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Optica Publishing Group

Easy-to-make-and-use gold nanotrench arrays for surface-enhanced Raman scattering

Open Access Open Access

Abstract

To achieve a surface-enhanced Raman spectroscopy (SERS) sensor that is easy to make and use, we propose periodic gold nanotrench arrays, which can be fabricated without surface contamination and intricate sensor alignment. Deep and narrow plasmonic nanotrenches for amplifying local electromagnetic fields were reliably generated on a wafer-scale substrate by nanoimprint lithography and two successive oblique-angle depositions. Electromagnetic simulations and Raman measurements show that the proposed plasmonic nanostructures function as SERS sensors, enabling nanomolar sensitivity. Furthermore, we successfully confirmed the microRNA detection capability of the proposed nanostructures to demonstrate their promising potential and feasibility for use in biomedical diagnostic sensors.

© 2021 Optical Society of America

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References

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    [Crossref]
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    [Crossref]
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    [Crossref]
  5. S.-C. Luo, K. Sivashanmugan, J.-D. Liao, C.-K. Yao, and H.-C. Peng, “Nanofabricated SERS-active substrates for single-molecule to virus detection in vitro: A review,” Biosens. Bioelectron. 61, 232–240 (2014).
    [Crossref]
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    [Crossref]
  7. J.-S. Wi, J. D. Kim, W. Lee, H. Choi, M. Kwak, J. Song, T. G. Lee, and J. G. Ok, “Inkjet−printable nanoporous Ag disk arrays enabling coffee−ring effect−driven analyte enrichment towards practical SERS Applications,” Int. J. of Precis. Eng. and Manuf.-Green Tech. 82, 9626–9630 (2021).
    [Crossref]
  8. J. Langer, D. Jimenez de Aberasturi, J. Aizpurua, R. A. Alvarez-Puebla, B. Auguié, J. J. Baumberg, G. C. Bazan, S. E. J. Bell, A. Boisen, A. G. Brolo, J. Choo, D. Cialla-May, V. Deckert, L. Fabris, K. Faulds, F. J. García de Abajo, R. Goodacre, D. Graham, A. J. Haes, C. L. Haynes, C. Huck, T. Itoh, M. Käll, J. Kneipp, N. A. Kotov, H. Kuang, E. C. Le Ru, H. K. Lee, J.-F. Li, X. Y. Ling, S. A. Maier, T. Mayerhöfer, M. Moskovits, K. Murakoshi, J.-M. Nam, S. Nie, Y. Ozaki, I. Pastoriza-Santos, J. Perez-Juste, J. Popp, A. Pucci, S. Reich, B. Ren, G. C. Schatz, T. Shegai, S. Schlücker, L.-L. Tay, K. G. Thomas, Z.-Q. Tian, R. P. Van Duyne, T. Vo-Dinh, Y. Wang, K. A. Willets, C. Xu, H. Xu, Y. Xu, Y. S. Yamamoto, B. Zhao, and L. M. Liz-Marzán, “Present and Future of Surface-Enhanced Raman Scattering,” ACS Nano 14(1), 28–117 (2020).
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  9. J. Yu, M. Yang, Z. Li, C. Liu, Y. Wei, C. Zhang, B.n Man, and F. Lei, “Hierarchical particle-in-quasicavity architecture for ultratrace in situ raman sensing and its application in real-time monitoring of toxic pollutants,” Anal. Chem. 92(21), 14754–14761 (2020).
