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119. J. M. Seminario, A. G. Zacarias, and J. M. Tour, J. Am. Chem. Soc., 120:3970–3974
(1998).
120. M. Levitus, K. Schmieder, H. Ricks, K. D. Shimizu, U. H. F. Bunz, and M. A.
Garcia-Garibay, J. Am. Chem. Soc., 123:4259–4265 (2001).
121. T. Miteva, L. Palmer, L. Kloppenburg, D. Neher, and U. H. F. Bunz, Macromolecules,
33:652–654 (2000).
122. Q. Chu and Y. Pang, Macromolecules, 36:4614–4618 (2003).
123. U. H. F. Bunz, Chem. Rev., 100:1605–1644 (2000).
124. U. H. F. Bunz, Acc. Chem. Res., 34:998–1010 (2001).
125. D. M. de Leeuw, M. M. J. Simenon, A. R. Brown, and R. E. F. Einerhand, Synth.
Met., 87:53–59 (1997).
126. W. Kern (ed.), Handbook of Semiconductor Wafer Cleaning Technology: Science,
Technology, and Applications, Noyes Publications, Park Ridge, N. J., 1993.
127. W. Kern and D. A. Puotinen, RCA Rev., 31:187–206 (1970).
128. M. Stolka and M. A. Abkowitz, Synth. Met., 54:417 (1993).
129. H. Sirringhaus, N. Tessler, and R. H. Friend, Science, 280:1741–1744 (1998).
130. L. Torsi, A. Dodabalapur, A. J. Lovinger, H. E. Katz, R. Ruel, D. D. Davis, and
K. W. Baldwin, Chem. Mater., 7:2247–2251 (1995).
131. A. Dell’Aquila, F. Marinelli, J. Tey, P. Keg, Y.-M. Lam, O. L. Kapitanchuk,
P. Mastrorilli, et al., J. Mater. Chem., 18:786–791 (2008).
132. J.-H. Park, D. S. Chung, J.-W. Park, T. Ahn, H. Kong, Y. K. Jung, J. Lee, et al.,
Org. Lett., 9:2573–2576 (2007).
133. W. Cui, X. Zhang, X. Jiang, H. Tian, D. Yan, Y. Geng, X. Jing, et al., Org. Lett.,
8:785–788 (2006).
134. R. Schmidt, S. Gottling, D. Leusser, D. Stalke, A.-M. Krause, and F. J. Wurthner,
Mater. Chem., 16:3708–3714 (2006).
135. A. Marchenko, N. Katsonis, D. Fichou, C. Aubert, and M. Malacria, J. Am.
Chem. Soc., 124:9998–9999 (2002).
136. N. Katsonis, A. Marchenko, and D. Fichou, J. Am. Chem. Soc., 125:13682–13683
(2003).
137. A. Nion, P. Jiang, A. Popoff, and D. Fichou, J. Am. Chem. Soc., 129:2450–2451
(2007).
138. Y. Shirota and H. Kageyama, Chem. Rev., 107:953–1010 (2007).
139. W. Hu, Y. Liu, Y. Xu, S. Liu, S. Zhou, D. Zhu, B. Xu, et al., Thin Solid Films,
360:256–260 (2000).
140. B. Wanga, X. Zuoa, Y. Wua, Z. Chena, and Z. Lia, Mater. Lett., 59:3073–3077 (2005).
141. J. Bruneta, A. Paulya, L. Mazeta, J. P. Germaina, M. Bouvet, and B. Malezieux,
Thin Solid Films, 490:28–35 (2005).
142. C. Gu, L. Sun, T. Zhang, and T. Li, Thin Solid Films, 490:863–865 (1996).
143. F. Naso, F. Babudri, D. Colangiuli, G. M. Farinola, F. Quaranta, R. Rella, R. Tafuro,
et al., J. Am. Chem. Soc., 125:9055–9061 (2003).
144. W. Qiu, W. Hu, Y. Liu, S. Zhou, Y. Xu, and D. Zhu, Sens. Actuat. B, 75:62–66
(2001).
145. Y.-L. Lee, C-Yi. Sheu, and R.-H. Hsiao, Sens. Actuat. B, 99:281–287 (2004).
146. A. Star, J.-C. P. Gabriel, K. Bradley, and G. Grüner, Nano Lett., 3:459–463
(2003).
147. L. Valentini, F. Mercuri, I. Armentano, C. Cantaldini, S. Picozzi, L. Pozzi,
S. Santucci, et al., Chem. Phys. Lett., 387:356–361 (2004).
148. J. C. Hsieh, C. J. Liu, and Y. H. Ju, Thin Solid Films, 322:98–103 (1998).
149. A. Das, R. Dost, T. Richardson, M. Grell, J. J. Morrison, and M. L. Turner, Adv.
Mater., 19:4018–4023 (2007).
150. M. E. Franke, T. J. Koplin, and U. Simon, Small, 2:36–50 (2006).
151. G. Jimènez-Cadena, J. Riu, and F. X. Rius, Analyst, 132:1083–1099 (2007) and
references therein.
152. M.-I. Baraton (ed.), Synthesis, Functionalization and Surface Treatment of
Nanoparticles, American Scientific Publishers, Stevenson Ranch, Calif., 2003.
153. H. Wohltjen and A. W. Snow, Anal. Chem., 70:2856–2859 (1998).
154. A. K. Sharma and B. D. Gupta, Photonics Nanostr., 3:30–37 (2005).
155. C. A. Mirkin, R. L. Letsinger, R. C. Mucic, and J. J. Storhoff, Nature, 382:607–609
(1996).

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