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1.M. A. El-Sayed, Acc. Chem. Res. 34(4), 257264 (2001).
2.T. Maschmeyer, F. Rey, G. Sankar, and J. M. Thomas, Nature 378(6553), 159162 (1995).
3.K. Ariga, Y. Yamauchi, Q. Ji, Y. Yonamine, and J. P. Hill, APL Mater. 2(3), 030701 (2014).
4.L. Malfatti, D. Marongiu, S. Costacurta, P. Falcaro, H. Amenitsch, B. Marmiroli, G. Grenci, M. F. Casula, and P. Innocenzi, Chem. Mater. 22(6), 21322137 (2010).
5.L. Malfatti, P. Falcaro, B. Marmiroli, H. Amenitsch, M. Piccinini, A. Falqui, and P. Innocenzi, Nanoscale 3(9), 37603766 (2011).
6.M. D. Pérez, E. Otal, S. A. Bilmes, G. J. A. A. Soler-Illia, E. L. Crepaldi, D. Grosso, and C. Sanchez, Langmuir 20(16), 68796886 (2004).
7.M. C. Fuertes, M. Marchena, M. C. Marchi, A. Wolosiuk, and G. J. A. A. Soler-Illia, Small 5(2), 272280 (2009).
8.E. D. Martínez, M. G. Bellino, and G. J. A. A. Soler-Illia, ACS Appl. Mater. Interfaces 1(4), 746749 (2009).
9.L. Guerrini, E. Pazos, C. Penas, M. E. Vázquez, J. L. Mascareñas, and R. A. Alvarez-Puebla, J. Am. Chem. Soc. 135(28), 1031410317 (2013).
10.J. Theiss, P. Pavaskar, P. M. Echternach, R. E. Muller, and S. B. Cronin, Nano Lett. 10(8), 27492754 (2010).
11.H. Ko, S. Singamaneni, and V. V. Tsukruk, Small 4(10), 15761599 (2008).
12.M. H. Nurmawati, P. K. Ajikumar, R. Renu, C. H. Sow, and S. Valiyaveettil, ACS Nano 2(7), 14291436 (2008).
13.Y. Zhu, D. Wang, L. Zhang, F. Sun, J. Xu, S. Jiang, and Q. Yu, RSC Adv. 3(26), 1015410157 (2013).
14.M.-C. Liu, H.-S. Sheu, and S. Cheng, J. Am. Chem. Soc. 131(11), 39984005 (2009).
15.G. J. d. A. A. Soler-Illia, C. Sanchez, B. Lebeau, and J. Patarin, Chem. Rev. 102(11), 40934138 (2002).
16.L. Bois, F. Chassagneux, C. Desroches, Y. Battie, N. Destouches, N. Gilon, S. Parola, and O. Stéphan, Langmuir 26(11), 87298736 (2010).
17.Y.-H. Lai, S.-W. Chen, M. Hayashi, Y.-J. Shiu, C.-C. Huang, W.-T. Chuang, C.-J. Su, H.-C. Jeng, J.-W. Chang, Y.-C. Lee, A.-C. Su, C.-Y. Mou, and U. S. Jeng, Adv. Funct. Mater. 24(17), 25442552 (2014).
18.E. Yamamoto, M. Kitahara, T. Tsumura, and K. Kuroda, Chem. Mater. 26(9), 29272933 (2014).
19.J. Chen, Z. Xue, S. Feng, B. Tu, and D. Zhao, J. Colloid Interface Sci. 429(0), 6267 (2014).
20.F. Chassagneux, L. Bois, J.-P. Simon, C. Desroches, and A. Brioude, J. Mater. Chem. 21(32), 1194711955 (2011).
21.C. K. Tsung, W. B. Hong, Q. H. Shi, X. S. Kou, M. H. Yeung, J. F. Wang, and G. D. Stucky, Adv. Funct. Mater. 16(17), 22252230 (2006).
22.C.-J. Tsou, Y. Hung, and C.-Y. Mou, Microporous Mesoporous Mater. 190(0), 181188 (2014).
23.F.-P. Chang, Y. Hung, J.-H. Chang, C.-H. Lin, and C.-Y. Mou, ACS Appl. Mater. Interfaces 6(9), 68836890 (2014).
24.H. Yang, N. Coombs, and G. A. Ozin, J. Mater. Chem. 8(5), 12051211 (1998).
25.R. Silva, A. V. Biradar, L. Fabris, and T. Asefa, J. Phys. Chem. C 115(46), 2281022817 (2011).
26.K. Torigoe and K. Esumi, Langmuir 8(1), 5963 (1992).
27.U. S. Jeng, C. H. Su, C.-J. Su, K.-F. Liao, W.-T. Chuang, Y.-H. Lai, J.-W. Chang, Y.-J. Chen, Y.-S. Huang, M.-T. Lee, K.-L. Yu, J.-M. Lin, D.-G. Liu, C.-F. Chang, C.-Y. Liu, C.-H. Chang, and K. S. Liang, J. Appl. Crystallogr. 43, 110121 (2010).
28.W. Xie, B. Walkenfort, and S. Schlücker, J. Am. Chem. Soc. 135(5), 16571660 (2012).
29.X. Ren, E. Tan, X. Lang, T. You, L. Jiang, H. Zhang, P. Yin, and L. Guo, Phys. Chem. Chem. Phys. 15(34), 1419614201 (2013).
30.H.-Y. Wu, Y.-H. Lai, M.-S. Hsieh, S.-D. Lin, Y.-C. Li, and T.-W. Lin, “Highly Intensified Surface Enhanced Raman Scattering through the Formation of p,p’-Dimercaptoazobenzene on Ag Nanoparticles/Graphene Oxide Nanocomposites,” Adv. Mater. Interfaces (unpublished).
31.H. Wang, C. S. Levin, and N. J. Halas, J. Am. Chem. Soc. 127(43), 1499214993 (2005).

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A self-assembly template with a photoreduction agent embedded along mesostructured silicate-surfactant channels is prepared at the air-water interface. The unique template allows uniform and continuous uptake of metallic precursors into the silicate-surfactant channels from the solution subphase. Upon UV irradiation, the metallic precursors result in near-monodisperse nanoparticles homogeneously arrayed in the mesostructured polyoxometalated-silicate-surfactant (PSS) channels until saturation. With three dimensionally densely packed Au NPs of ca. 1.7 nm in the PSS template, hence a very high number density of surface-enhanced Raman scattering (SERS) hot-spots and large absorptive volume, we show that impressive SERS can be measured with 4-nitrothiophenol adsorbed to Au-NPs@PSS.


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