    [Crossref]
  10. C. Li, S. Xu, J. Yu, Z. Li, W. Li, J. Wang, A. Liu, B. Man, S. Yang, and C. Zhang, “Local hot charge density regulation: Vibration-free pyroelectric nanogenerator for effectively enhancing catalysis and in-situ surface enhanced Raman scattering monitoring,” Nano Energy 81, 105585 (2021).
    [Crossref]
  11. D.-K. Lim, K.-S. Jeon, H. M. Kim, J.-M. Nam, and Y. D. Suh, “Nanogap-engineerable Raman-active nanodumbbells for single-molecule detection,” Nat. Mater. 9(1), 60–67 (2010).
    [Crossref]
  12. H. Im, K. C. Bantz, N. C. Lindquist, C. L. Haynes, and S.-H. Oh, “Vertically oriented sub-10-nm plasmonic nanogap arrays,” Nano Lett. 10(6), 2231–2236 (2010).
    [Crossref]
  13. J.-S. Wi, E. S. Barnard, R. J. Wilson, M. Zhang, M. Tang, M. L. Brongersma, and S. X. Wang, “Sombrero-shaped plasmonic nanoparticles with molecular-level sensitivity and multifunctionality,” ACS Nano 5(8), 6449–6457 (2011).
    [Crossref]
  14. J.-M. Nam, J.-W. Oh, H. Lee, and Y. D. Suh, “Plasmonic nanogap-enhanced raman scattering with nanoparticles,” Acc. Chem. Res. 49(12), 2746–2755 (2016).
    [Crossref]
  15. X. Xiu, Y. Guo, C. Li, Z. Li, D. Li, C. Zang, S. Jiang, A. Liu, B. Man, and C. Zhang, “High-performance 3D flexible SERS substrate based on graphene oxide/silver nanoparticles/pyramid PMMA,” Opt. Mater. Express 8(4), 844–857 (2018).
    [Crossref]
  16. X. Zhao, C. Liu, J. Yu, Z. Li, L. Liu, C. Li, S. Xu, W. Li, Ba. Man, and C. Zhang, “Hydrophobic multiscale cavities for high-performance and self-cleaning surface-enhanced Raman spectroscopy (SERS) sensing,” Nanophotonics 9(16), 4761–4773 (2020).
    [Crossref]
  17. R. Liu, Z. Zha, M. Shafi, C. Li, W. Yang, S. Xu, M. Liu, and S. Jiang, “Bulk plasmon polariton in hyperbolic metamaterials excited by multilayer nanoparticles for surface-enhanced Raman scattering (SERS) sensing,” Nanophotonics 10(11), 2949–2958 (2021).
    [Crossref]
  18. Y. Sun and T. Li, “Composition-tunable hollow Au/Ag SERS nanoprobes coupled with target-catalyzed hairpin assembly for triple-amplification detection of miRNA,” Anal. Chem. 90(19), 11614–11621 (2018).
    [Crossref]
  19. H.-N. Wang, B. M. Crawford, A. M. Fales, M. L. Bowie, V. L. Seewaldt, and T. Vo-Dinh, “Multiplexed detection of MicroRNA biomarkers using SERS-Based inverse molecular sentinel (iMS) nanoprobes,” J. Phys. Chem. C 120(37), 21047–21055 (2016).
    [Crossref]
  20. E. Koglin, A. Tarazona, S. Kreisig, and M. J. Schwuger, “In-situ investigations of coadsorbed cationic surfactants on charged surfaces: a SERS microprobe study,” Colloids Surf. A Physicochem. Eng. Asp. 123-124, 523–542 (1997).
    [Crossref]
  21. F. Zeng, D. Xu, C. Zhan, C. Liang, W. Zhao, J. Zhang, H. Feng, and X. Ma, “Surfactant-free synthesis of graphene oxide coated silver nanoparticles for SERS biosensing and intracellular drug delivery,” ACS Appl. Nano Mater. 1(6), 2748–2753 (2018).
