CrossRef 9 Siegfried T, Ekinci Y, Solak HH, Martin OJF, Sigg H:

CrossRef 9. Siegfried T, Ekinci Y, Solak HH, Martin OJF, Sigg H: Fabrication of sub-10 nm gap arrays over large areas for plasmonic sensors. Appl Phys Lett 2011, 99:263302.CrossRef 10. Cho WJ, Kim Y, APR-246 ic50 Kim JK: Ultrahigh-density array of silver nanoclusters

for SERS substrate with high sensitivity and excellent reproducibility. ACS nano 2012, 6:249–255.CrossRef 11. Gupta MK, Chang S, Singamaneni S, Drummy LF, Gunawidjaja R, Naik RR, Tsukruk VV: pH-triggered SERS via modulated plasmonic coupling in individual bimetallic nanocobs. Small 2011, 7:1192–1198.CrossRef 12. Hu X, Meng G, Huang Q, Xu W, Han F, Sun K, Xu Q, Wang Z: Large-scale homogeneously distributed Ag-NPs with sub-10 nm gaps assembled on a two-layered honeycomb-like TiO2 film as sensitive and reproducible SERS substrates. Nanotechnology 2012, 23:385705.CrossRef 13. Jin M, Van Wolferen H, Wormeester H, van den Berg A, Carlen ET: Large-area nanogap plasmon resonator arrays for plasmonics applications. Nanoscale 2012, 4:4712–4718.CrossRef

14. Kostovski G, Chinnasamy U, Jayawardhana S, Stoddart PR, Mitchell A: Sub-15nm optical fiber nanoimprint lithography: a parallel self-aligned and portable approach. Adv Mater 2011, 23:531.CrossRef 15. Li JF, Huang YF, Ding Y, Yang ZL, Li SB, Zhou XS, Fan FR, Zhang selleck screening library W, Zhou ZY, Wu DY, Ren B, Wang ZL, Tian ZQ: Shell-isolated nanoparticle-enhanced Raman spectroscopy. Nature 2010, 464:392–395.CrossRef 16. www.selleckchem.com/products/MK-1775.html Alexander KD, Skinner K, Zhang S, Wei H, Lopez R: Tunable SERS in gold Reverse transcriptase nanorod dimers through strain control on an elastomeric substrate. Nano Lett 2010, 10:4488–4493.CrossRef 17. Caldwell JD, Glembocki O, Bezares FJ, Bassim ND, Rendell RW, Feygelson M, Ukaegbu M, Kasica R, Shirey L, Hosten C: Plasmonic nanopillar arrays for large-area, high-enhancement surface-enhanced Raman scattering sensors. ACS nano 2011, 5:4046–4055.CrossRef 18. Brolo AG, Arctander E, Gordon R, Leathem B, Kavanagh KL: Nanohole-enhanced Raman scattering. Nano Lett 2004, 4:2015–2018.CrossRef 19. Chu Y, Wang D, Zhu W, Crozier KB: Double resonance surface enhanced Raman scattering substrates: an intuitive coupled oscillator model. Opt Express 2011, 19:14919–14928.CrossRef 20. Gong J, Lipomi

DJ, Deng J, Nie Z, Chen X, Randall NX, Nair R, Whitesides GM: Micro- and nanopatterning of inorganic and polymeric substrates by indentation lithography. Nano Lett 2010, 10:2702–2708.CrossRef 21. Zhang XY, Hu A, Zhang T, Lei W, Xue XJ, Zhou Y, Duley WW: Self-assembly of large-scale and ultrathin silver nanoplate films with tunable plasmon resonance properties. ACS nano 2011, 5:9082–9092.CrossRef 22. He HX, Zhang H, Li QG, Zhu T, Li SFY, Liu ZF: Fabrication of designed architectures of Au nanoparticles on solid substrate with printed self-assembled monolayers as templates. Langmuir 2000, 16:3846–3851.CrossRef 23. Liu GL, Lee LP: Nanowell surface enhanced Raman scattering arrays fabricated by soft-lithography for label-free biomolecular detections in integrated microfluidics.

Comments are closed.