifert, L.R. Wallenberg and L. Samuelson, Nat. Mater., 3, 380 (2004).
S.M. Lee, S.N. Cho and J. Cheon, Adv. Mater., 15, 441 (2003).
S.M. Lee, W.W. Jun, S.N. Cho and J. Cheon, J. Am. Chem. Soc., 124, 11244 (2002).
G. Russell, P. Henrichs, J. Hewitt, H. Grashof and M. Sandhu, Macromolecules, 14, 1764 (1981).
N. Wu, L. Fu, M. Su, M. Aslam, K.C. Wong and V.P. Dravid, Nano Lett., 4, 383 (2004).
Z.L. Wang, J. Phys. Chem. B, 104, 1153 (2000).
A. Lobo, T. Mo1ller, M. Nagel, H. Borchert, S.G. Hickey and H. Weller, J. Phys. Chem. B, 109, 17422 (2005).