    [Crossref]
  22. T. Lee, D. Jung, J.-S. Wi, H. Lim, and J.-J. Lee, “Surfactant-free galvanic replacement for synthesis of raspberry-like silver nanostructure pattern with multiple hot-spots as sensitive and reproducible SERS substrates,” Appl. Surf. Sci. 505, 144548 (2020).
    [Crossref]
  23. J.-S. Wi, J. G. Son, S. W. Han, and T. G. Lee, “Nanoparticles inside nanodishes for plasmon excitations,” Appl. Phys. Lett. 107(20), 203102 (2015).
    [Crossref]
  24. E. D. Palik, Handbook of Optical Constants of Solids (Academic, 1985).
  25. Y. Zhao, X. Liu, D. Y. Lei, and Y. Chai, “Effects of surface roughness of Ag thin films on surface-enhanced Raman spectroscopy of graphene: spatial nonlocality and physisorption strain,” Nanoscale 6(3), 1311–1317 (2014).
    [Crossref]
  26. E.-O. Ganbold, J.-H. Park, U. Dembereldorj, K.-S. Ock, and S.-W. Joo, “Charge-dependent adsorption of rhodamine 6G on gold nanoparticle surfaces: fluorescence and Raman study,” J. Raman Spectrosc. 42(8), 1614–1619 (2011).
    [Crossref]
  27. M. Giesbers, J. M. Kleijn, and M. A. Cohen Stuart, “The electrical double layer on gold probed by electrokinetic and surface force measurements,” J. Colloid Interface Sci. 248(1), 88–95 (2002).
    [Crossref]
  28. G. S. S. Saini, S. Kaur, S. K. Tripathi, C. G. Mahajan, H. H. Thanga, and A. L. Verma, “Spectroscopic studies of rhodamine 6G dispersed in polymethylcyanoacrylate,” Spectrochim. Acta A 61(4), 653–658 (2005).
    [Crossref]
  29. J. Lee, E.-A. You, D. W. Hwang, S. Kang, and J.-S. Wi, “Active accumulation of spherical analytes on plasmonic hot spots of double-bent Au strip arrays by multiple dip-coating,” Nanomaterials 9(5), 660 (2019).
    [Crossref]
  30. R. Baffa, M. Fassan, S. Volinia, B. O’Hara, C.-G. Liu, J. P. Palazzo, M. Gardiman, M. Rugge, L. G. Gomella, C. M. Croce, and A. Rosenberg, “MicroRNA expression profiling of human metastatic cancers identifies cancer gene targets,” J. Pathol. 219(2), 214–221 (2009).
    [Crossref]
  31. J. Banzhaf-Strathmann and D. Edbauer, “Good guy or bad guy: the opposing roles of microRNA 125b in cancer,” Cell Commun Signal 12(1), 30 (2014).
    [Crossref]
  32. J. D. Driskell, A. G. Seto, L. P. Jones, S. Jokela, R. A. Dluhy, Y. P. Zhao, and R. A. Tripp, “Rapid microRNA (miRNA) detection and classification via surface-enhanced Raman spectroscopy (SERS),” Biosens. Bioelectron. 24(4), 917–922 (2008).
    [Crossref]
  33. L. Yu, S. Wu, Y. Liu, P. Song, and L. Xia, “Distance-regulating surface plasmon catalyzed coupling reaction of p-nitrophenyl disulfide,” RSC Adv. 8(62), 35646–35650 (2018).
    [Crossref]
  34. J. J. Schaefer, C. Ma, and J. M. Harris, “Confocal Raman microscopy probing of temperature-controlled release from individual, optically-trapped phospholipid vesicles,” Anal. Chem. 84(21), 9505–9512 (2012).
    [Crossref]

2021 (3)

J.-S. Wi, J. D. Kim, W. Lee, H. Choi, M. Kwak, J. Song, T. G. Lee, and J. G. Ok, “Inkjet−printable nanoporous Ag disk arrays enabling coffee−ring effect−driven analyte enrichment towards practical SERS Applications,” Int. J. of Precis. Eng. and Manuf.-Green Tech. 82, 9626–9630 (2021).
[Crossref]

C. Li, S. Xu, J. Yu, Z. Li, W. Li, J. Wang, A. Liu, B. Man, S. Yang, and C. Zhang, “Local hot charge density regulation: Vibration-free pyroelectric nanogenerator for effectively enhancing catalysis and in-situ surface enhanced Raman scattering monitoring,” Nano Energy 81, 105585 (2021).
[Crossref]

R. Liu, Z. Zha, M. Shafi, C. Li, W. Yang, S. Xu, M. Liu, and S. Jiang, “Bulk plasmon polariton in hyperbolic metamaterials excited by multilayer nanoparticles for surface-enhanced Raman scattering (SERS) sensing,” Nanophotonics 10(11), 2949–2958 (2021).
[Crossref]

2020 (4)

J. Langer, D. Jimenez de Aberasturi, J. Aizpurua, R. A. Alvarez-Puebla, B. Auguié, J. J. Baumberg, G. C. Bazan, S. E. J. Bell, A. Boisen, A. G. Brolo, J. Choo, D. Cialla-May, V. Deckert, L. Fabris, K. Faulds, F. J. García de Abajo, R. Goodacre, D. Graham, A. J. Haes, C. L. Haynes, C. Huck, T. Itoh, M. Käll, J. Kneipp, N. A. Kotov, H. Kuang, E. C. Le Ru, H. K. Lee, J.-F. Li, X. Y. Ling, S. A. Maier, T. Mayerhöfer, M. Moskovits, K. Murakoshi, J.-M. Nam, S. Nie, Y. Ozaki, I. Pastoriza-Santos, J. Perez-Juste, J. Popp, A. Pucci, S. Reich, B. Ren, G. C. Schatz, T. Shegai, S. Schlücker, L.-L. Tay, K. G. Thomas, Z.-Q. Tian, R. P. Van Duyne, T. Vo-Dinh, Y. Wang, K. A. Willets, C. Xu, H. Xu, Y. Xu, Y. S. Yamamoto, B. Zhao, and L. M. Liz-Marzán, “Present and Future of Surface-Enhanced Raman Scattering,” ACS Nano 14(1), 28–117 (2020).
[Crossref]

J. Yu, M. Yang, Z. Li, C. Liu, Y. Wei, C. Zhang, B.n Man, and F. Lei, “Hierarchical particle-in-quasicavity architecture for ultratrace in situ raman sensing and its application in real-time monitoring of toxic pollutants,” Anal. Chem. 92(21), 14754–14761 (2020).
[Crossref]

T. Lee, D. Jung, J.-S. Wi, H. Lim, and J.-J. Lee, “Surfactant-free galvanic replacement for synthesis of raspberry-like silver nanostructure pattern with multiple hot-spots as sensitive and reproducible SERS substrates,” Appl. Surf. Sci. 505, 144548 (2020).
[Crossref]

X. Zhao, C. Liu, J. Yu, Z. Li, L. Liu, C. Li, S. Xu, W. Li, Ba. Man, and C. Zhang, “Hydrophobic multiscale cavities for high-performance and self-cleaning surface-enhanced Raman spectroscopy (SERS) sensing,” Nanophotonics 9(16), 4761–4773 (2020).
[Crossref]

2019 (1)

J. Lee, E.-A. You, D. W. Hwang, S. Kang, and J.-S. Wi, “Active accumulation of spherical analytes on plasmonic hot spots of double-bent Au strip arrays by multiple dip-coating,” Nanomaterials 9(5), 660 (2019).
[Crossref]

2018 (5)

L. Yu, S. Wu, Y. Liu, P. Song, and L. Xia, “Distance-regulating surface plasmon catalyzed coupling reaction of p-nitrophenyl disulfide,” RSC Adv. 8(62), 35646–35650 (2018).
[Crossref]

X. Xiu, Y. Guo, C. Li, Z. Li, D. Li, C. Zang, S. Jiang, A. Liu, B. Man, and C. Zhang, “High-performance 3D flexible SERS substrate based on graphene oxide/silver nanoparticles/pyramid PMMA,” Opt. Mater. Express 8(4), 844–857 (2018).
[Crossref]

F. Zeng, D. Xu, C. Zhan, C. Liang, W. Zhao, J. Zhang, H. Feng, and X. Ma, “Surfactant-free synthesis of graphene oxide coated silver nanoparticles for SERS biosensing and intracellular drug delivery,” ACS Appl. Nano Mater. 1(6), 2748–2753 (2018).
[Crossref]

T. Lee, J.-S. Wi, A. Oh, H.-K. Na, J. Lee, K. Lee, T. G. Lee, and S. Haam, “Highly robust, uniform and ultra-sensitive surface-enhanced Raman scattering substrates for microRNA detection fabricated by using silver nanostructures grown in gold nanobowls,” Nanoscale 10(8), 3680–3687 (2018).
[Crossref]

Y. Sun and T. Li, “Composition-tunable hollow Au/Ag SERS nanoprobes coupled with target-catalyzed hairpin assembly for triple-amplification detection of miRNA,” Anal. Chem. 90(19), 11614–11621 (2018).
[Crossref]

2016 (2)

H.-N. Wang, B. M. Crawford, A. M. Fales, M. L. Bowie, V. L. Seewaldt, and T. Vo-Dinh, “Multiplexed detection of MicroRNA biomarkers using SERS-Based inverse molecular sentinel (iMS) nanoprobes,” J. Phys. Chem. C 120(37), 21047–21055 (2016).
[Crossref]

J.-M. Nam, J.-W. Oh, H. Lee, and Y. D. Suh, “Plasmonic nanogap-enhanced raman scattering with nanoparticles,” Acc. Chem. Res. 49(12), 2746–2755 (2016).
[Crossref]

2015 (1)

J.-S. Wi, J. G. Son, S. W. Han, and T. G. Lee, “Nanoparticles inside nanodishes for plasmon excitations,” Appl. Phys. Lett. 107(20), 203102 (2015).
[Crossref]

2014 (3)

Y. Zhao, X. Liu, D. Y. Lei, and Y. Chai, “Effects of surface roughness of Ag thin films on surface-enhanced Raman spectroscopy of graphene: spatial nonlocality and physisorption strain,” Nanoscale 6(3), 1311–1317 (2014).
[Crossref]

J. Banzhaf-Strathmann and D. Edbauer, “Good guy or bad guy: the opposing roles of microRNA 125b in cancer,” Cell Commun Signal 12(1), 30 (2014).
[Crossref]

S.-C. Luo, K. Sivashanmugan, J.-D. Liao, C.-K. Yao, and H.-C. Peng, “Nanofabricated SERS-active substrates for single-molecule to virus detection in vitro: A review,” Biosens. Bioelectron. 61, 232–240 (2014).
[Crossref]

2012 (2)

B. Sharma, R. R. Frontiera, A.-I. Henry, E. Ringe, and R. P. Van Duyne, “SERS: Materials, applications, and the future,” Mater. Today 15(1-2), 16–25 (2012).
[Crossref]

J. J. Schaefer, C. Ma, and J. M. Harris, “Confocal Raman microscopy probing of temperature-controlled release from individual, optically-trapped phospholipid vesicles,” Anal. Chem. 84(21), 9505–9512 (2012).
[Crossref]

2011 (2)

E.-O. Ganbold, J.-H. Park, U. Dembereldorj, K.-S. Ock, and S.-W. Joo, “Charge-dependent adsorption of rhodamine 6G on gold nanoparticle surfaces: fluorescence and Raman study,” J. Raman Spectrosc. 42(8), 1614–1619 (2011).
[Crossref]

J.-S. Wi, E. S. Barnard, R. J. Wilson, M. Zhang, M. Tang, M. L. Brongersma, and S. X. Wang, “Sombrero-shaped plasmonic nanoparticles with molecular-level sensitivity and multifunctionality,” ACS Nano 5(8), 6449–6457 (2011).
[Crossref]

2010 (2)

D.-K. Lim, K.-S. Jeon, H. M. Kim, J.-M. Nam, and Y. D. Suh, “Nanogap-engineerable Raman-active nanodumbbells for single-molecule detection,” Nat. Mater. 9(1), 60–67 (2010).
[Crossref]

H. Im, K. C. Bantz, N. C. Lindquist, C. L. Haynes, and S.-H. Oh, “Vertically oriented sub-10-nm plasmonic nanogap arrays,” Nano Lett. 10(6), 2231–2236 (2010).
[Crossref]

2009 (1)

R. Baffa, M. Fassan, S. Volinia, B. O’Hara, C.-G. Liu, J. P. Palazzo, M. Gardiman, M. Rugge, L. G. Gomella, C. M. Croce, and A. Rosenberg, “MicroRNA expression profiling of human metastatic cancers identifies cancer gene targets,” J. Pathol. 219(2), 214–221 (2009).
[Crossref]

2008 (2)

J. D. Driskell, A. G. Seto, L. P. Jones, S. Jokela, R. A. Dluhy, Y. P. Zhao, and R. A. Tripp, “Rapid microRNA (miRNA) detection and classification via surface-enhanced Raman spectroscopy (SERS),” Biosens. Bioelectron. 24(4), 917–922 (2008).
[Crossref]

P. L. Stiles, J. A. Dieringer, N. C. Shah, and R. P. V. Duyne, “Surface-Enhanced Raman Spectroscopy,” Annu. Rev. Anal. Chem. 1(1), 601–626 (2008).
[Crossref]

2005 (1)

G. S. S. Saini, S. Kaur, S. K. Tripathi, C. G. Mahajan, H. H. Thanga, and A. L. Verma, “Spectroscopic studies of rhodamine 6G dispersed in polymethylcyanoacrylate,” Spectrochim. Acta A 61(4), 653–658 (2005).
[Crossref]

2002 (1)

M. Giesbers, J. M. Kleijn, and M. A. Cohen Stuart, “The electrical double layer on gold probed by electrokinetic and surface force measurements,” J. Colloid Interface Sci. 248(1), 88–95 (2002).
[Crossref]

1997 (3)

K. Kneipp, Y. Wang, H. Kneipp, L. T. Perelman, I. Itzkan, R. R. Dasari, and M. S. Feld, “Single Molecule Detection Using Surface-Enhanced Raman Scattering (SERS),” Phys. Rev. Lett. 78(9), 1667–1670 (1997).
[Crossref]

S. Nie and S. R. Emory, “Probing Single Molecules and Single Nanoparticles by Surface-Enhanced Raman Scattering,” Science 275(5303), 1102–1106 (1997).
[Crossref]

E. Koglin, A. Tarazona, S. Kreisig, and M. J. Schwuger, “In-situ investigations of coadsorbed cationic surfactants on charged surfaces: a SERS microprobe study,” Colloids Surf. A Physicochem. Eng. Asp. 123-124, 523–542 (1997).
[Crossref]

Aizpurua, J.

J. Langer, D. Jimenez de Aberasturi, J. Aizpurua, R. A. Alvarez-Puebla, B. Auguié, J. J. Baumberg, G. C. Bazan, S. E. J. Bell, A. Boisen, A. G. Brolo, J. Choo, D. Cialla-May, V. Deckert, L. Fabris, K. Faulds, F. J. García de Abajo, R. Goodacre, D. Graham, A. J. Haes, C. L. Haynes, C. Huck, T. Itoh, M. Käll, J. Kneipp, N. A. Kotov, H. Kuang, E. C. Le Ru, H. K. Lee, J.-F. Li, X. Y. Ling, S. A. Maier, T. Mayerhöfer, M. Moskovits, K. Murakoshi, J.-M. Nam, S. Nie, Y. Ozaki, I. Pastoriza-Santos, J. Perez-Juste, J. Popp, A. Pucci, S. Reich, B. Ren, G. C. Schatz, T. Shegai, S. Schlücker, L.-L. Tay, K. G. Thomas, Z.-Q. Tian, R. P. Van Duyne, T. Vo-Dinh, Y. Wang, K. A. Willets, C. Xu, H. Xu, Y. Xu, Y. S. Yamamoto, B. Zhao, and L. M. Liz-Marzán, “Present and Future of Surface-Enhanced Raman Scattering,” ACS Nano 14(1), 28–117 (2020).
[Crossref]

Alvarez-Puebla, R. A.

J. Langer, D. Jimenez de Aberasturi, J. Aizpurua, R. A. Alvarez-Puebla, B. Auguié, J. J. Baumberg, G. C. Bazan, S. E. J. Bell, A. Boisen, A. G. Brolo, J. Choo, D. Cialla-May, V. Deckert, L. Fabris, K. Faulds, F. J. García de Abajo, R. Goodacre, D. Graham, A. J. Haes, C. L. Haynes, C. Huck, T. Itoh, M. Käll, J. Kneipp, N. A. Kotov, H. Kuang, E. C. Le Ru, H. K. Lee, J.-F. Li, X. Y. Ling, S. A. Maier, T. Mayerhöfer, M. Moskovits, K. Murakoshi, J.-M. Nam, S. Nie, Y. Ozaki, I. Pastoriza-Santos, J. Perez-Juste, J. Popp, A. Pucci, S. Reich, B. Ren, G. C. Schatz, T. Shegai, S. Schlücker, L.-L. Tay, K. G. Thomas, Z.-Q. Tian, R. P. Van Duyne, T. Vo-Dinh, Y. Wang, K. A. Willets, C. Xu, H. Xu, Y. Xu, Y. S. Yamamoto, B. Zhao, and L. M. Liz-Marzán, “Present and Future of Surface-Enhanced Raman Scattering,” ACS Nano 14(1), 28–117 (2020).
[Crossref]

Auguié, B.

J. Langer, D. Jimenez de Aberasturi, J. Aizpurua, R. A. Alvarez-Puebla, B. Auguié, J. J. Baumberg, G. C. Bazan, S. E. J. Bell, A. Boisen, A. G. Brolo, J. Choo, D. Cialla-May, V. Deckert, L. Fabris, K. Faulds, F. J. García de Abajo, R. Goodacre, D. Graham, A. J. Haes, C. L. Haynes, C. Huck, T. Itoh, M. Käll, J. Kneipp, N. A. Kotov, H. Kuang, E. C. Le Ru, H. K. Lee, J.-F. Li, X. Y. Ling, S. A. Maier, T. Mayerhöfer, M. Moskovits, K. Murakoshi, J.-M. Nam, S. Nie, Y. Ozaki, I. Pastoriza-Santos, J. Perez-Juste, J. Popp, A. Pucci, S. Reich, B. Ren, G. C. Schatz, T. Shegai, S. Schlücker, L.-L. Tay, K. G. Thomas, Z.-Q. Tian, R. P. Van Duyne, T. Vo-Dinh, Y. Wang, K. A. Willets, C. Xu, H. Xu, Y. Xu, Y. S. Yamamoto, B. Zhao, and L. M. Liz-Marzán, “Present and Future of Surface-Enhanced Raman Scattering,” ACS Nano 14(1), 28–117 (2020).
[Crossref]

Baffa, R.

R. Baffa, M. Fassan, S. Volinia, B. O’Hara, C.-G. Liu, J. P. Palazzo, M. Gardiman, M. Rugge, L. G. Gomella, C. M. Croce, and A. Rosenberg, “MicroRNA expression profiling of human metastatic cancers identifies cancer gene targets,” J. Pathol. 219(2), 214–221 (2009).
[Crossref]

Bantz, K. C.

H. Im, K. C. Bantz, N. C. Lindquist, C. L. Haynes, and S.-H. Oh, “Vertically oriented sub-10-nm plasmonic nanogap arrays,” Nano Lett. 10(6), 2231–2236 (2010).
[Crossref]

Banzhaf-Strathmann, J.

J. Banzhaf-Strathmann and D. Edbauer, “Good guy or bad guy: the opposing roles of microRNA 125b in cancer,” Cell Commun Signal 12(1), 30 (2014).
[Crossref]

Barnard, E. S.

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ACS Nano (2)

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Supplementary Material (1)

NameDescription
Supplement 1       Details of SERS measurements

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